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Kansas City police are searching for a car that hit and killed a man using a motorized wheelchair. The car drove off after the crash Monday in downtown Kansas City. Sgt. Bill Mahoney says a preliminary investigation found that the man was using the crosswalk when he was hit by the car. Pieces of the wheelchair were left scattered on the street. The man died at a hospital. His name has not been released. Police are looking for a white Saturn Aura.
2024-05-23T01:26:36.242652
https://example.com/article/1912
When I was a little girl, my mother showed me how to heal the sick, and how to cure hearts aching and waning. When she played her golden lute to those who were ill, I would see their skin regain its color, hear their heartbeats become rhythmic again, and enjoy their smiles of gratitude. But she also told me very clearly, that this instrument was very dangerous. The lute must be played very carefully, that very few could resist its powerful sound, and to never, ever, play it amongst those who had already died. Then... she left me, and she took the lute with her. I never saw either of them ever again. I was angry, but also alone, scared, saddened. I remember seeing her walk out the front door for the last time, promising that the lute would never burden us again. Its power was too alluring, and she feared it would curse us forever. After the villagers had turned up on our door, torches and pitchforks wielded in anger, and my mother had been adamant about being the keeper of the lute, I wanted nothing more with it. No more golden lutes, no more unearthly sounds. I just wanted to live a good life after that, and be at peace. ~~~ Many years later ~~~ "I just need to find the golden lute! I can save you!" I could see the greed in his eyes, behind the desperation. It was just like before. People asking to play it, to help others, to save them. I remembered my mother's warning, to never trust anyone with it. And Dorian… I loved him, and I knew he meant well, but if the golden lute came back here, to my home, to my family… I couldn't imagine what would befall us. "Dorian, please… let that thing go." I tried to plead with him. I knew he was desperate, willing to do anything to save me, but… looking for it wasn't worth the trouble, it wasn't worth all the misery the lute would bring. "I just wanna help you, Melody. Can't you see that?" He said, his strong hands gripping my frail, cold ones. His strength at a time like this was admirable, and even warmed my dying heart. I wanted to smile, but I couldn't muster the energy to even do that. "There's a reason my mother took that thing away, Dorian. Don't go…" I just needed him to stay with me. Now more than ever I needed him on my side. And Cadence… sweet Cadence, she needed Dorian, too. And I want them both here. I wanted to see them both, their love and faces, before I left them. But Dorian, he couldn't stop. Knowing that there any possibility of stopping this illness urged him on, and never heeded my warnings. "I have to find it. I… I have to risk it." He replied, steeling himself. I wondered if he ever would find it, and I worried if he'd still take good care of Cadence while I was away. Life would get very difficult for her, and she'd need both Dorian and Eli to have a good life. I just hoped that for as long as I lived, they'd be here with me. ~~~ Very late that night ~~~ My coughing only grew weaker, but only because I lacked the energy to even raise my head above my shoulders. I knew I had very little time left. I slowly turned my head around, seeing Dorian asleep on a chair, tired from going around the village, trying to find anything that would cure me, or at least keep me healthy for just a bit longer. "Dorian…" I whispered, my voice too soft to be noticed. "Dorian." I tried again, a little louder. Dorian slowly opened his eyes, and looked at me. He stood up and walked up to me, rubbing his eyes and clasping my hands again. No matter how many times he did it, it was still so sweet… "What's wrong, Melody?" He asked, attentive and eager to help. "Dorian…" I started, unsure of how to say what I wanted. My heart felt so, so weak...I could barely feel it beat within… "Get Cadence… please…" I whispered, hoping he understood that it was important. His eyes shifted. I had the sense that he knew what was about to happen. "Of course." He said, getting up slowly, and gently leaving the room. I laid back, listening to the sounds of my home. I heard him walk up to Cadence's room, a soft murmur of voices, and several footsteps leading to my door. The light slowly poured in as Dorian, Cadence, with Eli behind them carefully approached me. They all looked sleepy, and quite concerned. "Mom? What's going on?" Cadence asked, in her wonderfully sweet voice of hers. Oh, how I would miss her and her laughter… and Dorian's face and arms… Eli's support and company over the years… I could feel tears watering my eyes, and I didn't care if they would run down my face... I just wanted all of them here right now. "Cadence…" I said weakly, slowly extended my hand. I gently caressed her cheek, while Dorian grasped my other hand. Eli seemed stoic as ever, but I knew deep down he was aware of my imminent parting, trying to hold back his feelings. "Cadence… I love you very much… I love all of you so very much…" I struggled to get the words out of throat. I saw Cadence frown and her eyes water under my hand. "Mom, please… I don't want you to go…" It was all she could think of saying. I didn't want to go either, but...I knew, it was time… "Cadence… Dorian… Eli… I love you all so much... " I didn't really know what to say right now… Cadence suddenly hugged me, quietly sobbing under her breath, as Dorian kissed my forehead, his warmth enveloping me. What was I supposed to say now...with so little time left… "Eli… please, help my family. They'll need help, and they know they can rely on you." Eli simply responded by quietly nodding his head, and hiding his eyes under the brim of his hat. "Dorian… take good care of Cadence… see her grow up… and be happy…" I wanted to say so much more, so many more things he'd have to see for me, but my voice gave out again, and the tears were already falling down his face. He already knew everything I wanted to say, and everything I felt. "Cadence…" My heart almost couldn't beat anymore… "I love you so, so much… you're so strong… and so brave… I'm proud of you… someday you'll be… a great woman... " I couldn't see her eyes, buried in my shoulder, sobbing. All I heard, between sobs, was "Mom...I'm gonna miss you so much…" She lifted her head up, tears rolling down non-stop. I gave her one last smile, to let her know that I would love her from beyond my lifespan. As I lay there, heart almost still, I looked at my family, one last time, taking in their faces, their tears of love. I kept smiling as I closed my eyes, happy to be with my family, happy to have them here, happy that this… was my last memory… And I could feel… my heart… I was… ready to leave… I could feel… it was time… for my… very… last… heart… Beat.
2023-11-26T01:26:36.242652
https://example.com/article/8304
Q: QR Code Scanner w/ZXing error I have this simple code that plans to Scan a QR Code and return the value to the user: public class QRCodeScanner extends Activity { /** Called when the activity is first created. */ @Override public void onCreate(Bundle savedInstanceState) { super.onCreate(savedInstanceState); setContentView(R.layout.main); } private static final int REQUEST_BARCODE; Intent intent = new Intent("com.google.zxing.client.android.SCAN"); intent.putExtra("SCAN_MODE", "QR_CODE_MODE"); startActivityForResult(intent, REQUEST_BARCODE); Toast toast = Toast.makeText(this, "Start scanning QR code", Toast.LENGTH_SHORT); toast.show(); } Now I know that I need to place the src/com.google.zxing.client.* folders somewhere in this project but where? When I copy-paste it over at my own src/ folder they all have errors that weren't present in the original CaptureActivity project. How do I fix this? A: Actually, you don't. When you configure your application to use Zxing via Intent, the only requirement is that the barcode scanner be present and installed on the user's device. Android will handle opening the application and returning the scanned barcode to you.
2023-09-16T01:26:36.242652
https://example.com/article/8587
Hen Yanni Hen Yanni (in Hebrew: חן יאני); Israeli actress and a Musician about Hen Yanni , in Hen Yanni's site</ref> Personal life Hen Yanni was born and raised in a suburb of Northern Israel, near Haifa, to a Jewish family. In 1998, when she was fifteen she participated in a beauty contest and was chosen to girl of the year by Maariv's youth magazine. Career She left home following a modeling career. During the years 1999-2003 she worked as a model in Paris, New York City and London. She photographed to the magazines Italian Vogue, French Vogue, V Magazine, The Face and ID. Her major campaigns includes companies like Paul & Joe, Dolce & Gabbana and Kenneth Cole. She was photographed by photographers like Craig McDean, David Sims and Mario Testino. At the age of 21 she returned to Israel, and decided to be an actress. First she learned acting privately with Eyal Cohen, afterwards she took a one-year preparatory course at Nissan Nativ Acting School, and three years studies at Yoram Levinshtein School of performing arts in Tel Aviv. She made guest appearances in the television series "The Arbitrator" and "My Trouble with Women". Yanni played the major role in the feature film "The Other War”, directed by Tamar Glazerman. She played a supporting role in the feature film "Melach Yam", directed by Itay Lev, where she made a Cover version to Shlomo Artzi's song "You will Never know". In 2012 she played a supporting role in Haim Buzaglo's feature film "Blank Blank". In 2011 she starred Doron Eran's film "Melting Away", in which she played the lead role of a transgender person. Yanni played the role of Asaf, a boy who secretly wears women's clothes. When his parents (Limor Goldstein and Ami Weinberg) discover this, they throw him out of the house. Asaf goes through sex reassignment surgery and became Anna, a nightclub singer. When her father is dying of cancer, Anna's mother finds her through a private investigator. Anna returns to take care of her father under the guise of a nurse. In "Melting Away", she sings two songs, one of them is "Danny Boy". Yanni won a breakthrough performance award at the LGBT Tel Aviv international Film Festival, was nominated for Israeli Academy award for best actress. References External links Hen Yanni's official site Category:1983 births Category:Living people Category:Israeli film actresses Category:Israeli stage actresses Category:Israeli female models
2023-08-25T01:26:36.242652
https://example.com/article/9936
…Harbaugh's earned some trust when it comes to plucking tight ends from obscurity. This comparison may not be entirely unprompted. Drevno: Sean is a guy that can really bend, has great flexibility and great ball skills with a good catch radius. He can be a complete tight end as a run blocker and pass receiver. He is a big athletic guy, kind of reminds me of a Coby Fleener-type; has that same type of athleticism. And it seems clear that their interest in McKeon is much stronger than that profile would suggest. David Reese—a linebacker who signed with Florida—decommitted largely because M did not have an early enroll spot for Reese. They had one for McKeon. Various other low-rated commits were outright jettisoned; there was never a whisper that McKeon could end up in that same boat. While I'm not particularly happy with how Michigan dealt with the guys they no longer wanted, the silver lining is that you know Michigan doesn't have buyer's remorse about the guys who did sign. ...elite athlete for a player his size, holding the fastest verified 40-time of any tight end in the country at 4.65 and also the highest vertical jump (36.2 inches). That was from a Nike event and was only current as of his commitment in mid-June last year. Some some dudes may have passed him; if so it was not many. McKeon's ability to go recurs frequently in his scouting reports; so does Drevno's assertion that he can "really bend". ("Bending" is being able to play football in a compact stance instead of standing straight up; it is a major factor as players try to achieve the all-important good pad level.) Allen Trieu liked him at Michigan's camp (like, camp-camp, on campus camp) last year, naming him the #2 player in attendance, just behind future four-star MSU commit Trishton Jackson and ahead of David Reese, Corey Malone-Hatcher, and a then even more completely obscure "Benjamin St John"*: Loved how he could bend for his size. Very naturally athletic and catches the ball well. Lean frame with the room to grow. Excellent height with just adequate bulk. …Doesn't look to play quite as fast as he may test, but displays above-average top-end speed … enough speed to make the occasional play down the seam. Between height and leaping ability can be a factor in jump ball situations. …doesn't display much burst out of breaks. … physical tools to be a productive receiver and with continued development can be an effective blocker as well. …intriguing prospect because of his combination of size, speed and athleticism. …releases well off the line of scrimmage and gets into his routes well. He high-points the ball in traffic and is also tough to bring down after the catch. When blocking, the intent and desire is there, but he needs to get stronger to stay on and finish the block. "Blocking ability" and "strength" are the areas for improvement; those are easily improved. …good acceleration …. will be able to get separation from linebackers with that initial speed burst…. can catch the ball with his hands outside the frame of his body….willing blocker who shows some pretty solid technique, and he has the feet and the hips to be effective in the run game. …comfortable being attached to the offensive line as a blocker. …reliable hands and does a nice job sitting in open spots and showing the quarterback his numbers so he can be seen. … straight line speed and ability to threaten the seam. McKeon can extend and pluck the ball when it's in the air but shows some stiffness when he has to turn and adjust his body. The bolded section from Brewster is something that pops out on film. He looks like a capable receiver downfield. He does not look like Jake Butt, who has a certain je ne sais quoi to his movements. I suppose coaches would call that fluidity. It doesn't seem like McKeon has that ability to change direction that allows Butt to win matchups against safeties and even occasionally corners. Even so you may be asking yourself how a tight end prospect with those measurables gets ignored by the scouting services. There are a few reasons. The state of Massachusetts is a football wasteland scouted about as heavily as Liberia. McKeon's camp career appeared to begin and end after one or two that got him a suite of East Coast offers he was content with before Michigan leapt in. And his high school was one of those that tends to run run run: "You can't tell his routes and catching because there's not a whole lot of film on that. The bit of film there is at tight end is mostly blocking. You know he's willing to mix it up, and he can move guys off the line." He led his team with 19 catches as a junior; second place wasn't close. A tight end playing bad competition and running few routes who doesn't show at camps is destined for shruggie rankings. McKeon has impressed coaches since his arrival. While I didn't notice him at Ford Field or the spring game—I was too busy going DANG at Ty Wheatley Jr—every month or so Steve Lorenz bangs the drum that he's got a good shot to play this fall: We have been told on numerous occasions that McKeon is a player capable of playing in his first year depending on how his camp/off-season goes. I listed that Harvard offer above for a reason, as it implies McKeon will have little trouble imbibing a college offense and making it a part of his brain. Jay Harbaugh emphasized that in his take: …Sean is a very intelligent, hard-working guy who is nowhere near reaching his potential as a football player … above average explosiveness and is an outstanding bender for his size. What he has done in the classroom in high school proves that Sean is willing to study and be a complete football player and student. One of my main takeaways from watching Harbaugh's Stanford teams was that he put a ton of mental burden on his blocky/catchy types, who were expected to move willy-nilly about the field and make on-the-fly adjustments, especially when the Cardinal ran power. This applied moreso to FB/H-back types than inline players; the sheer number of formations and motions was still kind of boggling. I'd be inclined to redshirt McKeon all the same. Michigan has Butt, Bunting, Wheatley, and (more or less) Hill ready to go this fall and will almost certainly play Devin Asiasi, about whom more in a couple days. I'm also guessing that Ben Bredeson gets a bunch of run as a sixth OL. Michigan plays a lot of tight ends. They don't play enough to absolutely need McKeon, either this year or next. *[This would be current CB commit Benjamin St Juste. Trieu did well to get the name of a complete unknown almost correct; I mention it just to re-emphasize how out of nowhere St Juste came from.] The gentleman scholar also wants to be a computer engineer if football doesn't work out. Don Brown was interested him as a DE(!) when he was recruiting McKeon to BC. Why Kevin Koger? Koger was a guy with solid-to-good size who could threaten down the seam with surprising speed. Frames are pretty comparable, with Koger entering at 235 and leaving at 260. Recruiting rankings were not; Koger was the #6 TE in the country per the composite. Koger may have been a bit overrated since he was as likely to drop an easy ball as make a spectacular one-handed stab. And he wasn't open like Butt is open. I thought about Mike Massey here but his MGoBlue page had him at 231 pounds as a redshirt senior, which is bonkers. Can't imagine Harbaugh's running anyone that size out there at TE unless he's a Eubanks walking mismatch type. Butt is another potential comparison, though one we dismissed above; have to roll sixes there. Guru Reliability: Low for the reasons detailed above. I get why their skepticism is warranted. I don't think it hold much weight. Variance: Moderate. Does have to add some weight, could be a mirage because he doesn't play good competition. On the other hand, could have gone to Harvard and already drawing praise after early enrollment. General Excitement Level: High-minus. McKeon just about got sleeper of the year status. I already issued that to Josh Uche and have another gentleman in mind for a second slot; I don't want to go to three. If I did, McKeon would be the pick. Repeated insistence from inside the Michigan program that McKeon is a high upside guy who could easily play this year is a major plus. Projection: He'll probably get scattered snaps as a frustrating burned redshirt. Next year it's similarly tough to find playing time with all of the aforementioned names save Butt ahead of him and Zach Gentry coming online. In year three he should be bulked up to 250 or 260 and will be a candidate for serious run. With the pile of tight ends Michigan will have available your guess is as good as mine who emerges from the melee. McKeon is a very good bet to be a contributor and guy who gets complicated blocking assignments right. From what I have read, Dunaway is probably it for TE for 2017. Spots are limited (even at 28-29) given the remaining needs on OL, WR, and LB/DB so unless a top target flips they probably will stand pat. Check out this link. Isaiah Hole had good things to say, and there's a video of Dunaway running a drill. Compared to some of the camp footage available when he committed, looks like a totally different player. Only 1 rep in a drill, and he's still a little slow starting up, but he's catching everything with ease and flying down the field by the end. And if you notice the others standing in line next to him, you'll see he still has the hugeness he was originally recruited for. Initially, I had my doubts about Jay Harbaugh being given the TE group. But then, a couple of days later, I thought about how much the Harbaughffense relied on/uses the TE. It wasn't hard to reason that Jim Harbaugh would never give the TE group to someone that he wasn't sure could handle it. Not even his own son. Jay has made believers of us all! He's done pretty good both coaching, and recruiting, the position. Nepotism? Not when it succeeds by any plausible method of measurement... I can't wait to see some 4-TE sets, with the very different skillsets that each brings. Just how does one defend that? Is the 11th guy a RB, or a WR? Or Peppers? So lovely... I totally get why people worry about nepotism whenever it looks possible or likely. However, Harbaugh's usage of TEs and FBs is idiosyncratic to say the least. I don't see any reason to assume that Jay might not be the best choice to coach TEs in this specific offense simply because he is familiar with some of those peculiar wrinkles that Harbaugh relies upon with his FBs and TEs. It's really a system that is tempting to call obselete or something simply because we don't see those players used in such a way any more. BTW, don't be surprised if he starts running the old Single Wing some time here. Remember, you heard it here first. ;-) I'm sure it's a foot in the door for Jay to get a chance, but I just don't see Jim allowing any of his coaches to be substandard. He competes in everything, and I'm guessing Jay has to hold his own as much as the next guy. He is probably still near the bottom of coaching caliber at Michigan, but this is more because of the caliber of coach at Michigan than any thing Jay is doing. He also seems to be a chip off the ol block when it comes to interacting with recruits and understanding them. nepotism bs. Its a huge advantage to have a competent son. and which jay is. Jim is working him like a junkyard dog, and he's thriving in it. lots of inherent advantages when they are ultra competitive Brian has learned a lot from his radio experience: he keeps teasing us with this mysterious second Sleeper of the Year. I had assumed it would be McKeon, now I have to revise my guess... Kingston Davis? on Gentry seeing the field this season. I really hope he doesn't get lost in the TE shuffle and can really make a contribution at some point. With his size, intelligence, and athleticism, it would seem to be a waste not to use him. Agree. But those same points - size, athletic ability, and intelligence - apply to everyone Harbaugh is bringing in. Add versatility to that list, as well. I want to see all of them get significant PT, because they all seem like they can contribute a lot. But the numbers don't add up - so many bodies for so few positions. Competition will drive those who get on the field. versatility is his dominant trait. Jay referenced this concept for the staff's excitement with Gentry at TE without naming it. Suspect it's his speed for a 6'8" guy. McKeon on the other hand seems very solid in all areas (height, frame, athleticism, physicality, catching) and strikes me as an every down, every situation TE by his 2nd or 3rd year. I also bet he plays this year. JH can find and develop a TE every year or two just like McKeon so no need to essentially lose a recruiting slot in a few years to get McKeon a 5th yr. He can still do those things (eat, bulk up, get insanely strong) without red shirting. And if we think he'll be a contributor in 2017, getting in game reps is pretty important. I'm not as big of a fan of red shirting as most are on this blog. I say only redshirt a guy if he really can't contribute at all. If we think he can add anything, let him get out there and prove it. I am generally for a RS unless he is going to be in the main rotation in 2016 or clearly in the 2-deep for 2017. I know most of the angst on MGo is for guys that ended up on ST (Thomas) and/or not getting significant snaps in their Soph year+ (Gedeon). I am sure some players didn't develop as projected, and/or early PT was part of the recruiting pitch, but Hoke's RS policy was frustrating to me. Under Harbaugh I see the goal as having most players play their 3 or 4 years and move on to the next level -- or find a new home to play football as a grad transfer, thus I don't think we will have the same hand-wringing about lost RSs going forward. Uh bending does not just refer to literally bending down to maintain appropriate pad level. It also refers to how loose a guy is when running, opposite of running stiffly. It also means that a guy can plant and change directions well while running routes. AJ Williams, did not play with much bend. Jake Butt does. Heck, for the first couple years that's all he had. Stanford players are brainier than average, but he had few genetic freaks from the 1-11 squad. What they could do, though, was grok a 300-play playbook, call their own plays, make on-the-fly adjustments, and play chess at the line. Turns out that works pretty well. two days ago grey McLaren. P1 I bought afterearning 18,513 Dollars..it was my previous month's payout..just a littleover.17k Dollars Last month..3-5 hours job a day...with weekly layouts..it's realy thesimplest. job I have ever Do.. I Joined This 7 months. ago. and now making overhourly.
2024-07-13T01:26:36.242652
https://example.com/article/9736
Introduction {#s1} ============ *Arachis hypogaea* L. (peanut or groundnut), originally from tropical South America (Bolivia and adjoining countries), is primarily grown in tropical and subtropical agro-climatic areas of Asia, Africa, Oceania, and the Americas. It is an important oil crop globally, providing the main source of edible oil and protein in many developing countries ([@B65]; [@B13]). Low-temperature stress, particularly low nocturnal temperature (LNT), is a major limiting factor curtailing productivity and limiting the cultivation distribution of peanuts ([@B86]). Tropical and subtropical plants are generally sensitive to chilling stress due to a lack of cold acclimation ([@B97]; [@B49]; [@B28]). Low-temperature stress often negatively influences plant growth, development and photosynthetic carbon assimilation, especially during early growth. Low-temperature stress significantly reduced leaf area in rice ([@B96]), maize ([@B87]), sunflower, sorghum ([@B81]) and Chinese crab apple seedlings ([@B45]) and inhibited root growth and dry matter accumulation in maize ([@B56]; [@B87]). In addition, low-temperature stress reduced the tillering rate and leaf expansion in rice ([@B36]; [@B51]) and induced rice spikelet sterility ([@B29]). The frequent and intense extreme climate environments of LNT stress followed by warm sunny days are common in temperate peanut-cultivating regions globally, particularly in north China ([@B86]). Peanut often experiences poor growth and seedling necrosis under LNT stress, which severely reduces peanut yield and seed quality ([@B8]; [@B86]; [@B49]). Plants of tropical or subtropical origin are often susceptible to suboptimal, but non-freezing (chilling) temperature environments ([@B10]; Damian and Donald, 2001; [@B97]; [@B49]). LNT stress significantly reduces leaf growth and Chl a and Chl b concentrations in grapevine, which has a negative impact on photosynthesis ([@B11]). Photosynthesis is very sensitive to LNT stress ([@B5]; [@B94]; [@B95]; [@B28]). LNT stress inhibits carbon fixation reactions and photosystem II (PSII) repair by suppressing *de novo* synthesis of the D1 protein and photoreaction center activity ([@B3]; [@B58]; [@B48]). Temperature changes have a strong impact on photosynthetic reactions. When air temperature declined by 10°C, the activity of enzymes associated with carbon assimilation reduced by 50% ([@B91]). The reduced consumption of NADPH results in the subsequent accumulation of reductants downstream of photosystem I (PSI) ([@B22]; [@B90]). Furthermore, both PSI and PSII accelerate the production of reactive oxygen species under excess excitation energy which causes photoinhibition ([@B7]). Plants have a highly responsive regulatory system to prevent photodamage when subjected to chilling stress ([@B91]). In addition to harnessing a non-photochemical quenching (NPQ) mechanism, which serves to dissipate excess excitation energy accumulated in PSII without causing adverse effects; cyclic electron flow (CEF) is another major photoprotection mechanism ([@B15]; [@B95]). Calcium, an essential element for plants, serves not only as a structural component in plant cells but also as a key signaling molecule involved in multiple signal-transduction pathways in its ionic form Ca^2+^ ([@B88]; [@B83]). In particular, calcium has well-documented roles in mediating plant responses to abiotic and biotic stimuli ([@B16]; [@B73]; [@B88]; [@B21]; [@B30]; [@B59]; [@B63]). Low-temperature stress often leads to an increase in free Ca^2+^ in plants, followed by cold-induced protein phosphorylation and the accumulation of the cold acclimation-specific genes that improve the adaptation of plants to cold stress ([@B55]). In addition, exogenous calcium improves the cold tolerance of plants through two ways: one is the maintenance of the cell membrane and cell wall structure, and an enhanced activity of protective enzymes; the other is the transfer of low-temperature signals which induce the expression of cold-tolerance genes ([@B88]; [@B45]). In response to chilling stress, the pre-treatment of exogenous Ca^2+^ significantly improved the physiological response including growth and photosynthesis in low-temperature sensitive plant species such as peanut ([@B49]), wheat ([@B93]), Chinese crab apple ([@B45]) and tomato ([@B95]). It is generally believed that plant cell wall, mitochondria and chloroplasts have enormous capacity to store Ca^2+^ ([@B32]; [@B18]); moderate Ca^2+^ concentrations can sustain cell wall growth and membrane integrity as well as osmotic functioning ([@B64]; [@B32]; [@B66]); mitochondrial NADH dehydrogenase activity is regulated by Ca^2+^ ([@B6]; [@B53]); furthermore, the Ca^2+^/calmodulin is involved in the regulation of NAD kinase and photosynthesis ([@B37]; [@B67]). In our previous study, exogenous Ca^2+^ enhanced peanut photosynthate production under LNT stress ([@B49]); however, its underlying physiological mechanisms are largely unknown. Therefore, this study examined the effects of exogenous Ca^2+^ and a calmodulin inhibitor, trifluoperazine (TFP, which have been extensively used to demonstrate calmodulin-mediated plant growth response), on the growth and photosynthetic function of peanut exposed to LNT and the following recovery from LNT stress. Materials and Methods {#s2} ===================== Plant Material and Experimental Design {#s2_1} -------------------------------------- Fenghua 1, the common high-yielding peanut cultivar in China, was used in this study. Uniform seeds of peanut were pre-germinated in a Petri dish for one day at 27°C and then planted in 32-cavity trays for 7 days before selecting 72 uniform peanut seedlings for transplantation into 72 pots (200 mm height, 260 mm diameter) filled with 4 kg of standard horticultural nutrient substrate (Changchun Xihe Agro-technology co. Ltd, Jilin, China). The pots were then placed in an artificial climate chamber (Conviron, Winnipeg, Canada), with a daytime temperature of 25°C and nocturnal temperature of 20°C at a relative humidity (RH) of 60 ± 5%. All plants received a 12 h daytime photoperiod at a photosynthetic photon flux density (PPFD) of 600 μmol quanta·m^--2^·s^--1^ and a CO~2~ concentration of 400 ± 5 μmol·mol^--1^. After 3 days of acclimation, the pots were divided equally into four treatment groups: (1) CK (normal nocturnal temperature of 20°C/normal daytime temperature of 25°C + foliar spray of type 1 ultrapure water), (2) LNT (LNT of 10°C/normal daytime temperature of 25°C + foliar spray of type 1 ultrapure water), (3) LNT + Ca (LNT of 10°C/normal daytime temperature of 25°C + foliar spray of 15 mmol·L^--1^ CaCl~2~) and (4) LNT + TFP (LNT of 10°C/normal daytime temperature of 25°C + foliar spray of 5 mmol·L^--1^ TFP). CK was defined as the normal temperature control group at normal nocturnal temperature (20°C), while the other groups were subjected to LNT (10°C) stress for 5 days (5 DoT, days of LNT treatment). After 5 days of LNT stress, the peanut seedlings from (2), (3), and (4) treatment groups mentioned above were recovered for another 5 days (5 DoR, days of normal temperature recovery) at a normal nocturnal temperature of 20°C and a normal daytime temperature of 25°C to simulate the common cold wave with LNT attack and recession in peanut production. The optimal levels of exogenous Ca^2+^ (15 mmol·L^--1^ CaCl~2~) and TFP (5 mmol·L^--1^ TFP), a calmodulin (CaM) inhibitor which disrupts the binding between Ca^2+^/calmodulin and effector proteins, as well as the application technique, were established in a previous experiment ([@B49]). Leaves were sprayed carefully and evenly using moisture sprayers 3 days before the LNT stress (twice a day for 3 days). The LNT treatments were subjected to 12 h (from 18:00 to 6:00 h) LNT treatments at 10°C by transferring the peanut seedlings to an artificial climate chamber (Conviron, Winnipeg, Canada). Plant Sampling and Measurements {#s2_2} ------------------------------- Three peanut seedlings per treatment were sampled twice---after 5 days of LNT treatment (5 DoT, days of LNT treatment) and after another 5 days of recovery from LNT stress (5 DoR, days of normal temperature recovery) for the measurement of leaf area and photosynthetic pigments. Leaf area was measured using an LI-3000C (LI-COR Biosciences, Lincoln NE, USA). Chlorophyll a, chlorophyll b and carotenoid concentrations of the third youngest fully expanded leaves were determined using the spectrophotometer method ([@B46]). Another six peanut seedlings from each treatment were sampled at 5 DoT and 5 DoR. All samples were oven-dried at 105°C for 30 min and then at 70°C to a constant weight. In addition, oven-dried leaflets from the third youngest fully expanded leaves of six peanut seedlings per treatment were pooled in three biological replicates and ground to a powder, and a total of three biological replicates/pools (six peanut seedlings) were used for carbohydrates measurements. Soluble sugars were extracted from approximately 100 mg of the oven-dried leaf powder with 80% (v/v) ethanol at 85°C and quantified using the microtiter method ([@B31]). Pellets containing starch were oven-dried overnight at 60°C. Starch in the pellet was first gelatinized by addition of 1 ml of 0.2 mol·l^--1^ KOH and incubated in a boiling water bath for 30 min ([@B68]). After cooling, 0.2 ml of 1 mol·l^--1^ acetic acid was added, and the solution incubated with 2 ml acetate buffer (pH 4.6) containing amyloglucosidase (six units, Roche) at 55°C for 1 h. The reaction was terminated in a boiling water bath, and the resulting supernatant analyzed for glucose. Leaf gas exchange was measured on the third youngest fully expanded leaves using an open system of gas exchange equipment (GFS-3000, Heinz Walz GmbH, Effeltrich, Germany) at 1, 3, and 5 DoT and 1, 3, and 5 DoR. During gas exchange measurements, the leaf cuvette temperature was set to 25°C and 60% RH. The CO~2~ concentration was maintained at 400 μmol·mol^--1^. An LED array provided a PPFD of 600 μmol quanta·m^--2^·s^--1^. The third youngest fully expanded leaf was kept in the chamber by ensuring the thermocouple touching it from the underside. Gas exchange parameters included net photosynthetic rate (Pn), stomatal conductance (g~s~), atmospheric CO~2~ concentration (C~a~), transpiration rate (Tr), intercellular CO~2~ concentration (C~i~), water-use efficiency (WUE = Pn/Tr), and leaf stomatal limitation *(Ls* = 1 -- *C~i~*/*C~a~*). The software Dual-PAM v1.19 was used to control the Dual-PAM 100 measuring system (Heinz Walz, Effeltrich, Germany) and measure chlorophyll fluorescence and P700 parameters on the third youngest fully expanded leaf (*ca*. 1 cm^2^); all steps were carried out in accordance with the standard protocols provided by the manufacturer (Heinz Walz, Effeltrich, Germany) and earlier research ([@B72]). The fluorescence slow-kinetics were measured after a dark adaptation of 30 min. The intensity of saturation pulse light (red light) and actinic light (red light) were set as 10,000 and 132 μmol quanta·m^--2^·s^--1^, respectively. Chlorophyll fluorescence parameters were calculated as follows: Fo and Fm are the minimum and maximum fluorescence yields of the dark-adjusted sample with all PSII center open and closed, respectively. Fo' and Fm' are the minimum and maximum fluorescence yield of the illuminated sample with some PSII center open and closed, respectively. F is the fluorescence yields measured briefly before applying a saturation pulse. Fv/Fm = (Fm -- Fo)/Fm indicates the maximal/intrinsic photochemical efficiency of PSII ([@B40]). Y(II) = (Fmʹ-- F)/Fm is the actual quantum yield of PSII ([@B26]). Y(NO) = F/Fm is the non-regulated energy loss in PSII. Y(NO) represents the fraction of energy that is dissipated as heat and fluorescence, and high values of Y(NO) reflects the inability of the plant to protect itself against damage by excess excitation ([@B17]; [@B42]). Y(NPQ) = 1 -- Y(II) -- Y(NO) is the regulatory quantum yield in PSII and represents the fraction of energy dissipated in the form of heat through the regulated photoprotective NPQ mechanism ([@B43]). ETR(II) = PAR·Y(II)·0.84·0.5 is the relative electron transfer rate in PSII. PAR (μmol quanta·m^--2^·s^--1^) is photosynthetically active radiation ([@B26]; [@B71]). The PSI photosynthetic parameters were measured using a Dual-PAM 100 device based on the P700 signal (absorption differences between 830 and 875 nm). The quantum yields of PSI were determined using the saturation pulse method ([@B41]). The P700 parameters were calculated as follows: Y(NA) = (Pm -- Pmʹ)/Pm is the quantum yield of PSI non-photochemical energy dissipation due to the acceptor-side limitation. Y(ND) = 1 -- *P*700*~red~* is the quantum yield of PSI non-photochemical energy dissipation due to the donor-side limitation ([@B17]). Y(I) = 1 -- Y(NA) -- Y(ND) is the actual quantum yield in PSI under light ([@B41]; [@B42]). ETR(I) = PAR·Y(I)·0.84·0.5 is the relative electron transfer rate in PSI ([@B42]). Pm is the maximum oxidation state of PSI under far-red light (720 nm). Pm' is the maximum oxidation state of PSI under actinic light (420 nm). P700~red~ is the P700 reduction parameter under the light. The CEF was estimated as CEF = ETR(I) -- ETR(II). Similarly, Y(CEF)/Y(II) = \[Y(I) -- Y(II)\]/Y(II) was calculated as the ratio of the quantum yield of CEF to Y(II) and later used to estimate cyclic electron transfer ([@B57]; [@B90]). The dual-beam 550 nm to 515 nm difference signal (electrochromic shift) was monitored simultaneously using the P515/535 module of the Dual-PAM 100 ([@B42]; [@B95]). Three independent peanut seedlings per treatment were selected at 5 DoT for the determination of the following indicators. After 1 h of dark acclimation, P515 changes induced by saturating single turnover flashes were recorded to evaluate thylakoid membrane integrity. After 10 min of pre-illumination at 600 μmol quanta·m^--2^·s^--1^ and 4 min of dark acclimation, P515 changes induced by saturating single turnover flashes were recorded to evaluate ATP-synthase activity. Slow dark--light--dark induction transients of the 550 to 515 nm signals reflected changes in membrane potential (electrochromic pigment absorbance shift). Actinic light (AL; 600 μmol quanta·m^−2^·s^−1^) was turned on at 30 s and off at 330 s. Statistical Analysis {#s2_3} -------------------- Statistical analyses were carried out using one-way ANOVA in SPSS 19.0. A total of 72 uniform peanut seedlings were included in this study, which were allocated to four different treatments (i.e. 18 seedlings per treatment). Three out of the 18 peanut seedlings per treatment were used for the non-destructive measurement of leaf gas exchange, chlorophyll fluorescence and P700 parameters. The remaining peanut seedlings per treatment were used for the destructive sampling for peanut seedlings growth observation and photography as well as the measurement of leaf area, biomass accumulation, photosynthetic pigments concentrations, and carbohydrates. The results were presented as mean values and standard error of three biological replicates. Post-hoc LSD tests at *P* = 0.05 were performed to highlight the differences among the four treatments. The significant differences *P*-value is indicated as the \*(*P* ≤ 0.05) and \*\*(*P* ≤ 0.01), respectively, among the treatments. Results {#s3} ======= Effect of Exogenous Calcium (Ca^2+^) and a Calmodulin Inhibitor (TFP) on Peanut Growth After 5 Days of Low Nocturnal Temperature Stress Followed by 5 Days of Recovery {#s3_1} ---------------------------------------------------------------------------------------------------------------------------------------------------------------------- The LNT treatment significantly inhibited peanut growth, which did not recover after 5 days of recovery ([**Figure 1**](#f1){ref-type="fig"}). Exogenous Ca^2+^ application (LNT + Ca) counteracted the LNT stress and benefited the recovery process. The calmodulin inhibitor (LNT + TFP) further reduced peanut growth and biomass when compared with LNT ([**Figure 1**](#f1){ref-type="fig"}). ![Effect of exogenous calcium (Ca^2+^) and a calmodulin inhibitor (TFP) on peanut growth after 5 days of low nocturnal temperature (LNT) (5 DoT) followed by 5 days of recovery (5 DoR). CK, normal nocturnal temperature of 20°C/normal daytime temperature of 25°C + foliar spray of type 1 ultrapure water; LNT, low nocturnal temperature of 10°C/normal daytime temperature of 25°C + foliar spray of type 1 ultrapure water; LNT + Ca, low nocturnal temperature of 10°C/normal daytime temperature of 25°C + foliar spray of 15 mmol·l^--1^ CaCl~2~; LNT + TFP, low nocturnal temperature of 10°C/normal daytime temperature of 25°C + foliar spray of 5 mmol·l^--1^ TFP.](fpls-10-01637-g001){#f1} The LNT treatment significantly decreased leaf area in peanut. The LNT + Ca treatment had more leaf area than the LNT treatment, while the LNT + TFP treatment had less. LNT stress reduced dry matter accumulation in the roots, stems and leaves. The LNT + Ca treatment significantly increased root, stem and leaf dry weights, relative to LNT. The control (CK) had the highest chlorophyll a and b concentrations, followed by LNT + Ca and LNT, with the lowest in LNT + TFP. LNT stress significantly reduced the chlorophyll a and b concentrations while had no significant effect on the carotenoid level. LNT + Ca significantly enhanced the chlorophyll a and b concentrations in peanuts leaves. No significant difference in carotenoid concentration was observed among the four treatments at either 5 DoT or 5 DoR ([**Table 1**](#T1){ref-type="table"}). ###### Effect of exogenous calcium (Ca^2+)^ and a calmodulin inhibitor (TFP) on peanut leaf area, dry matter and pigment concentrations (chlorophyll a and b, carotenoid) after 5 days low nocturnal temperature (LNT) (5 DoT) followed by 5 days of recovery (5 DoR). Time Treatments Leaf area (cm^2^) Dry weight (mg) **Root** Chlorophyll a concentration (mg·g^--1^) Chlorophyll b concentration (mg·g^--1^) Carotenoid concentration(mg·g^--1^) ------- ------------ ------------------- -------------------------- ----------------------------------------- ----------------------------------------- ------------------------------------- -------------- -------------- 5 DoT CK 52.7 ± 0.4a 215 ± 1a 527 ± 7a 480 ± 6a 1.56 ± 0.02a 0.81 ± 0.02a 0.24 ± 0.01a LNT 38.9 ± 0.8c 87 ± 3c 309 ± 8c 345 ± 5c 1.38 ± 0.01c 0.66 ± 0.01c 0.27 ± 0.02a LNT + Ca 46.5 ± 0.4b 147 ± 2b 401 ± 7b 410 ± 7b 1.47 ± 0.01b 0.73 ± 0.01b 0.26 ± 0.01a LNT + TFP 32.8 ± 0.2d 70 ± 3d 256 ± 7d 284 ± 8d 1.33 ± 0.01d 0.61 ± 0.02d 0.25 ± 0.01a 5 DoR CK 79.8 ± 0.3a 360 ± 6a 932 ± 15a 784 ± 15a 1.79 ± 0.03a 0.93 ± 0.02a 0.28 ± 0.01a LNT 53.5 ± 0.8c 161 ± 3c 761 ± 10c 569 ± 15c 1.45 ± 0.01b 0.74 ± 0.02c 0.32 ± 0.01a LNT + Ca 65.7 ± 1.5b 207 ± 3b 836 ± 17b 644 ± 21b 1.72 ± 0.05a 0.87 ± 0.01b 0.29 ± 0.01a LNT + TFP 48.3 ± 1.3d 132 ± 1d 751 ± 8c 441 ± 20d 1.41 ± 0.01b 0.67 ± 0.01d 0.29 ± 0.02a Values are means of three biological replicates ± SE (n = 3). Different letters (a, b, c, d) in the same column indicate significant differences among the treatments by LSD test (P ≤ 0.05). Effect of Exogenous Calcium (Ca^2+^) and a Calmodulin Inhibitor (TFP) on Solub rations of Peanut Leaves After 5 Days of Low Nocturnal Temperature Stress Followed by 5 Days of Recovery {#s3_2} --------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------- The LNT treatment significantly increased the concentration of soluble sugars in leaves at 5 DoT ([**Figure 2A**](#f2){ref-type="fig"}); the LNT + Ca treatment produced lower and the LNT + TFP treatment produced higher concentrations of soluble sugars than the LNT treatment. The CK treatment had the lowest concentrations of starch and total nonstructural carbohydrates at 5 DoT, followed by LNT + Ca and LNT, and LNT + TFP with the highest ([**Figures 2B, C**](#f2){ref-type="fig"}). Soluble sugar, starch and total nonstructural carbohydrate concentrations did not differ between treatments at 5 DoR. ![Effect of exogenous calcium (Ca^2+^) and a calmodulin inhibitor (TFP) on the concentration of soluble sugars **(A)**, starch **(B)** and total nonstructural carbohydrates **(C)** after 5 days of low nocturnal temperature (LNT) (5 DoT) followed by 5 days of recovery (5 DoR). Values are means of three biological replicates ± SE (*n* = 3). \* and \*\* indicate significant differences at *P* ≤ 0.05, and *P* ≤ 0.01, respectively, among the treatments. The significance between the three treatments under LNT and CK at 5 DoT and 5 DoR was shown in parenthesis.](fpls-10-01637-g002){#f2} Effect of Exogenous Calcium (Ca^2+^) and a Calmodulin Inhibitor (TFP) on Gas Exchange During 5 Days Low Nocturnal Temperature Stress Followed by 5 Days of Recovery {#s3_3} ------------------------------------------------------------------------------------------------------------------------------------------------------------------- Leaf gas exchange parameters did not differ between treatments at 1 DoT, but CK and LNT differed at 3 and 5 DoT. The LNT treatment reduced Pn, g~s~, Tr, and Ls ([**Figure 3**](#f3){ref-type="fig"}) and increased C~i~ significantly. Compared with LNT, LNT + Ca significantly increased Pn, g~s~, Tr, and Ls and decreased C~i~ while LNT + TFP significantly reduced Pn, g~s,~ Tr, and Ls, but increased C~i~ further. During the 5 days recovery at a normal nocturnal temperature, LNT-treated plants continued to increase Pn, g~s,~ Tr, and Ls and decrease C~i~. The same pattern was observed for LNT + Ca but at a slightly lower level. ![Effect of exogenous calcium (Ca^2+^) and a calmodulin inhibitor (TFP) on peanut gas exchange characteristics \[net photosynthetic rate (Pn, **A**), stomatal conductance (g~s~, **B**), transpiration rate (Tr, **C**), intercellular CO~2~ concentration (C~i~, **D**), water-use efficiency (WUE, **E**) and leaf stomatal limitation (Ls, **F**)\] during 5 days of low nocturnal temperature (1, 3, and 5 DoT) followed by 5 days of recovery (1, 3 and 5 DoR). Values are means of three biological replicates ± SE (*n* = 3). \* and \*\* indicate significant differences at *P* ≤ 0.05, and *P* ≤ 0.01, respectively, among the treatments. The significance between the three treatments under LNT and CK was shown in parenthesis.](fpls-10-01637-g003){#f3} Effect of Exogenous Calcium (Ca^2+^) and a Calmodulin Inhibitor (TFP) on Peanut Photosystem Activities During 5 Days of Low Nocturnal Temperature Stress Followed by 5 Days of Recovery {#s3_4} --------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------- The maximum quantum yield of PSII (Fv/Fm) declined markedly under LNT stress ([**Figure 4**](#f4){ref-type="fig"}). In particular, the Fv/Fm of the LNT + Ca treatment recovered fully by 5 DoR, it was significantly higher than that of LNT and LNT + TFP. ![Effect of exogenous calcium (Ca^2+^) and a calmodulin inhibitor (TFP) on peanut maximum quantum yield of PSII (Fv/Fm) during 5 days of low nocturnal temperature (LNT) stress followed by 5 days of recovery. Values are means of three biological replicates ± SE (*n* = 3). \* and \*\* indicate significant differences at *P* ≤ 0.05, and *P* ≤ 0.01, respectively, among the treatments. The significance between the three treatments under LNT and CK was shown in parenthesis.](fpls-10-01637-g004){#f4} The LNT treatment decreased Y(II) significantly ([**Figure 5A**](#f5){ref-type="fig"}). The actual quantum yield of PSII in LNT treatments declined significantly and dissipated excess energy by gradually increasing Y(NPQ), the regulatory quantum yield of PSII ([**Figure 5B**](#f5){ref-type="fig"}). Y(II) tended to decrease gradually with the onset of LNT stress. The heat dissipation was not enough to dissipate the excess excitation energy in LNT treatments. Consequently, Y(NO) increased to a higher level ([**Figure 5C**](#f5){ref-type="fig"}). During the 5 days recovery at a normal nocturnal temperature, Y(II) recovered gradually, while Y(NO) and Y(NPQ) decreased slowly. In general, the PSII self-repair process in the LNT + Ca treatment was significantly greater than that in the LNT and LNT + TFP treatments. LNT stress decreased Y(I) and increased Y(NA) ([**Figures 5D, F**](#f5){ref-type="fig"}). At 1 DoT, Y(ND) did not differ between treatments ([**Figure 5E**](#f5){ref-type="fig"}), increasing gradually during the LNT stress; by 5 DoT, the LNT + Ca treatment had higher Y(ND) than LNT and LNT + TFP ([**Figure 5E**](#f5){ref-type="fig"}). At 5 DoT, the LNT + Ca treatment had significantly higher Y(I) and lower Y(NA) than LNT, while the LNT + TFP treatment had significantly higher Y(NA) and lower Y(I) than LNT. During the recovery, Y(ND) did not differ between treatments. It is noteworthy that Y(NA) and Y(I) in the LNT and LNT + TFP treatments were partially restored during the recovery, but not to the same levels as those in LNT + Ca and CK ([**Figures 5D, F**](#f5){ref-type="fig"}). ![Effect of exogenous calcium (Ca^2+^) and a calmodulin inhibitor (TFP) on peanut photosystems parameters during 5 days of low nocturnal temperature (LNT) stress followed by 5 days of recovery. **(A)** Y(II): PSII photochemistry effective quantum yield; **(B)** Y(NPQ): PSII regulated energy dissipation quantum yield; **(C)** Y(NO): PSII non-regulated energy dissipation quantum yield; **(D)** Y(I): PSI photochemistry effective quantum yield; **(E)** Y(ND): PSI non-photochemical energy dissipation due to the donor-side limitation; **(F)** Y(NA): PSI non-photochemical energy dissipation due to the acceptor-side limitation. Values are means of three biological replicates ± SE (*n* = 3). \* and \*\* indicate significant differences at *P* ≤ 0.05, and *P* ≤ 0.01, respectively, among the treatments. The significance between the three treatments under LNT and CK was shown in parenthesis.](fpls-10-01637-g005){#f5} The LNT treatment reduced ETR(II) and ETR(I) and enhanced CEF and Y(CEF)/Y(II) ([**Figure 6**](#f6){ref-type="fig"}). Compared with LNT, LNT + Ca had higher ETR(II), ETR(I), CEF and Y(CEF)/Y(II), while LNT + TFP had lower ETR(II), ETR(I), CEF and Y(CEF)/Y(II). During the recovery, ETR(II) and ETR(I) of LNT and LNT + Ca treatments increased rapidly, while CEF and Y(CEF)/Y(II) decreased, more so in LNT + Ca. At 5 DoR, ETR(II) and ETR(I) of LNT + TFP had not recovered to the control level and were significantly lower than those of the other treatments. ![Effect of exogenous calcium (Ca^2+^) and a calmodulin inhibitor (TFP) on peanut photosynthetic electron transport during 5 days of low nocturnal temperature (LNT) stress followed by 5 days of recovery. **(A)** ETR(II): PSII photosynthetic electron transport rate; **(B)** CEF: cyclic electron flow around PSI; **(C)** ETR(I): PSI photosynthetic electron transport rate; **(D)** Y(CEF)/Y(II): the ratio of quantum yield of CEF to Y(II). Values are means of three biological replicates ± SE (*n* = 3). \* and \*\* indicate significant differences at *P* ≤ 0.05, and *P* ≤ 0.01, respectively, among the treatments. The significance between the three treatments under LNT and CK was shown in parenthesis.](fpls-10-01637-g006){#f6} Effect of Exogenous Calcium (Ca^2+^) and a Calmodulin Inhibitor (TFP) on the Proton Motive Force, Thylakoid Membrane Integrity and ATP-Synthase Activity of Peanut Leaves After Low Nocturnal Temperature Stress {#s3_5} ---------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------- The LNT treatment significantly reduced thylakoid membrane integrity and ATPase activity, based on P515 signals ([**Figures 7A, B**](#f7){ref-type="fig"}). The LNT + Ca treatment maintained thylakoid membrane integrity and ATPase activity in peanut leaves, while LNT + TFP further exacerbated thylakoid membrane damage. The LNT treatment also reduced thylakoid membrane potential (Δψ) and increased transmembrane proton potential (ΔpH) ([**Figures 7C, D**](#f7){ref-type="fig"}). Compared with LNT, LNT + Ca increased Δψ and decreased ΔpH markedly, while LNT + TFP had the opposite effect. ![Effect of exogenous calcium (Ca^2+^) and a calmodulin inhibitor (TFP) on thylakoid membrane activity in peanut leaves after 5 days of low nocturnal temperature (LNT) stress. **(A)** Rapid kinetics of P515 induced by saturating single turnover flashes in peanut leaves after dark acclimation for 1 h; **(B)** Fast kinetics of P515 induced by saturating single turnover flashes in peanut leaves after pre-illumination for 10 min at 600 μmol photons·m^−2^·s^−1^ followed by 4 min darkness; **(C)** Proton gradient (△pH) and **(D)** membrane potential (△ψ) by using the slow 'dark--light--dark' signal induction transients of 515 nm signal after fully dark-acclimated (12 h). Values are means of three biological replicates ± SE (*n* = 3). \* and \*\* indicate significant differences at *P* ≤ 0.05, and *P* ≤ 0.01, respectively, among the treatments. The significance between the three treatments under LNT and CK at 5 DoT was shown in parenthesis.](fpls-10-01637-g007){#f7} Discussion {#s4} ========== Effect of Low Nocturnal Temperature on Peanut Growth and Photosynthetic Capacity {#s4_1} -------------------------------------------------------------------------------- We demonstrated that LNT stress significantly inhibited peanut growth, which could not be fully restored during the recovery period ([**Figure 1**](#f1){ref-type="fig"}). Previous studies also showed that, below the peanut threshold temperature of 15°C, the leaves usually exhibit poor growth and necrotic injury in the field ([@B86]). Exposing peanuts to a dark chilling environment significantly inhibits seedling growth, with reduced leaf area and shoot and root dry matter accumulation ([@B74]; [@B20]; [@B28]). While leaf expansion rates generally vary with air temperature, low-temperature stress can reduce the rates of leaf initiation and expansion and final leaf area in sunflower, maize and sorghum ([@B81]). LNT stress also reduced leaf growth, the concentration of photosynthetic pigments and the shoot and root dry matter accumulation in tomato ([@B44]; [@B47]), and damaged leaf structure and growth in tobacco ([@B39]). In addition, our results showed that LNT stress increased soluble sugar, starch and total nonstructural carbohydrate concentrations in peanut leaves ([**Figure 2**](#f2){ref-type="fig"}). The accumulation of leaf end-products (soluble sugars, starch) is important for balancing photosynthesis and the use of sugars for growth. In particular, there is a close two-way relationship between photosynthesis and growth, rather than a simple dependence of growth on photosynthesis. Carbohydrate synthesis occurs in photosynthetically active leaves (sources); sugars are then exported to support sinks (e.g., for leaf expansion, stem and root growth) ([@B2]; [@B19]). Our results suggested that LNT stress directly inhibits peanut growth and source-to-sink sugar transport, and induces the accumulation of nonstructural carbohydrates in leaves ([**Figure 2**](#f2){ref-type="fig"}), which is consistent with the previous findings in maize ([@B2]). LNT stress significantly reduced photosynthetic activity in this study ([**Figure 3**](#f3){ref-type="fig"}). Photosynthesis is the principal process of capturing light energy to form carbohydrates and is very sensitive to the low-temperature environment ([@B1]; [@B78]). Particularly, we found that the effects of LNT on peanut photosynthesis might be mainly due to reduced peanut growth and leaf expansion, and the export of nonstructural carbohydrates as we only exposed the peanuts to low-temperature during the nocturnal phase. Compared with the normal temperature control, transpiration and photosynthetic rates decreased in response to LNT stress, while intercellular CO~2~ concentration increased ([**Figure 3**](#f3){ref-type="fig"}) which is consistent with findings in maize ([@B98]). Photosynthesis and transpiration are often tightly linked, as they both depend on stomatal conductance ([@B89]; [@B25]). Based on our results ([**Figure 3**](#f3){ref-type="fig"}), LNT stress had a negative impact on photosynthesis in peanut leaves due to non-stomatal limitations, because C~i~ increased and Ls decreased. The results from the present study are consistent with previous studies on tomato and coffee tree ([@B10]; [@B5]). The non-stomatal limitation was reported previously and attributed to a reduced rate of RuBP regeneration. There are three plausible reasons when RuBP regeneration becomes limiting under low-temperature environment: (i) limitation of the rate at which light-harvesting and electron transport produce ATP and NADPH; (ii) limitation of the rate at which the stromal bisphophatases regenerate RuBP in the photosynthetic carbon reduction cycle; or (iii) restriction of the rate at which end-product synthesis consumes triose-phosphates and regenerates inorganic phosphate (Pi) for photophosphorylation ([@B5]; [@B4]; [@B85]). Taken together, the non-stomatal limitation might be the dominant factor contributing to the down-regulation of photosynthesis under LNT stress. Our study showed that LNT stress decreased Fv/Fm in peanut, based on chlorophyll fluorescence signal as subtle reflections of the primary reactions of photosynthesis ([**Figure 4**](#f4){ref-type="fig"}). Other studies also suggest that LNT stress followed by warm sunny days with high light can induce severe photoinhibition in tomato and grapevine ([@B12]; [@B48]). In addition, chilling stress causes irreversible photoinhibition in leaves of other chilling-sensitive plants such as chickpea and cucumber ([@B77]; [@B84]). In particular, we found that the effects of LNT on peanut photosynthesis were mediated through sink feedback thereby down-regulating photosynthesis, but induced significant photoinhibition in peanuts leaves. Our interpretation was consistent with previous findings that insufficient sink activity and growth inhibition can lead to severe accumulation of foliar carbohydrates and leading to photoinhibition ([@B2]). Indeed, the low temperature can inhibit the activities of photosynthetic reaction centers, thus restricting the electron transport chain and carbon fixation rate ([@B39]; [@B9]). Our results also showed that thylakoid membranes integrity and ATPase activity decreased during LNT stress ([**Figure 7**](#f7){ref-type="fig"}). LNT stress indirectly increased Y(NO)---the non-regulated energy loss in PSII---indicating the fraction of energy that was dissipated as heat and fluorescence; a high value of Y(NO) reflects the inability of the plant to protect itself against damage by excess excitation ([**Figure 5**](#f5){ref-type="fig"}). It is also plausible that the PSII super-complexes were photodamaged during LNT stress. Both PSI and PSII are sensitive to excess light under chilling stress; PSII is easily inactivated by an excess of excitations and PSI more prone to potential photo-damage caused by excess electrons coming from PSII ([@B76]; [@B79]). Impairment of the photosynthetic electron transport chain from the donor side of PSII and up to the reduction of end-acceptors of PSI likely limits the production of reduction equivalents and alters the rate of carbon fixation ([@B75]). In this study, the decline in linear electron transport and increase in cyclic electron transport lead to an increase in P700^+^, thereby increasing Y(ND) accordingly ([**Figures 5**](#f5){ref-type="fig"} and [**6**](#f6){ref-type="fig"}). In addition, the low-temperature condition restricts the Calvin cycle, reducing the need for NADPH ([@B35]). In due course, NADPH accumulates downstream of PSI, altering the ATP/NADPH ratio and causing an over-reduction of the PSI acceptor side ([@B54]; [@B69]; [@B60]). Ca^2+^ Improved Peanut Growth and Photosynthetic Capacity During Low Nocturnal Temperature And Its Recovery {#s4_2} ----------------------------------------------------------------------------------------------------------- Our results showed that foliar application of Ca^2+^ enhanced leaf growth and dry matter accumulation of peanut roots, stems and leaves under LNT stress and improved the recovery ([**Figure 1**](#f1){ref-type="fig"}). Previous studies have also shown that the pre-treatment of exogenous Ca^2+^ improves plant growth and photosynthesis, and enhances cold resistance ([@B14]); for example, in peanut ([@B49]), wheat ([@B93]), Chinese crab apple ([@B45]) and tomato ([@B95]; [@B50]). High-yielding peanuts are a calcium-demanding oil crop, with calcium critical for peanut growth and development ([@B86]). The LNT + Ca treatment restored the concentration of chlorophyll a to a level similar to that in CK, while the concentration of chlorophyll b was lower than that in CK while higher than that in LNT. Peanut seedlings in the LNT + TFP treatment showed more severe growth inhibition and had lower levels of the main photosynthetic pigments ([**Table 1**](#T1){ref-type="table"}). Our results also indicated that exogenous Ca^2+^ relieved the excess accumulation of nonstructural carbohydrates (fructose, glucose, sucrose and starch) in peanut leaves under LNT stress ([**Figure 2**](#f2){ref-type="fig"}). It is a well-established principle that plant growth and carbohydrate metabolism are closely linked since carbohydrates generated by photosynthesis are the primary source of building blocks and energy for the production and maintenance of biomass ([@B62]). In particular, Ca^2+^, involved in regulating carbohydrate metabolism of plants, can contribute to the regulation of sucrose synthesis, such as the inhibition of cytosolic Fru1, 6bisPase and the activation of SPS (Sucrose-Phosphate Synthase) as well as the turnover of PPi ([@B14]; [@B24]; [@B52]). In addition, Ca^2+^ is an important component of several signal transduction pathways including sugar signaling ([@B61]; [@B27]), and Ca^2+^ regulation has been implicated in phloem function ([@B24]). Furthermore, our results showed that supplementary Ca^2+^ indirectly ameliorated the decline of g~s~ and Tr and maintained C~i~ during LNT which prevented a major decline in Pn ([**Figure 3**](#f3){ref-type="fig"}), which is in accordance with previous studies on *Arabidopsis* ([@B23]), cotton, tomato, and spinach ([@B38]; [@B14]), where calcium improved the synthesis, phloem loading and translocation of photosynthetic carbohydrates ([@B38]; [@B24]; [@B52]). Taken together, exogenous Ca^2+^ application alleviated temperature-dependent photosynthesis feedback inhibition due to improved growth demand and reduced accumulation of nonstructural carbohydrates. Exogenous Ca^2+^ can relieve photodamage as well as accelerating photosynthetic recovery in peanut leaves under LNT stress. The current study demonstrated that exogenous Ca^2+^ enhanced the PSII self-repairing process under LNT stress and during its recovery ([**Figures 4**](#f4){ref-type="fig"} and [**5**](#f5){ref-type="fig"}). Previous research has shown that the calcium-binding protein CAS is crucial for maintaining PSII activity, recovery, and turnover, as well as for driving high-light acclimation ([@B82]). PSII is a multisubunit protein-pigment complex containing polypeptides, both intrinsic and extrinsic to the photosynthetic membrane. The extrinsic luminal protein PsbO can bind to calcium ions and stabilize the function of the oxygen-evolving complex ([@B33]; [@B70]). In our study, exogenous Ca^2+^ decreased Y(NO) under LNT stress, whereas LNT and LNT + TFP increased Y(NO) indirectly ([**Figure 5**](#f5){ref-type="fig"}). This suggests that the PSII reaction centers under the LNT and LNT + TFP treatments experienced severe photodamage. Conversely, the thylakoid lumen acidification ([**Figure 7**](#f7){ref-type="fig"}) driven by CEF ([**Figure 6**](#f6){ref-type="fig"}) with exogenous Ca^2+^ pretreatment under LNT stress possibly promoted calcium binding to PsbO, which is important in the assembly and stabilization of PSII reaction center ([@B92]). Moreover, Ca^2+^ might affect the expression of LHC stress-related protein 3, which is crucial for qE, the energy-dependent component of NPQ ([@B82]). However, CEF contributes to the pH gradient across the thylakoid membrane which is required for efficient qE. Foliar application of exogenous Ca^2+^ may also increase the binding of calmodulin to NADK2, which is known to modulate the NAD/NADP balance ([@B67]). Furthermore, our study showed that ATPase activity was promoted by exogenous Ca^2+^ under LNT stress ([**Figure 7**](#f7){ref-type="fig"}). This finding is in accordance with previous studies on tomato under LNT stress ([@B95]) and tobacco under high-temperature stress ([@B80]). Exogenous Ca^2+^ can also enhance the activities of several key enzymes in the Calvin cycle, which in turn boost cyclic electron transport and PSII reaction center activity ([@B82]; [@B34]). Therefore, supplementary Ca^2+^ could indirectly reduce over-reduction damage on the PSI acceptor side of peanut leaves. The LNT + Ca treatment induced a rapid increase of CEF to minimize PSI photodamage ([**Figures 5**](#f5){ref-type="fig"} and [**6**](#f6){ref-type="fig"}). Therefore, exogenous Ca^2+^ could restore both PSII and PSI photodamage as well as accelerating the photosynthetic recovery in peanut leaves under LNT stress. Our data showed that foliar application of a calmodulin inhibitor (trifluoperazine, TFP) exacerbated the inhibition of growth, dry matter accumulation and photosynthetic gas exchange in peanuts under LNT stress, with poor performance during the recovery stage ([**Figures 1**](#f1){ref-type="fig"}--[**5**](#f5){ref-type="fig"}, [**Table 1**](#T1){ref-type="table"}). The LNT + TFP treatment increased soluble sugar, starch and total nonstructural carbohydrate concentrations more than LNT ([**Figure 2**](#f2){ref-type="fig"}). We found that LNT + TFP strongly reduced peanut photosynthetic capacity through its limitation on peanut growth, leaf expansion and nonstructural- carbohydrate export from leaves to support sink growth and development. TFP can enter plant cells through the cell membrane and prevent the formation of a Ca^2+^--CaM complex, thus inhibiting Ca^2+^--CaM effects ([@B32]; [@B49]). It is plausible that the Ca^2+^--CaM complex plays an important role in facilitating Ca^2+^ signal transduction to restore peanut growth and photosynthetic capacity under LNT stress. The specific molecular mechanism underpinning the Ca^2+^--CaM complex--LNT stress interaction remains to be examined. Conclusions {#s5} =========== LNT decreased peanut growth and photosynthetic activity. The protective effects of foliar-applied calcium on peanut were mainly due to improved peanut growth and leaf expansion, and the export of nonstructural carbohydrates, secondarily increasing photochemical activity during exposure to LNT and its subsequent warm recovery. Therefore, exogenous Ca^2+^ restored temperature-dependent photosynthesis feedback inhibition by improving sink demand in peanut under LNT stress. In addition, TFP-treated peanut seedlings performed worst during LNT, which further confirmed the protective role of Ca^2+^ in LNT tolerance of peanut. Data Availability Statement {#s6} =========================== All datasets generated for this study are included in the article/supplementary material. Author Contributions {#s7} ==================== YL, TL, XH, and QBS designed the experiment. QBS, QWS, CB, DW, and XH conducted the experiment and collected data for preliminary analysis. YL, JP, CG, and YC further analyzed the data and prepared the manuscript. All authors reviewed and commented on the manuscript. HL, JP, JY, and KS revised the manuscript. Funding {#s8} ======= This research was funded by the Natural Science Foundation of China (project no. 31772391, 31301842, 31601627), the National Key Research and Development Plan (project no. 2018YFD0201206), the National Peanut Research System (project no. CARS-13- Nutrient Management). Conflict of Interest {#s9} ==================== The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest. This study was carried out with support from the Sheng Jing Talents Project (Project No. RC170338), the China Scholarship Council (Project No. 201708210143). Abbreviations {#s10} ============= AL, Actinic light; ATP, Adenosine triphosphate; C~a~, Atmospheric CO~2~ concentration; C~i~, Intercellular CO~2~ concentration; CaM, Calmodulin; CEF, Cyclic electron flow; DoT, Days of LNT treatment; DoR, Days of normal temperature recovery; ETR(I), Relative electron transport rate in Photosystem I; ETR(II), Relative electron transport rate in Photosystem II; F, Fluorescence yield measured briefly before application of a saturation pulse; Fo, Minimal fluorescence yield of the dark-adapted sample with all PSII centers open; Fo', Minimal fluorescence yield of the illuminated sample with all PSII centers open; Fm, Maximal fluorescence yield of the dark-adapted sample with all PSII centers closed; Fm', Maximal fluorescence yield of the illuminated sample with all PSII centers closed; Fv/F, Maximal photochemistry efficiency in Photosystem II; FH1, Fenghua 1; g~s~, Stomatal conductance; H, Plant height; LA, Leaf area; LNT, Low nocturnal temperature; Ls, Leaf stomatal limitation; NAD, Nicotinamide adenine dinucleotide; NADK, Nicotinamide adenine dinucleotide kinase; NADP, Oxidation form of nicotinamide adenine dinucleotide phosphate; NADPH, Nicotinamide adenine dinucleotide phosphate; NPQ, Non-photochemical quenching; PAR, Photosynthetically active radiation measured in μmol quanta m^--2^ s^--1^; Pm, Maximal P700 signal'; Pm', Real-time P700 signal under light'; Pn, Net photosynthetic rate'; PPF, Photosynthetic photon flux density'; P~red~, P700 reduction coefficient under light'; PSI, Photosystem I; PSII, Photosystem II; qE, The energy-dependent component of NPQ; RH, Relative humidity; TFP, Trifluoperazine; Tr, Transpiration rate; WUE, Water-use efficiency; Y(II) = ΦPSII, Actual quantum yield in PSII under light; Y(NO), Non-regulatory quantum yield in PSII under light; Y(NPQ), Regulatory quantum yield in PSII under light; Y(I) = ΦPSI, Actual quantum yield in PSI under light; Y(ND), Quantum yield of PSI non-photochemical energy dissipation due to donor-side limitation; Y(NA), Quantum yield of PSI non-photochemical energy dissipation due to acceptor-side limitation; △pH, Proton gradient; △ψ, Membrane potential. [^1]: Edited by: Alvaro Sanz-Saez, Auburn University, United States [^2]: Reviewed by: Amy S. Verhoeven, University of St. Thomas, United States; Joel Reyes-Cabrera, Eastern New Mexico University, United States; Juan Liu, Henan Academy of Agricultural Sciences (HNAAS), China [^3]: This article was submitted to Plant Abiotic Stress, a section of the journal Frontiers in Plant Science
2024-07-30T01:26:36.242652
https://example.com/article/1039
awesome service for you Our 24/7 online application is completely paperless and faxless. You will get an instant answer whether you have been approved! don’t worry support is here After you’ve finished our online application, we will contact you by either email or phone within 5 minutes about the status of your loan. relax and be amazed We’ll deposit funds into your bank account within the next business hour, after you have completed our application form and got approval. Advantages of Instant Cash Loans: Veni, vidi, vici Personal Online Loans up to $1,000 without Credit Checks! Many centuries ago the Roman philosopher Seneca told one worldly wisdom that greatly characterizes today`s life: “It`s not that we have so little time but that we lose so much”. This means that our life is long, but we waste it on unimportant things. The biggest time-eaters are traffic jams, social networks, numerous coffee-brakes at work and… banks. Yes, we really mean banks and other financial institutions that provide money for their clients. Of course, if your financial status is always as adamant as a rock, then you won`t understand what we are trying to tell you. But people who often find themselves out of money will say: yes, we waste so much of our precious time trying to get payday loans in banks, money stores and pawn shops. Why do banks eat your time? Banks and other financial institutions have always been very time-consuming. In order to get simple cash, you need to spend hours within their walls to prove your solvency. You have to wait until your credit history is checked. You have to wait until bankers prepare the tons of documents you need to sign to get a payday loan. You have to waste your time sitting in lines. You have to go to the office, as fast payday loans online are usually available only for regular clients. If you are not a reg, don`t even dream to get instant payday loan online. You have to find time in your working schedule to go to the bank, as it usually provides money only in business hours. So if your need for money is urgent, you won`t be able to receive the necessary sum from the bank. But the most upsetting thing about it is that you can waste your time and receive nothing! If bankers think that your credit history is not trustworthy or if you don`t have a pledge to secure your loan, they will reject your application. How to get easy payday loans and save your time and nerves Time is precious, so as your nerves. So, consider the way of getting payday loans online in our company! Our advantages: We don`t check your credit history. We require minimal number of documents. We provide money loans online even to unemployed people! We guarantee 100% satisfaction with our services! No paperwork. No lines. Get your money in 30 minutes. Apply for a payday loan any time of the day, any time of the week. Even at night! Apply via the Internet! Read our feedbacks and don`t waste your time on searching for a decent company. You`ve already found it! Same Day Personal Loans - Apply instantly for a cash advance loan! You can apply on-line in minutes getting up to $1000 and have the confidence that your money will be in your account today. Simply fill out an application on our site, and wait just a few minutes for the loan tailored to your needs. You’ll never need to leave your home or office to get money!
2024-06-13T01:26:36.242652
https://example.com/article/8126
Anime Evo: Ookami-san 09 Review Anime Evo: A long long time ago…hey wait a minute. This aint the regular opening scene for Ookami-san! Where the heck are we? What’s the castle doing there? AND WHERE’D that genie come from? More importantly…why does he looks like that ero-jiji of a Director? And why is he asking Ringo what her three wishes are.
2024-01-25T01:26:36.242652
https://example.com/article/2594
Q: отправка клиентом HTTP-запросов к серверу Как написать на php post/get запрос к серверу? В инструкции к API в качестве примера привели следующие строки: --- BEGIN --- POST http://primer.ru/api/Authorization/CreateAuthToken HTTP/1.1 Content-Length: 38 Content-Type: application/json; charset=utf-8 {"Login": "логин","Password": "пароль"} --- END --- Не понятно что с этим делать. (гуглил..примеров куча, но цельного ответа не нашел, в php очень слаб.) Планируется в ответ получить код авторизации и использовать его уже в get запросе для авторизации на сервере: GET api/integration/v1/inn/​<inn>​/kkts?​AuthToken='код авторизации' Потом можно get запросом получить нужные мне данные: GET api/integration/v1/inn/​<inn>​/kkts Ответы предполагаются в формате JSON. Помогите пожалуйста написать серверный код на php для поставленной задачи. Спасибо. A: Вы можете использовать CURL для данной задачи, например function get_info_by_curl($URL, $PostFields) { $CH = curl_init(); if ($CH === false) { echo 'Initialization error #'.curl_errno($CH).' ---- '.curl_error($CH); } curl_setopt($CH, CURLOPT_URL, $URL); curl_setopt($CH, CURLOPT_RETURNTRANSFER, true); curl_setopt($CH, CURLOPT_SSL_VERIFYHOST, false); curl_setopt($CH, CURLOPT_SSL_VERIFYPEER, false); curl_setopt($CH, CURLOPT_SSLVERSION, 1); curl_setopt($CH, CURLOPT_TIMEOUT, 30); curl_setopt($CH, CURLOPT_POST, true); curl_setopt($CH, CURLOPT_POSTFIELDS, $PostFields); $Result = curl_exec($CH); $CURL_Error = curl_errno($CH); if ($CURL_Error > 0) { echo 'cURL Error: --'.$CURL_Error.'--<br>'; $RetStr = false; } else { $RetStr = $Result; } curl_close($CH); return $RetStr; } При вызове фунции передаёте ресурс на который должен обращатся запрос, и параметры(если необходимо) $URL = 'Ссылка на ресурс'; $PostFields = 'params=1&'; $PostFields .= 'params2=2&'; $PostFields .= 'params3=3; $Response = get_info_by_curl($URL, $PostFields); print_r($Response);
2024-07-07T01:26:36.242652
https://example.com/article/1793
What to Do If Your Business Is Slow During the Holidays If you are an entrepreneur, your innovative business plan must have brought in many profits. Being the only source of income for your household expenditures, you invest a lot of your energy (both physical and mental) into it. The energy, time, and financial investments are paid off when your work flourishes with a healthy cash flow. However, there is one hardship that entrepreneur’s face- a sales slump. Every year, for a certain period of time, the sales for several businesses hit a wall. Mostly, this is during the holiday season and the end of the year time period when cities are decorated with bright lights and the sky is adorned with fireworks, but for several entrepreneurs, this is not a very colorful and bright time of the year. Facing the Challenge You have come a long way and met a road block at the end of the year. This is likely to affect your income and your morale negatively. The task for you is to take advantage of the awareness you have about the looming instability, lurking around the corner to strike your business. Your creativity and commitment helped you start your own business; be confident in finding a way to deal with the challenges it puts forward. Instead of passively allowing your work to be swayed away towards a slump, take control and steer your business in a different and beneficial direction. Dealing with the Slump If you have decided not to give into the pressure of a slow business, here are some ways to deal with it: Enjoy the Holidays What time of the year is it? Is it the holiday season? Then you are entitled to some time away from work as well. Spend this time not worrying about the sales and the lack of cash flow; instead, spend some time with family and friends. Go on a short trip or call up a friend to catch up with them. Do something you like and take a break. Did you know that everyone needs sometime away from their work? Treat this as a natural time away from work and relax yourself mentally. Polish your Skills If you do not wish to break away from work, then spend the time working towards strengthening your business. Read books that are related to your business, speak with other entrepreneurs or use the internet to research any business related topic that has been on your mind. You will always find room for improvement. Did you know that networking is one of the most beneficial ways of expanding or improving your business? With loads of new ideas and information in the fountain of your knowledge, you will be able to return back, after the natural sales slump, with a bang. Additionally, this might also help in increasing your revenue and sales during the peak seasons of the year, thereby compensating heavily for the snail paced business at the end of the year. Organizing your Work If you feel like staying at home and do not feel the need to network around, then focus on organizing your work. Start with organizing your documents and utilize hand written notes so that you can fish out a document you need within a minute you start hunting for it. Positivity is said to emanate from a spacious and well kept office place. Besides your physical work place, you should also organize your email inbox. Did you know that there are many sale leads that you miss out on because you do not spend time sorting out your inbox? In the holiday time period, go through the phase of negotiation with an interested client who might have been unknowingly buried under spam emails. Within Sight within Mind Do not just disappear during the slow holiday time period; rather use this time to connect with former clients because you do not want to be forgotten. Send them cards or update them via email about any upcoming promotional sales or services. Ring them up and take their feedback, showing them that you value their opinion. Did you know that staying in touch with the customers increases their loyalty? Forecasting the Cash Flow Keeping a record of your sales, via digital means or manually, can help you discover the pattern of your business. When the time to make tax payment is near, you will know. Also, you will be able to figure out the slow and busy months. Once you understand your business curve, you can engage in aggressive sales a few months before hitting a slump. Did you know that this is one of the most ideal manners of dealing with the sales slump? The holiday season does not necessarily have to be associated with a slump in sales. Now that you can forecast the slump, take advantage and build a partnership with someone whose business might be at a peak during the holidays. Therefore, to fill in the void of slow sales, prepare beforehand and find someone who becomes a sales star at the end of the year. About Brad Adams Brad is the founder of Renegade Entrepreneur. An experienced entrepreneur and executive, he is one of the most sought after consultants, coaches and speakers for entrepreneurs, business owners and senior executives. Read More >> Reviews If you're satisfied with the status quo, or if you're comfortable traveling with the herd, then you're in the wrong place. But if you are ready to take your business to the next level, to build something great, Brad is uniquely qualified to get you there. E. Rick BaldiniBest of Everything, Inc.June 19, 2016 Brad is a thoughtful and insightful entrepreneur, whose many years of experience will benefit any business owner. Andy GrahamManaging Director, APG PartnersNovember 6, 2014 Brad is one of the most innovative and dynamic entrepreneurs I know. His foresight into what’s next is unsurpassed. Steve RobinsonCEO, ReimagineNovember 6, 2014 Brad is a super-smart entrepreneur who is making a big difference! James MalinchakFeatured on the hit ABC TV show "Secret Millionaire"June 19, 2016
2024-07-12T01:26:36.242652
https://example.com/article/5883
TGF-beta-1 is a potent inhibitor of hepatocyte growth both in vivo and in vitro. In this study we analyzed the effects of TGF-beta-1 on both naturally occurring and diethylnitrosamine-induced hepatocarcinogenesis using single transgenic TGF-beta-1 and double transgenic c-myc/TGF-beta- 1 mice in which the expression of both transgenes was targeted to the liver. Hepatocellular tumors developed spontaneously in 59% (10 or 17) of the TGF-beta-1 mice by 16-18 months of age. Coexpression of TGF-beta- 1 and c-myc transgenes in the liver accelerated hepatic tumor growth in both the presence and absence of carcinogenic treatment. Moreover, diethylnitrosamine-initiated tumors in the c-myc/TGF-beta-1 mice showed a high rate of malignant conversion associated with a reduced expression or lack of TGF-beta receptor type II. The results suggest that overexpression of TGF-beta-1 may contribute to liver carcinogenesis and that loss of TGF-beta receptor type II transduced inhibitory growth signals and up-regulation of c-myc are critical steps in liver tumor progression.
2024-06-13T01:26:36.242652
https://example.com/article/1080
Q: Windows Azure: web application on several instances, authentication? An existing web application I want to migrate to the Windows Azure Cloud authenticates users the following way somewhere in the (post)authenticaterequest event: IPrincipal current = Thread.CurrentPrincipal; if (current != null && ((IClaimsIdentity)current.Identity).Claims.Count > 0) { IPrincipal result = AuthManager.CreateGenericPrincipal(current.Identity); HttpContext.Current.User = result; Thread.CurrentPrincipal = result; } The CreateGenericPrincipal method looks up roles in a xml file for the claimsidentity and creates a new GenericPrincipal with that roles. Pages that need authentication just perform IPrincipal p = Thread.CurrentPrincipal; p.IsInRole("rolesFromXml"); This works fine with one webrole instance since there is no big difference to normal IIS hosting. But will it still work with 2, 3 oder 5 instances? The Azure loadbalancer is not "sticky", users could be forwarded to another instance while using the application. Dunno if Thread.CurrentPrincipal is still the way to go. I use claims-based identity here. The first time an user enters the page, he gets forwarded to a security token service. Until now, this only happens once. It would be annoying if that happens several times when using multiple instances.. Thanks! A: What typically happens is that you are forwarded only once, the redirect dance (passive redirect) happens, and you get a token. The token is typically cached in a cookie in an encrypted format. So, subsequent requests do not do the redirect dance. The challenge here is that since the cookie is encrypted, all servers in a web farm must have the encryption key to decrypt. Out of box, you will run into issues with WIF because it defaults to DPAPI. This type of encryption is intentionally different per machine. That breaks in the cloud. What you need to do is upload a service certificate as part of your deployment and change the way the cookie encrypted to something that is webfarm friendly. Here is the magical code: private void OnServiceConfigurationCreated(object sender, ServiceConfigurationCreatedEventArgs e) { var sessionTransforms = new List<CookieTransform>( new CookieTransform[] { new DeflateCookieTransform(), new RsaEncryptionCookieTransform( e.ServiceConfiguration.ServiceCertificate), new RsaSignatureCookieTransform( e.ServiceConfiguration.ServiceCertificate) }); var sessionHandler = new SessionSecurityTokenHandler(sessionTransforms.AsReadOnly()); e.ServiceConfiguration.SecurityTokenHandlers.AddOrReplace( sessionHandler); } This sets up your security token handler to use RSA Encryption with key material derived from the installed certificate. There is more detail and information outlined here in this sample application that illustrates the problem and solution: http://msdn.microsoft.com/en-us/library/ff966481.aspx Additional Edit: There is a pipeline in ASP.NET where WIF is configured. It hooks the authentication event and will pull the token from the cookie and build your IPrincipal so that subsequent code will have that in the context. You typically don't build the Principal yourself when using an STS. Instead, if you need to modify the Principal, you plugin to the pipeline in WIF and insert additional claims to the 'role' claim (actually a URI namespace). WIF will then use those claims to build the ClaimsPrincipal that will contain things like Roles and things just work (IsInRole, web.config auth, etc.). If possible, it is best to have the token contain the roles as claims. This is a much longer discussion however around 'normalization' of claims to meaningful contexts. Remember, the claims you get from a IP-STS is in their own terms and they might not mean anything to your application. For example, I might get a claim from a customer that they are part of Adatum\Managers group. That is completely meaningless to my application, so what I would typically do is exchange that token for one that my app understands and in the process transform or normalize the claims by claim mappings (i.e. Adatum\Managers --> MyApplicationAdminRole). Windows Azure ACS service is very applicable here to help do that (normalize claims from different IPs). I would recommend reading Vittorio's book on this all to get the common patterns here: Eugenio's notes: Adding to what @dunnry wrote, which is all correct. The proper extensibility point to augment your claim set in the Relying Party (your web app) is by using a ClaimsAuthenticationManager. The docs for this type are here. there are pointers to samples in that page. In that class you would read the roles from the XML file and add them to the ClaimsIdentity. The rest of the app would not worry about claims, etc. (especially if you are using roles like in your case). The RSA config for the cookies encryption solves the load balancer issue.
2023-09-12T01:26:36.242652
https://example.com/article/6285
315 S.W.3d 303 (2010) Ray'mon Ja'kee ROGERS, Appellant, v. COMMONWEALTH of Kentucky, Appellee. No. 2008-SC-000915-MR. Supreme Court of Kentucky. June 17, 2010. *305 Susan Jackson Balliet, Assistant Public Advocate, Department of Public Advocacy, Frankfort, KY, Counsel for Appellant. Jack Conway, Attorney General, Todd Dryden Ferguson, Assistant Attorney General, Office of Attorney General, Criminal Appellate Division, Frankfort, KY, Counsel for Appellee. Opinion of the Court by Justice VENTERS. Appellant, Ray'mon Rogers, appeals as a matter of right[1] from a judgment entered upon a jury verdict convicting him of complicity to commit murder, complicity to criminal attempt to commit murder, and two counts of complicity to commit first-degree robbery. In accordance with the jury's recommendation, he was sentenced to a total of forty years' imprisonment. On appeal, Appellant presents the following arguments: (1) that the trial court erred by refusing to allow him to question the venire panel during voir dire regarding the difference between the burden of proof at a civil trial versus a criminal trial; (2) that he was entitled to a directed verdict on both counts of complicity to first-degree robbery; and (3) that he was entitled to a directed verdict on the charge of complicity to criminal attempt to commit murder. For the reasons explained below, we affirm. I. FACTUAL AND PROCEDURAL BACKGROUND The evidence presented and viewed in the light most favorable to the Commonwealth established the following facts. In April 2007, Appellant had just turned eighteen. He frequently ran around with James Bryant in a Ford Crown Victoria owned by Bryant's wife. Appellant was well acquainted with murder victim Marcus Pratt, whom he had known since elementary school. On the evening of April 20, 2007, Appellant borrowed the Crown Victoria and drove to New Albany, Indiana, to pick up Pratt and attempted-murder victim James Hollister. Hollister testified he saw Pratt had about $800.00 to $1,000.00 in cash that night. The group left New Albany, crossed the bridge into Louisville, picked up two girls, and then went to a liquor store. Pratt paid for the liquor. From there, they went to a residence where they found Bryant. Bryant joined Appellant, Pratt, Hollister, and the girls in the Crown Victoria. They stopped at another drive-thru liquor store. Pratt again paid for the liquor. Hollister noticed that Bryant watched Pratt getting out the cash, and thus knew that Bryant was aware that Pratt carried a large amount of money on his person. Then, they went to the girls' apartment where they drank alcohol and smoked marijuana. Hollister noticed Pratt had two cell phones with him. After a while, Pratt told Appellant and Bryant that he and Hollister wanted to go back to Indiana. Bryant responded there was one more stop to make, and they left the girls' apartment. After getting back into the vehicle, Pratt and Hollister fell asleep. Appellant initially drove, but because he was so intoxicated, Bryant took over the driving, and drove the car to Elizabethtown, with Hollister and Pratt asleep in the backseat. Hollister testified he was awakened by the sounds of Appellant and Bryant outside the vehicle yelling at Pratt to give them "everything" he had. Bryant, seeing that Hollister had awakened, pulled him from the vehicle, and all four began to *306 fight. Pratt tried to run and as he did, Appellant drew a gun and shot Pratt, killing him. In the meantime, Bryant severely beat Hollister into unconsciousness. In the morning, Hollister woke up and tried to get help at nearby residences. His cell phone and money were missing. He eventually passed out. The next thing he remembered was awakening in the hospital, having suffered a broken nose and other injuries. Neither of Pratt's two cell phones, and none of the cash that he had on his person the previous night was found on his body. In the days following the murder, Appellant was observed with a large amount of cash and a black cell phone he had not previously been known to have. Police suspicion soon turned toward Appellant and Bryant. In an April 23, 2007, interview with Elizabethtown Police, Appellant admitted to being with Bryant the evening of April 20, 2007, but claimed that Bryant alone committed all of the crimes. Appellant claimed to have been asleep when they arrived at Elizabethtown, and that he was awakened by shots outside the vehicle as Bryant murdered Pratt. Appellant claimed he then pretended to sleep while Bryant pulled Hollister from the vehicle and proceeded to beat him. He repeated this version of events at trial. Appellant was indicted for complicity to murder, complicity to attempted murder, and two counts of complicity to first-degree robbery. The Commonwealth filed a notice that it would seek the death penalty, but later withdrew the notice. Bryant was similarly indicted, but was tried separately. Appellant was convicted of all charges. The jury recommended a total sentence of forty years' imprisonment. On November 10, 2008, the trial court issued a judgment and sentence consistent with the jury's recommendation. This appeal followed. II. THE TRIAL COURT PROPERLY LIMITED VOIR DIRE QUESTIONING REGARDING REASONABLE DOUBT Appellant contends that the trial court erred by refusing to allow him to question the venire panel during voir dire regarding the difference between the burden of proof at a civil trial versus a criminal trial. During voir dire, Appellant's counsel began to ask the venire panel if they knew the difference between a civil trial and a criminal trial with respect to the requirement of proof beyond a reasonable doubt. When the Commonwealth objected, trial counsel explained to the judge that he was trying to "let the jury know" that a different standard of proof applied in criminal cases. Later in the same bench conference, counsel stated that he was trying to "educate the jury" to the fact that a different standard applied in a criminal case. The trial court sustained the Commonwealth's objection on the grounds that trial counsel was improperly attempting to define reasonable doubt. Although counsel was allowed to tell the panel that the burden in a criminal case is "beyond a reasonable doubt," he was not allowed to contrast that with a civil trial's "preponderance of the evidence" standard. The trial court concluded that explaining to the jury that belief beyond a reasonable doubt differed from belief by a preponderance of the evidence was tantamount to defining reasonable doubt, and would violate RCr 9.56. We affirm the trial court's exercise of discretion in limiting Appellant's counsel's statements to the jury, although we do so for slightly different reasons. Trial courts are granted broad discretion and wide latitude in their control of the voir dire examination under RCr 9.38. "While it is within the discretion *307 of the trial court to limit the scope of voir dire, that discretion is not boundless. Appellate review of such limitation is for abuse of discretion." Hayes v. Commonwealth, 175 S.W.3d 574, 583 (Ky.2005) (citing Webb v. Commonwealth, 314 S.W.2d 543, 545 (Ky.1958)). We observe at the outset that under RCr 9.38, voir dire is an "examination of the prospective jurors" by which the court and counsel seek information from the prospective jurors. It is not an occasion for counsel to educate the juror panel regarding legal concepts, although competent trial lawyers might properly structure their questions to the panel in a way that achieves that end. "The principal purpose of voir dire is to probe each prospective juror's state of mind and to... allow counsel to assess suspected bias or prejudice." Lawson v. Commonwealth, 53 S.W.3d 534, 539 (Ky.2001) (quoting Thomas v. Commonwealth, 864 S.W.2d 252, 259 (Ky.1993)). Educating the jury on legal concepts is the function of the trial court. On that basis alone, we conclude the trial judge was well within the bounds of her discretion to limit counsel's attempt to use voir dire for the edification of the jury. We also recognize, however, that in order to fairly exercise the right of peremptory challenges and challenges for cause, it is sometimes necessary to introduce legal concepts to the jury panel to ascertain if any prospective juror is unable or unwilling to adhere to the concept. For example, we have allowed trial counsel during voir dire to present limited information on the applicable sentencing options so that inquiry can be made into the ability of each prospective juror to consider the full range of punishment involved in the case. Lawson, 53 S.W.3d at 544. We recognize that concern for a juror's inclination to apply the reasonable doubt standard of proof may, in some cases, be a concern as serious as the juror's inclination to consider the full range of punishment. RCr 9.56 states that the jury should not be instructed as to the definition of "reasonable doubt." In Commonwealth v. Callahan, 675 S.W.2d 391, 393 (Ky.1984), we extended the well-settled prohibition of defining reasonable doubt to all points in a trial's proceedings, stating "trial courts shall prohibit counsel from any definition of reasonable doubt at any point in the trial[.]" We have held that, subject to appropriate limits,[2] the rule is not offended by stating what reasonable doubt is not. Id. at 392.[3] In Johnson v. Commonwealth, 184 S.W.3d 544, 549 (Ky.2005), we concluded that the prosecutor's statement to the jury panel that "beyond a reasonable doubt" was not the same thing as "beyond a shadow of a doubt" did not constitute defining of reasonable doubt. Most recently, in Cuzick v. Commonwealth, 276 S.W.3d 260, 268 (Ky.2009) we declined to overrule Johnson on that very *308 point[4] and expressly reaffirmed Johnson's point that "in the very case that announced the prohibition against defining reasonable doubt [Callahan], we held that the prosecutor's allegedly improper statement, which, at most, attempted to show what reasonable doubt was not, did not amount to a violation of the rule against defining `reasonable doubt.'" Cuzick, 276 S.W.3d at 269 (citing Johnson, 184 S.W.3d at 549).[5] As we noted above, the voir dire examination is to inform the court and trial counsel about the prospective jurors and not to educate the jury. But just as a juror's ability to consider the full range of penalties is frequently cause for legitimate concern, trial judges or trial counsel on both sides of a criminal case occasionally have reasonable concerns that prospective jurors may be confused or misinformed by the various standards of proof to which they have been exposed by prior jury service, news reports, television shows, or elsewhere, resulting in the inability or unwillingness of jurors to apply the reasonable doubt standard. The history of our cases on the subject plainly demonstrates such concern from the prosecutor's perspective, and we have consistently held their efforts to point out that reasonable doubt is not "all doubt" or a "shadow of a doubt" were either proper or were, at most, harmless error. Appellant argues that defense counsel with a similar concern should have the same opportunity to point out that the "beyond a reasonable doubt" standard required in a criminal case is not the same as the "preponderance of the evidence" standard applicable in most civil trials. We find no fault in that logic. Accordingly, we agree that stating to the jury that "beyond a reasonable doubt" is not the same thing as the civil trial standard of "beyond a preponderance of the evidence" does not constitute defining reasonable doubt.[6] In so holding, we remain consistent with our decisions in Callahan, Johnson, and Cuzick. Subject always to the trial court's sound discretion, such statements to the jury, if limited to the bare comment illustrated in the preceding sentence, are permissible during voir dire when used as the factual predicate for a question seeking to ascertain if any prospective juror would be unable to apply the reasonable doubt standard. Doing so does not violate RCr 9.56's prohibition against defining reasonable doubt, nor does it offend the principles set forth in Taylor v. Kentucky, 436 U.S. 478, 98 S.Ct. 1930, 56 L.Ed.2d 468 (1978) or Whorton v. Commonwealth, 570 S.W.2d 627, 631 (Ky. 1978) (overruled on other grounds by Kentucky v. Whorton, 441 U.S. 786, 99 S.Ct. 2088, 60 L.Ed.2d 640 (1979)), which led this Court to amend RCr 9.56 to its present form. Moreover, it accommodates the legitimate interest of all parties in a criminal case for assurance that jurors who *309 cannot apply the reasonable doubt standard will be subject to challenge. Appellant's counsel, however, never suggested to the trial court that he wanted to inquire if any juror would be unable to follow the criminal standard of proof beyond a reasonable doubt or would instead be inclined to apply the standard used in civil trials. Had he done so, the trial court's refusal to allow the inquiry would be subject to harmless error analysis. Cuzick, 276 S.W.3d at 267. Because our review of the record discloses that Appellant's sole purpose in raising the matter during voir dire was to educate the jury, rather than to elicit potentially disqualifying information about the jury, we conclude that the trial court did not err when it terminated counsel's discussion of the issue. III. APPELLANT WAS NOT ENTITLED TO A DIRECTED VERDICT ON THE COMPLICITY TO ATTEMPTED MURDER CHARGE Appellant next contends that he was entitled to a directed verdict on the complicity to attempted murder charge. He argues that the Commonwealth, at best, merely proved that he was present at the scene, and that his mere presence is insufficient to establish complicity in the attempted murder of Hollister. He also alleges that the Commonwealth did not prove there was any intent to kill Hollister, or that Appellant aided and assisted Bryant in Hollister's beating. To properly assess his claim, we must consider both the meaning of complicity, KRS 502.020, and the meaning of criminal attempt, KRS 506.010. In considering a motion for a directed verdict, the trial court is required to draw all fair and reasonable inferences from the evidence in favor of the Commonwealth. Commonwealth v. Benham, 816 S.W.2d 186, 187 (Ky.1991). [I]f the evidence is sufficient to induce reasonable juror to believe beyond reasonable doubt that defendant is guilty, directed verdict should not be given; for purpose of ruling on motion, trial court must assume that evidence for Commonwealth is true, but reserving to jury questions as to credibility and weight to be given to such testimony. On appellate review, test of directed verdict is, if under evidence as whole, it would be clearly unreasonable for jury to find guilt, only then defendant is entitled to directed verdict of acquittal ... there must be evidence of substance, and the trial court is expressly authorized to direct a verdict for the defendant if the prosecution produces no more than a mere scintilla of evidence. Id. (internal citations omitted). The criminal complicity statute, KRS 502.020,[7] "describes two separate and *310 distinct theories under which a person can be found guilty by complicity, i.e., `complicity to the act' under subsection (1) of the statute, which applies when the principal actor's conduct constitutes the criminal offense, and `complicity to the result' under subsection (2) of the statute, which applies when the result of the principal's conduct constitutes the criminal offense[.]" Tharp v. Commonwealth, 40 S.W.3d 356, 360 (Ky.2000). The primary distinction between these two statutory theories of accomplice liability is that a person can be guilty of "complicity to the act" under KRS 502.020(1) only if he/she possesses the intent that the principal actor commit the criminal act. However, a person can be guilty of "complicity to the result" under KRS 502.020(2) without the intent that the principal's act cause the criminal result, but with a state of mind which equates with "the kind of culpability with respect to the result that is sufficient for the commission of the offense," whether intent, recklessness, wantonness, or aggravated wantonness. KRS 502.020 (1974 Official Commentary); R. Lawson and W. Fortune, Kentucky Criminal Law § 3-3(b)(3), at 106, § 3-3(c)(2), at 114 (LEXIS 1998). Conspiracy, as envisioned by the statute governing complicity, does not necessarily require detailed planning and a concomitant lengthy passage of time. All that is required is that defendants agree to act in concert to achieve a particular objective and that at least one of them commit that objective. Commonwealth v. Wolford, 4 S.W.3d 534, 540 (Ky.1999). "The existence of a conspiracy can be proven ... by circumstantial evidence." Id. However, absent a showing of other facts and circumstances connecting a defendant with the crime, mere presence at the scene of the crime is not sufficient to attach guilt to defendant. Mcintosh v. Commonwealth, 582 S.W.2d 54, 57 (Ky.App.1979) (abrogated on other grounds by Commonwealth v. Clemons, 734 S.W.2d 459 (Ky.1987)). Appellant's claim that he was "merely present" at the scene of the crime bears no resemblance to the evidence, when viewed most favorably to the Commonwealth. Hollister testified that when he awoke at the crime scene, Appellant and Bryant were together outside the vehicle accosting Pratt and demanding that he give them "everything he had," which would include Pratt's large sum of money. This strongly suggests that Appellant and Bryant were acting in concert to steal Pratt's money. When they realized that Hollister was awake, Bryant immediately attacked him, and the scuffle ensued—Appellant and Bryant against Pratt and Hollister. Again, this suggests that Appellant and Bryant were allied in their conduct. Then, while Bryant kept Hollister occupied, Appellant shot Pratt, further indicating that Appellant and Bryant were complicit in each other's crimes. In summary, there was sufficient evidence that Appellant aided or conspired with Bryant so as to present a jury issue regarding accomplice liability under the complicity statute. Appellant argues, however, that even if he was found to be complicit in Bryant's crime against Hollister, there was insufficient evidence to show that Bryant's beating of Hollister constituted an attempt to kill him. KRS 506.010, the criminal attempt statute, provides as follows: *311 (1) A person is guilty of criminal attempt to commit a crime when, acting with the kind of culpability otherwise required for commission of the crime, he: (a) Intentionally engages in conduct which would constitute the crime if the attendant circumstances were as he believes them to be; or (b) Intentionally does or omits to do anything which, under the circumstances as he believes them to be, is a substantial step in a course of conduct planned to culminate in his commission of the crime. (2) Conduct shall not be held to constitute a substantial step under subsection (l)(b) unless it is an act or omission which leaves no reasonable doubt as to the defendant's intention to commit the crime which he is charged with attempting. (3) A person is guilty of criminal attempt to commit a crime when he engages in conduct intended to aid another person to commit that crime, although the crime is not committed or attempted by the other person, provided that his conduct would establish complicity under KRS 502.020 if the crime were committed by the other person. Thus, in addition to the evidence of complicit acts described above in this section, the Commonwealth was obligated to present sufficient evidence that in beating Hollister, Bryant intended to cause Hollister's death. The Commonwealth may prove intent by circumstantial evidence. Varble v. Commonwealth, 125 S.W.3d 246, 254-55 (Ky.2004); Blades v. Commonwealth, 957 S.W.2d 246, 250 (Ky. 1997). Circumstantial evidence is evidence that makes the existence of a relevant fact "more likely than not." Timmons v. Commonwealth, 555 S.W.2d 234, 237-38 (Ky. 1977). Although circumstantial evidence "must do more than point the finger of suspicion," Davis v. Commonwealth, 795 S.W.2d 942, 945 (Ky.1990), the Commonwealth need not "rule out every hypothesis except guilt beyond a reasonable doubt." Jackson v. Virginia, 443 U.S. 307, 99 S.Ct. 2781, 61 L.Ed.2d 560 (1979); Ratliff v. Commonwealth, 194 S.W.3d 258, 267 (Ky. 2006). A "[c]onviction can be premised on circumstantial evidence of such nature that, based on the whole case, it would not be clearly unreasonable for a jury to find guilt beyond a reasonable doubt." Graves v. Commonwealth, 17 S.W.3d 858, 862 (Ky. 2000). While Appellant naturally tries to minimize the severity of the beating, the evidence demonstrates Hollister was beaten into unconsciousness and left at the scene unattended. Thus, a reasonable inference from the evidence is that Appellant and Bryant, in addition to robbing Hollister, also sought to eliminate him as a witness by killing him, and when Hollister became unconscious, Appellant and Bryant thought they had accomplished their purpose and left him for dead. Even after regaining consciousness and seeking help the next morning, Hollister again lapsed into unconsciousness. While it appears that his most serious injury was a broken nose, Hollister testified that as a result of the beating he had scars on his forehead, the top of his head, and his arm, shoulder, and chest. The emergency room physician who examined Hollister testified that it required numerous CAT scans to evaluate his head injuries, the purpose of which was to look for possible intracranial bleeding and broken bones in Hollister's face and neck—injuries which could have been life-threatening. We conclude that sufficient evidence was presented to support the conclusion that Bryant, with Appellant's aid and assistance, attempted to murder Hollister. Appellant *312 was not entitled to a directed verdict on the charge of complicity to the attempted murder of Hollister. IV. APPELLANT WAS NOT ENTITLED TO A DIRECTED VERDICT ON THE COMPLICITY TO ROBBERY CHARGES Finally, Appellant argues that he was entitled to a directed verdict on the two charges of complicity to first-degree robbery. With respect to the charged robbery of Pratt, Appellant argues there was no proof concerning what Pratt may have done with the money he had shortly before the shooting; that no one saw anyone take or remove anything from Pratt; that Pratt still had crack cocaine in his pocket following his death; and that Appellant had only $35.00 on him when he was arrested. With respect to the robbery charge against Hollister, Appellant argues that there was no evidence that he was complicit in taking anything from Hollister. While acknowledging that Hollister testified that his cell phone and money were missing following the beating, Appellant argues that his mere presence at the scene cannot support a conviction for the robbery. To be convicted of robbery,[8] the accused need not have taken any money or other property from the victim with his own hands, or actually participated in any other act of force or violence; it is sufficient that he came and went with the robbers, was present when the robbery was committed, and acquiesced. Commonwealth v. Smith, 5 S.W.3d 126 (Ky. 1999) (quoting 67 Am.Jur.2d, Robbery § 9, p. 62). There is substantial circumstantial evidence that Appellant and Bryant robbed Pratt and Hollister. Moments before the shooting of Pratt, Hollister heard Appellant and Bryant demanding that Pratt give them everything he had. When Pratt failed to comply, the fight ensued. When Pratt attempted to get away with his money and his life, he was killed. Hollister's money and cell phone were taken while he was unconscious from the serious physical injury inflicted by Bryant and Appellant. The evidence that Appellant shot Pratt and that Bryant beat Hollister allows for a reasonable inference that the purpose of the use of such force was to accomplish the theft. As discussed in the previous section, the evidence supports the reasonable inference that Appellant was acting in complicity with Bryant so as to attribute to him conduct committed exclusively by Bryant. Appellant was not entitled to a directed verdict on the two robbery charges. V. CONCLUSION For the foregoing reasons the judgment and sentence of the Hardin Circuit Court is affirmed. MINTON, C.J., ABRAMSON, NOBLE and SCHRODER, JJ., concur. SCOTT, J., concurs by separate opinion in which CUNNINGHAM, J., joins. *313 SCOTT, J., concurring: Although I concur in the result in this instance for reasons that the error here was harmless, I feel strongly that both Appellant and the Commonwealth do have a right to educate a jury on legal issues critical to a fair trial. That a "preponderance" is lower than "beyond a reasonable doubt" is such an issue, and pointing out simply which is lower does not define either one. If we are to retain our "bare bones" approach to instructions, rather than follow the federal practice, we must allow counsel this right. CUNNINGHAM, J., joins. NOTES [1] Ky. Const. § 110(2)(b). [2] Marsch v. Commonwealth, 743 S.W.2d 830 (Ky.1987) provides an example of such a limit. There, during voir dire the prosecutor engaged a prospective juror in a lengthy discussion of reasonable doubt that included the prosecutor's statement comparing reasonable doubt to a shadow of a doubt and to all doubt, and illustrating his comments with hypothetical examples of evidence that may represent the varying standards of proof. We found that RCr 9.56 had been violated. [3] For example, in Callahan, 675 S.W.2d at 392, the prosecutor's remarks included: "When I went to college I had some teachers that could practically prove to you that we weren't even here today. But that's not what reasonable doubt is." We decided that the comments of the prosecutor did not constitute any attempt to define reasonable doubt, but rather what reasonable doubt was not. Id. at 393. [4] In Cuzick, 276 S.W.3d 260, the decision was divided on other issues into three separate opinions, however the full court concurred on the point cited herein. [5] The fluid nature of this Court's view on this issue is revealed by comparison of Johnson and Cuzick with our decision in Brooks v. Commonwealth, 217 S.W.3d 219 (Ky.2007), holding that the prosecutor's closing argument that beyond a reasonable doubt did not mean beyond all doubt was improper, but harmless. [6] Theoretically, of course, it would be possible to completely define a thing by describing all that it is not. The limited comments described in Callahan, Johnson and Cuzick did not attempt define reasonable doubt by the process of eliminating all that it is not. We trust the sound discretion of our trial judges, guided by the limiting rule set forth herein, to be sufficient to restrain an improper attempt to define reasonable doubt. [7] KRS 502.020 provides as follows: (1) A person is guilty of an offense committed by another person when, with the intention of promoting or facilitating the commission of the offense, he: (a) Solicits, commands, or engages in a conspiracy with such other person to commit the offense; or (b) Aids, counsels, or attempts to aid such person in planning or committing the offense; or (c) Having a legal duty to prevent the commission of the offense, fails to make a proper effort to do so. (2) When causing a particular result is an element of an offense, a person who acts with the kind of culpability with respect to the result that is sufficient for the commission of the offense is guilty of that offense when he: (a) Solicits or engages in a conspiracy with another person to engage in the conduct causing such result; or (b) Aids, counsels, or attempts to aid another person in planning, or engaging in the conduct causing such result; or (c) Having a legal duty to prevent the conduct causing the result, fails to make a proper effort to do so. [8] The first-degree robbery statute, KRS 515.020, provides as follows: (1) A person is guilty of robbery in the first degree when, in the course of committing theft, he uses or threatens the immediate use of physical force upon another person with intent to accomplish the theft and when he: (a) Causes physical injury to any person who is not a participant in the crime; or (b) Is armed with a deadly weapon; or (c) Uses or threatens the immediate use of a dangerous instrument upon any person who is not a participant in the crime.
2023-09-01T01:26:36.242652
https://example.com/article/6343
Q: Hausdorff distance: Prove that if $(E,d)$ is complete then, $(\mathcal{K}(E), \mathcal{H})$ is also complete Let $(E,d)$ be metric space. We denote by $\mathcal{K}(E)$ the set of compact subsets of $E$ that is $$ \mathcal{K}(E)=\{K\subset E: K\text{ is compact in } E\}$$ Prove that if $(E,d)$ is complete then, $(\mathcal{K}(E), \mathcal{H})$ is also complete. where for $A\subset E$ and $B\subset E$ one has $$ \mathcal{H}(A,B)= \max\{\sup_{y\in B}\inf_{x\in A} d(x,y) ,~~~\sup_{x\in A} \inf_{y\in B} d(x,y)\}$$ What about the converse ? I was only able to prove that $\mathcal H$ is a distance. But for the completeness I don't know how to do it. Please help. A: I think you can try following these steps: 1) If $(D_n)\subset \mathcal{K}(E)$ is a decreasing sequence, then $$ \lim_n D_n = \bigcap_n D_n. $$ Now let $(K_n) \subset\mathcal{K}(E)$ be a Cauchy sequence. 2) Since $(K_n)$ is Cauchy, the sets $B_m := \bigcup_{n=m}^\infty K_n$ are totally bounded, hence the sets $D_m := \overline{B_m}$ are compact and the sequence $(D_n)$ is decreasing. 3) By Step 1, $D_n \to D := \bigcap_m D_m$. 4) Use again the assumption that $(K_n)$ is Cauchy to conclude that $K_n \to D$. A: The converse ($\mathcal K(E)$ complete $\implies E$ complete) readily follows from the fact that for any Cauchy sequence $x_n$ in $E$, the sequence of one-point subsets $\{x_n\}$ is Cauchy in $\mathcal K(E)$, and therefore converges. The limit $\lim \{x_n\}$ then turns out to be a one-point set whose sole element is $\lim x_n$. For the direct implication, I give an "atypical" proof, which may be entertaining. Let $\{A_n\}$ be a Cauchy sequence in $\mathcal K(E)$. As was shown elsewhere, the set $F:=\overline{\bigcup_n A_n}$ is compact, so we may forget $E$ and restrict our attention to $F$. Next, we'll forget the Cauchy sequence and prove more: $\mathcal K(F)$ is compact, i.e., every sequence has a convergent subsequence. (Recall that compact spaces are complete.) To every nonempty compact subset $A\subset F$ associate its distance function $d_A(x) = \operatorname{dist}(x, A)$, where $x\in F$. The following facts are easy to check, and are worth knowing anyway: The functions $d_A$ are equicontinuous (they are Lipschitz with constant 1) and are bounded by $\operatorname{diam}F$. The Hausdorff distance between $A, B$ is exactly $\sup_F |d_A-d_B|$. By the Arzelà-Ascoli theorem, any sequence $d_n=d_{A_n}$ has a uniformly convergent subsequence, say $d_{n_k}\to f$. It remains to show that $f$ is the distance function of its zeros set $f^{-1}(0)$. To this end, note that $$f = \liminf d_n = \sup_{m} \inf_{n\ge m} d_n $$ hence $$ f^{-1}(0) = \bigcap_m \{\inf_{n\ge m} d_n =0 \} = \bigcap_m B_m\quad \text{where } B_m = \overline{\bigcup_{n\ge m} A_n} $$ Being the intersection of nested compact sets, $f^{-1}(0)$ is nonempty. Using the nested compact sets lemma again, one can show that $$ \operatorname{dist}\left( x, \, \bigcap_m B_m\right) = \lim_m \operatorname{dist}(x, B_m) $$ where the right hand side is precisely $\liminf d_m$, which is $f$.
2024-02-06T01:26:36.242652
https://example.com/article/9385
using System; using System.Collections; using System.Collections.Generic; using System.Threading.Tasks; namespace Cofoundry.Domain { /// <summary> /// Cache for locale data, which is frequently requested to /// work out routing /// </summary> public interface ILocaleCache { /// <summary> /// Gets all active locales if they are already cached, otherwise the /// getter is invoked and the result is cached and returned /// </summary> /// <param name="getter">Function to invoke if the locales aren't in the cache</param> ICollection<ActiveLocale> GetOrAdd(Func<ICollection<ActiveLocale>> getter); /// <summary> /// Gets all active locales if they are already cached, otherwise the /// getter is invoked and the result is cached and returned /// </summary> /// <param name="getter">Function to invoke if the locales aren't in the cache</param> Task<ICollection<ActiveLocale>> GetOrAddAsync(Func<Task<ICollection<ActiveLocale>>> getter); } }
2024-03-09T01:26:36.242652
https://example.com/article/1105
Q: Maintaining Date Format in Excel I have a form with three combo boxes, one for the (possible) 31 days of the month, the second for the 12 numerals representing months and the third with year values corresponding to the next five years. I concatenate these together to form a date TheDay = CBDay.Value TheMonth = CBMonth.Value TheYear = CBYear.Value thedate = TheDay + "/" + TheMonth + "/" + TheYear So, here in Australia today's date will show as 10/12/2015 and this works fine. However when I write the data to the worksheet the date persistently converts to 12/10/2015 even though the column into which the data is written is formatted as 'date' in 'dd/mm/yy' style The variables are declared as integers Is there a way to ensure the value of the date doesn't change? A: Excel thinks it's clever with formatting strings that look like dates. Whenever possible, use date serial numbers and impose your own formats eg Dim theDate As Date theDate = DateSerial(TheYear, TheMonth, TheDay) ActiveCell = theDate ActiveCell.NumberFormat = "dd/mm/yyyy" ' or better yet, use an unambiguous date format ActiveCell.NumberFormat = "dd mmm, yyyy"
2024-01-29T01:26:36.242652
https://example.com/article/3616
A blog launched on the 41st anniversary of the Society for the Protection of Unborn Children (SPUC), the first pro-life organisation in the world, established on 11 January 1967. SPUC has been a leader in the educational and political battle against abortion, human embryo experimentation and euthanasia since then. I write this blog in my role as SPUC's chief executive, commenting on pro-life news, reflecting on pro-life issues and promoting SPUC's work. Monday, 30 November 2009 I referred on Saturday to Reverend Jack Sullivan's meeting with Cherie Blair (pictured). Jack, who was healed through Cardinal Newman's intercession in 2001, requested that references to the meeting be removed from the published recollections of his recent visit to England. I am pleased to note that news of Jack's request is spreading. It was reported in both the Telegraph and the Mail today. I've also heard that reference to the meeting has also been graciously removed from the Bishops' Conference of England and Wales website and from the website of the archdiocese of Birmingham. "Unfortunately, Jack had not been made aware of Mrs Blair’s public opposition to the teaching of the Church,’ said a spokesman for Birmingham Oratory which was founded by John Henry Cardinal Newman. "He undertook the visit in good faith, believing Mrs Blair to be simply a prominent Catholic. As soon as he was made aware of Mrs Blair’s record of public dissent from the Church’s teaching, Jack requested that all reference to meeting her be removed from the published recollections of his visit." The Belfast high court has this morning ruled in favour of SPUC's challenge of government abortion guidance in Northern Ireland. Lord Justice Girvan ruled in favour of SPUC's challenge on two grounds. SPUC argued that because abortion remains illegal in Northern Ireland, it was wrong to expect medical providers to give non-directive counselling to women who might be considering abortion. SPUC also argued that the government's guidance was wrong regarding non-participation in abortion (conscientious objection). The judge ruled in favour of SPUC on these points. The judge awarded costs against the Northern Ireland Department of Health, Social Services and Public Safety. "We are very pleased that the court has highlighted some of the problems with the health department’s abortion guidance. We hope that the department will now take seriously many of the concerns which were largely disregarded when the guidelines were being drafted. "Abortion is not health care. In Northern Ireland it is a criminal offence. It is simply extraordinary that a government department should have issued guidance on criminal legislation and not have once mentioned the victim of the crime. In illegal abortion the primary victim is the unborn child and any new guidance that the department brings forward needs to take fully into account the duty of care and the legal protection owed to the child before birth. "Abortion doesn’t only kill children it also hurts women. There is a huge amount of evidence that abortion can damage the physical and mental health of women. If the department is serious about providing aftercare for women hurt by abortion then health officials cannot continue to ignore the evidence of post-abortion trauma. More needs to be done to warn women of the consequences of abortion but there has to be more help for women facing a crisis pregnancy as well. "The law in Northern Ireland protects both women and children and new guidance must reflect that." Saturday, 28 November 2009 "This is a warning to Catholics, that they can't vote in favour of this and that they won't be able to receive communion unless they ask forgiveness ... They are in an objective state of sin". This is what Juan Antonion Martinez Camino (pictured right), the spokesman of Spain's Catholic bishops' conference, told a news conference about Spanish Members of Parliament who had voted in favour of a bill to make abortion more readily available. I'm in Sydney, Australia, for my son's graduation at Campion College where one of the guests will be Cardinal Pell, the redoubtable church leader who's known for taking a similar position on such matters. Pro-lifers and pro-life strategists should never underestimate the significance of such statements for the following reasons: Such statements reflect accurately the gravity of voting to kill the innocent. We would not be surprised by bishops refusing Communion to politicians who would vote to kill bishops. Their refusal would reflect the seriousness of the politicians' sin in voting in such a way. The same is true of bishops' refusal of communion to politicians voting to kill unborn babies. Such statements have the effect of building a great campaign for life, called for in Pope John Paul II's great encyclical on pro-life matters Evangelium Vitae, 95, in which he said: "What is urgently called for is a general mobilization of consciences and a united ethical effort to activate a great campaign in support of life". The "united ethical effort", to which Pope John Paul II refers, comes about because when the bishops make such appropriate, bold, statements, they reflect and strengthen the sentiment of ordinary people throughout the world whose respect for the fundamental human right to life is written in their hearts. Abortion supporters both inside and outside the churches will know for certain they have lost their campaign when bishops' conferences throughout the world follow the Spanish bishops' example. As I said in my talk (also in Spanish and Italian) at the 4th World Congress for Life in Spain earlier this month: "Here in Spain, the unity between the pro-life movement and your Catholic bishops on life issues is your greatest asset in your battle against your government's attacks on human life, marriage, parental rights and responsibilities, and the family. The loss of that unity would be the greatest threat to your pro-life and pro-family battle. The Church and the pro-life movement throughout Europe must learn from your example." It turns out that Jack was taken, in an unscheduled arrangement, to see Cherie Blair for a private visit, without being told about her prominent campaigning opposition to Catholic Church teaching on the culture of life. The Newman Cause had been completely unaware of the visit, reported in Times Online (‘Discovering Newman the priest’) and is in this week’s edition of the Catholic Herald (November 27th ‘Jack Sullivan reflects’ p. 11). Mrs Blair is pictured above cutting a special 75th anniversary birthday cake for FPA and offering the cameraman a condom. The Newman Cause blogpost states: "As soon as he was made aware of Mrs Blair’s record of public dissent from the Church’s teaching, Jack requested that all reference to meeting her be removed from the published recollections of his visit. The article on Times Online was duly amended yesterday (November 26th), but unfortunately Jack’s request came too late to remove the reference to Mrs Blair from the print version of the Herald. "The conjunction of Mrs Blair’s ‘conscientious’ dissent from the teaching of the Church with Jack Sullivan’s apparent endorsement of her could do harm to Newman’s reputation, and that is our reason for posting this clarification. Newman is indeed the great teacher of the rights and duties of conscience. It is of the greatest importance that his teaching is not used to make him the patron of Catholics, like Cherie Blair and others, who in the name of conscience practice dissent from the Church’s teaching ..." "Amen" to that I say. What on earth is the motivation behind arranging such a visit, without telling Reverend Jack Sullivan the truth about Cherie Blair? Make sure you read the full blogpost, especially Catholics - who need to know what's being done in their name. Christine Hudson is a mother and a leading SPUC activist from Plymouth. She's pictured here at this year's SPUC conference on the left, with (l-r) Peter C. Smith of SPUC Evangelicals, her son Benedict, Rev. Arnold Culbreath, and her daughters Rosie and Anna Hudson. Christine has sent me the critique below of the sex education policy in Britain. Do please read it carefully, as it gives you valuable material to use when opposing the government's plans to make sex education compulsory - please also read and respond to SPUC's campaign alert Compulsory sex education is against our children's best interests Christine Hudson of SPUC Plymouth Compulsory sex education from age five comes as no surprise, given that the nanny state has been pursuing an ideological agenda in this area for many years. Such legislation, nonetheless, does come as a further blow to the: pro-life movement autonomy of parents innocence of our children and their absolute right to mature at their own rate without sex featuring disproportionately on their horizon. Abortion and the abortifacient morning-after pill are the lynchpins of the government’s teenage pregnancy strategy. The aim is to rid children and young women of unplanned pregnancies. These pregnancies are the result of sexual activity encouraged by government and our society, with little or no attention paid to the age of consent. Compulsory sex education will allow your children or grandchildren to be de-sensitised about their bodies. Children will be exposed to the facts of the sexual act from key stage two (age seven), whilst learning that they don't have to have babies if they don't wish. This approach won't improve the teenage pregnancy and abortion rates. There has never been so much sex education or contraception, yet Britain's teenage pregnancy and abortion rates are Europe's highest. Dr Malcom Potts, IPPF's first medical director, and a consultant on contraception and family health, has written: “As people turn to contraception, there will be a rise, not a fall, in the abortion rate” (1) and “No society has controlled its fertility.....without recourse to a significant number of abortions. In fact abortion is often the starting place in the control of fertility.” (2) "Twenty years ago women were more resigned to unwanted pregnancy, but as they have become more conscious of preventing conception, so they have come to request terminations when contraception fails. There is overwhelming evidence that, contrary to what you might expect, the availabilithy of contraception leads to an increase in the abortion rate."(1) directing our children that sex is only for pleasure and that any unwanted pregnancy can be got rid of. Parents whose children attend faith schools need to be reminded that these schools are also subject to compulsory sex education. The Catholic Education Service (CES) in England and Wales has welcomed the imposition of compulsory sex education. This welcome is despite the fact that Catholic teaching says otherwise. The Pontifical Council for the Family has written: "Chastity includes an apprenticeship in self-mastery which is a training in human freedom. The alternative is clear: either man governs his passions and finds peace, or he lets himself be dominated by them and becomes unhappy". (1) "Parents are the first and most important educators of their children, and they also possess a fundamental competency in this area: they are educators because they are parents. They share their individual mission with other individuals or institutions, such as the Church and the State. But the mission of education must always be carried out in accordance with a proper application of the principle of subsidiarity. (2) The CES knows that, although school nurses must follow guidelines laid down by school governors when in a classroom situation, in a one-to-one setting (such as in a confidential clinic), they act in their capacity as health professionals. The guidelines from the department of health they follow in that capacity don't sit happily with pro-life beliefs! Compulsory sex education is a bitter pill. Once passed, legislation is hard to dismantle, as pro-lifers know in their fight to repeal pro-abortion laws around the world. Compulsory sex education is a further completed tick-box on the list of Western Marxism (e.g. the Frankfurt School proposals). The Polish church authorities, more astute than the CES, have recently admitted: "We have to remember who was the first to introduce the idea of sex education. It was communist ideologue Gyorgy Lukacs in Hungary, who thought promiscuity was the best method to fight the institution of marriage, in order to fight Christianity." With the highest teenage pregnancy rate in Europe, the benefits of saturation sex education have yet to be demonstrated. It has been known for many years that oral contraception can act in an abortifacient mode and that a high percentage of young girls presenting to doctors with unplanned pregnancies were using contraception. It is also well known that teenage contraceptive user failure rates are high. Despite its claim that parents play an important role in the matter of teenage pregnancies, the government has in fact been eroding parental rights through the years: 1973: National Health (Reorganisation) Act allowed birth control for all, including children. 1974: Department of Health & Social Services (DHSS) memorandum of guidance (section G) advised doctors that they could provide contraception to girls “of whatever age” without parental consent of knowledge. 1977: DHSS memorandum of guidance advised doctors that they could refer under-age girls for abortions without parental knowledge or consent. 1984: The Court of Appeal ruling in the Gillick case, which challenged government guidance. For 10 months it was unlawful for doctors to provide contraceptives to under-age girls without parental knowledge or consent. During this 10-month period the pregnancy rates for under-16s remained unchanged, while the number of pregnancies actually declined slightly from 9,096 to 8,829. 1985: The House of Lords overturned the Court of Appeal's judgment in Gillick after the DHSS appealed. The Lords reinstated the previous policy but insisted that secrecy from parents should be “most unusual” and that doctors should only withhold information from parents “in the most exceptional cases”. 1986: "Safe Sex" condom campaign to combat HIV/AIDS effectively ignored the Lords' qualifications in Gllick by promoting the pill and condoms to teenagers of any age without parental knowledge or consent. 1992: “The health of the nation: a strategy for health in England” white paper aimed to reduce the rate of conceptions amongst the under-16s by at least 50% by the year 2000. It failed. 1999: “Teenage pregnancy report” aimed to reduce under-18 pregnancies by half by 2010. This is also destined to fail. 2000: Revised guidance by the Department of Education on sex and relationship education. The guidance encouraged the provision of contraceptive advice and supplies to under-age children by health professionals operating on school premises and in confidence if the child wished. School nurses, employed by the local primary care trust, although working on school premises are not bound by any education legislation, permitting the provision of the contraceptive pill and the abortifacient morning-after pill without parental knowledge or consent. 2000: morning-after pill released on prescription with no age restrictions. 2001: morning-after pill released for sale without prescription to over-16s. 2002: MAP can be obtained free from the Family Planning Association, doctors' surgeries and school nurses. 2004: Department of health revised guidance on contraception, sexual health and reproductive health services (including abortion) for under-16s. The guidance places strong emphasis on the duty of confidentiality. Good-practice guidance made it explicit that under-16s did not require parental consent or notification to procure an abortion. 2006 (Jan): Sue Axon lost her court bid for the right to be informed if her daughter was seeking an abortion. Her case challenged both Gillick and the 2004 guidance above. 2006: Two government documents, “Looking for a school nurse?” and “School nurse: practice development resource pack” were issued with the aim of expanding or developing a school nursing service. This aim would include providing contraceptive advice and ‘support[ing] young women to access services to make timely choices about emergency contraception, pregnancy or abortion.....and remind young people where they can access confidential support and information”, as well as providing ‘emergency contraception’ (i.e. morning-after pills) and pregnancy testing on school premises (with school-governors' permission). 2006 (April): Girls as young as 12 given free morning-after pills over the counter in chemists' shops without the parental knowledge, if primary care trusts discern a problem in their area with teenage pregnancies. 2008: The government says it wants a school-nurse clinic in every secondary school. 2008: Parents excluded from a government review of sex education delivery in schools. 2009-2010: From April, doctors receive payments for giving teenagers advice on sexual health and encouraging young women to use long-acting contraceptive implants, injections or the coil (all of which can act abortifaciently), if they present for morning-after pills or abortion. Available without parental knowledge. In reality, just as parents have been deceived and undermined by these actions, so, in many schools, sex education policies don't do what they say and only pay lip-service only to the role of parents. Many school sex education policies will contain the following line or the like: “Endeavours to involve parents and all other interested parties in sex education issues, whilst complementing and supporting the role of parents who are key figures in helping children with the physical and emotional aspects of growing up.” Many parents will, as I have discovered over the years, find these extremely hollow words. The issue of confidential clinics is just as contentious. Jim Knight, the schools minister, said in a parliamentary answer (3 Oct. 2006): “The nature and scope of health services in a school are for the school governing body to decide. Where schools are developing links with health as part of extended services, the Education Act 2002 requires them to consult widely before putting services in place.” My personal experience with a secondary school in Plymouth is that the school and local education authority (LEA) are devious. Although the head-teacher has admitted that the school provides a service which sign-posts pupils to confidential services, the school denies that this is an extended service because it does not actually deliver this service on school property. The school thus maintains that government guidance does not apply. Therefore, despite the guidance, most parents at the school continue to be ignorant of this clinic and what it offers! In complaining to the LEA, I was incredulous to find that the LEA was happy to accept the school’s word that it doesn’t offer a sign-posting service. The LEA admits it has no powers to enforce its guidance upon schools. Such are the problems that pro-life parents are up against It is vital that we all make our anger felt over the new proposals to make sex education compulsory. These proposals are not in the best interests of the next generation. It is imperative that parents, grandparents, ministers of religion and anyone concerned by these developments write to teachers, head teachers, chairs of governors, priests, vicars, LEAs and newspapers to convey their concerns and disapproval. Please also read and respond to SPUC's campaign alert. Thursday, 26 November 2009 SPUC has launched a major multi-faceted campaign against the government's plans to make sex education compulsory. The legal basis and operating principles of the government's plans are contained in its Children, Schools and Families bill, which is awaiting its second reading in the House of Commons. Not since the Abortion Act 1967 has there been such a determined effort to promote universal access to abortion, seeking to expand abortion access for children under the age of consent without parental knowledge or consent. It is vitally important that parents, teachers, clergy and all concerned with protecting children both brief themselves and take immediate action to oppose the government's plans. The Catholic Education Service (CES)'s general support for the government's plans is a disgrace. The CES must resist this most terrible attack on unborn children, young people and the rights of parents as the primary educators of their children. Anything less will be a historic betrayal. Without a total reversal of policy, Catholics may well feel that not since the 16th century reformation would have Catholic bishops so supinely capitulated to the demands of the state. The government's intentions are so blatant that we can be in no doubt as to the pressures on Catholic schools and as to the dangers in store for children and young people if this legislation is passed. Pope Pius XI wrote in his famous 1937 encyclical against Nazism: "We address Our special greetings to the Catholic parents. Their rights and duties as educators, conferred on them by God, are at present the stake of a campaign pregnant with consequences. The Church cannot wait to deplore the devastation of its altars, the destruction of its temples, if an education, hostile to Christ, is to profane the temple of the child's soul consecrated by baptism ... Then the violation of temples is nigh, and it will be every one's duty to sever his responsibility from the opposite camp, and free his conscience from guilty cooperation with such corruption. The more the enemies attempt to disguise their designs, the more a distrustful vigilance will be needed, in the light of bitter experience ... [D]o not forget this: none can free you from the responsibility God has placed on you over your children. None of your oppressors, who pretend to relieve you of your duties can answer for you to the eternal Judge, when he will ask: 'Where are those I confided to you?' May every one of you be able to answer: 'Of them whom thou hast given me, I have not lost any one' (John xviii. 9)." write to Gordon Brown, the prime minister, opposing compulsory sex education. Send a copy of your message to your own MP. You can write to them at: House of Commons, London, SW1A 0AA or email them via http://www.spuc.org.uk/mps write to your local schools. Urge them to oppose the plans to make sex education compulsory. Also ask schools to write to Ed Balls MP (secretary of state for children, schools and families), to the prime minister and to the local MP. I'm grateful to Norman Wells and the Family Education Trust for their permission to reproduce extracts from their latest update on the government's sex education plans: "The Qualifications and Curriculum Development Agency (QCDA) [held a consultation] as part of the government's larger consultation on Curriculum Reform. The QCDA report on consultation responses reveals that over two-thirds (68 per cent) of respondents disagreed with making PSHE education a statutory subject, and 79 per cent agreed that parents, carers and guardians should be allowed to maintain the right to withdraw their children from the sex and relationships education element of PSHE education. When the full 12-week consultation did not deliver the results the government had hoped for, in October it quietly commissioned a survey of 1,791 adults and 1,661 parents and asked some leading questions aimed at securing a semblance of public support for making PSHE education statutory and for limiting the right of parents to withdraw their children from sex education. The government conveniently ignored the results of the public consultation and chose to give greater weight to the October survey than to the full public consultation. "The government has no evidence that children who are currently being withdrawn from sex education classes are at greater risk of teenage pregnancy or sexually transmitted infections and no evidence that imposing sex education on them regardless of their parents' views will bring any positive benefit. "Dr Trevor Stammers, a trustee of the Family Education Trust, debated the government's proposals for sex education with Gill Frances, the Chairman of the Teenage Pregnancy Independent Advisory Group on a recent edition of the BBC Radio 2 Jeremy Vine Show. In the course of the interview, Jeremy Vine asked Gill Frances whether young people would be taught to value their virginity in sex education classes. His question was met with a stunned silence. Struggling to regain her composure, Gill Frances said she could not answer that, adding that the subject would be taught 'in a framework of values', and that sexual activity should take place in 'mutual relationships - never coercive', 'in trust with each other'." Comments on this blog? Email them to johnsmeaton@spuc.org.ukSign up for alerts to new blog-posts and/or for SPUC's other email servicesFollow SPUC on TwitterJoin SPUC's Facebook group Please support SPUC. Please donate, join, and/or leave a legacy&amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;lt;a href="http://www.socialmarking.com"&amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;gt;Social Bookmarking&amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;lt;/a&amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;gt; Tuesday, 24 November 2009 Catholics will be interested to know that Monsignor Philip J. Reilly (pictured), founder of the Helpers of God's Precious Infants, will be visiting England next month. Here are the details of his visit: Friday 4 December: Talk on “Reasons for hope in this epic struggle for life.” 7.30pm St. James’ Spanish Place church hall, 22 George Street, London, W1U 3QY. Monday, 23 November 2009 The newly-revealed case of Rom Houben (pictured right) who was misdiagnosed for 23 years as being in a coma-like state, challenges the pro-euthanasia mentality which exists regarding severely incapacitated patients. Mr Houben, a Belgian man, was paralysed by a car accident. Until three years ago, Mr Houben had been misdiagnosed as being in a persistent vegetative state (PVS, more correctly termed PNS or persistent non-responsive state). Doctors assumed he was unconscious, when in fact he has near-normal brain function and can hear and understand his surroundings. Following new tests which revealed the misdiagnosis, Mr Houben has been provided with equipment to read and type. Janet Thomas of No Less Human, a group within SPUC Pro-Life, told the media today: "This case highlight the huge dangers in assessing profoundly disabled people as having lives not worth living. Surely, with all the medical resources at our disposal, a truly civilised society would be concentrating on saving and improving life, not terminating it. It is encouraging to hear that Rom Houben has not succumbed to despair but is setting out to enjoy the life he has. We should remember that we call ourselves human 'beings'. It is what we are, not what we can do, that makes us unique. "Rom Houben is not the first example of a person diagnosed as being in PVS but in fact being aware of the world around him. Jean Dominique Bauby, former editor of Elle, wrote the book 'The Diving Bell and the Butterfly' while only able to blink an eyelid. Marian Sallery [1] of north Wales spent 11 years unable to communicate although fully aware of the world around. She was not diagnosed with Locked-in Syndrome until after her death. Keith Andrews of the Royal Hospital for Neurodisability [2] found in 1996 that, of 40 people diagnosed as being in PVS, nearly half were completely misdiagnosed. "According to some criteria, PVS is regarded as permanent after the first year. Following the 1992 Bland judgment, and under the Mental Capacity Act and related professional guidance, such patients are in danger of being dehydrated to death." Sunday, 22 November 2009 Lithuania is to be admired for standing up to the powers that be and striking a blow for national sovereignty against an attempt by the European Parliament (EP) to condemn their recently approved child-centred legislation. In particular we must admire their willingness to stand firm for parents as the primary educators of their children in the face of an attempt to indoctrinate children and repress parents by trying to impose novel doctrines of human sexuality on their children. Slovak MEP Anna Zaborska was quoted at the time as saying "Today a national law from Lithuania which aims to protect minors from sexualisation by society is condemned by the EU institutions. I consider our meeting to be a manipulation of the EU Charter of Fundamental Rights. This text is not a legally binding instrument. The EU Parliament is ignoring the legitimacy of the national Parliament of a Member State. The EU Parliament also requests an Opinion of the Fundamental Rights Agency, but this Agency has no mandate to assess the legal quality of a national law”. In response to the unacceptable interference by the European Parliament in its internal affairs the Lithuanian Parliament on 10 November adopted a resolution seeking to overrule the EP resolution. This Lithuanian resolution deals with the illegitimacy of the EP resolution having no Treaty basis thus rendering it illegal, but it is nonetheless a "soft law" measure. This is particularly important as the EP is more powerful now under the Treaty of Lisbon. The resolution called on the Lithuanian cabinet to file suit by Nov 17th in the European Court of Justice in Luxembourg pointing out that the EP resolution lacked legitimacy and demanding that it should be invalidated. The Lithuanian resolution also dismissed the EP resolution as an “unlawful action caused by lack of competences” and “may serve as a dangerous precedent” if not invalidated. Friday, 20 November 2009 Congratulations to the Catholic bishops of England and Wales who have delivered a powerful official response to the set of draft guidelines on assisted suicide drawn up by the Director of Public Prosecutions, describing them as "unacceptable in a civilised society". Archbishop Vincent Nichols is reported as saying that the DPP's guidance risks "creating categories of people who are given less protection in the law and therefore runs the risk of seeing those categories of people as less worthy of the protection of the law" such as those who are disabled, or have a history of suicide attempts. Professor David Jones, professor of bioethics at St Mary's University College, is reported as saying "I think that there is a danger that it could be perceived as a cloak for murder". SPUC Pro-Life has produced a briefing to help you respond to the Director of Public Prosecution (DPP)'s consultation on guidelines for prosecuting cases of assisted suicide. It lists factors that will count against the DPP bringing a prosecution - these include things like the victim being disabled, and that the victim spontaneously asked the suspect for help (this is quite ludicrous – as the victim will be dead by the time). This policy will be used to sanction help for suicides in England and Wales, as well as those who help people go abroad to kill themselves. I am disappointed that Kieran Conry, Catholic bishop of Arundel and Brighton, has again questioned papal teaching on contraception, specifically as found in the encyclical Humanae Vitae of Pope Paul VI (pictured). In his latest pastoral letter, Bishop Conry writes: "[Some Catholics] campaign on the moral issues of the day – someone said recently that a person’s attitude to Humanae Vitae was a ‘litmus test’ of being a Catholic, whereas many might not know what Humanae Vitae is. These are all undoubtedly important issues, but they will never get anywhere near expressing our faith in its entirety, and we can ask if some of these questions are actually fundamental to faith at all." This latest pastoral letter of Bishop Conry mirrors an interview he gave to The Catholic Herald in December in which the bishop was quoted, inter alia, as saying [extracts]: "I would disagree that [the teaching of Humanae Vitae is] a key teaching ... It's not a life issue ... [Abortion and Humanae Vitae are] two completely different issues." Interviewer Andrew M. Brown: "Does it matter if people disobey that teaching?" Bishop Conry: "In the great scheme of things I don't think it's high up the list." Interviewer Andrew M. Brown: "Was Humanae Vitae a mistake?" Bishop Conry: "I don't know. I don't know." Interviewer Andrew M. Brown: "But is the teaching itself wrong?" Bishop Conry: "It could be. It's not an infallible teaching." Interviewer Andrew M. Brown: "So in a sense it's a matter of opinion? Bishop Conry: "Well, it's... It is." Earlier in the interview, the bishop asserted unequivocally that: "We've got first of all massive climatic change heading our way inexorably." "The claim that man-made carbon dioxide omissions threaten to cause catastrophic global warming is a scientific theory and one that must be considered seriously and objectively. As it is a theory, it cannot be asserted with certainty that people will die if developed countries don't agree to further reductions in carbon omissions ...Whatever the evidence regarding man-made global warming, the right to life and the right to found a family are fundamental, universal human rights..." Regarding the link between contraception and life issues, which Bishop Conry denies, the late Pope John Paul II taught in Evangelium Vitae (13): "[T]he negative values inherent in the "contraceptive mentality" which is very different from responsible parenthood, lived in respect for the full truth of the conjugal act are such that they in fact strengthen this temptation when an unwanted life is conceived. Indeed, the pro-abortion culture is especially strong precisely where the Church's teaching on contraception is rejected ... [D]espite their differences of nature and moral gravity, contraception and abortion are often closely connected, as fruits of the same tree ... The close connection which exists, in mentality, between the practice of contraception and that of abortion is becoming increasingly obvious." Bishop Conry's view of the importance of Humanae Vitae is starkly at variance to that of Pope Benedict, who said in May last year: "The teaching expressed by the Encyclical Humanae Vitae...conforms with the fundamental structure through which life has always been transmitted since the world's creation, with respect for nature and in conformity with its needs. Concern for human life and safeguarding the person's dignity require us not to leave anything untried so that all may be involved in the genuine truth of responsible conjugal love in full adherence to the law engraved on the heart of every person." Bishop Conry should therefore read the analysis of Archbishop Raymond Burke, the prefect of the Supreme Tribunal of the Apostolic Signatura (the "supreme court" of the Catholic Church). According to Archbishop Burke, Pope Benedict has emphasised in his latest encyclical Caritas in Veritate that the message of Humanae vitae is fundamental to achieving authentic human development: "It is instructive to note that Pope Benedict XVI, in his most recent encyclical letter on the Church's social doctrine, makes special reference to Pope Paul VI's Encyclical Letter Humanae vitae, underscoring its importance "for delineating the fully human meaning of the development that the Church proposes" (Caritas in veritate, no. 15). Pope Benedict XVI makes clear that the teaching in Humanae vitae was not simply a matter of "individual morality," declaring: 'Humanae vitae indicates the strong links between life ethics and social ethics, ushering in a new area of magisterial teaching that has gradually been articulated in a series of documents, most recently John Paul II's Encyclical Evangelium vitae' (Caritas in veritate, no. 15). " ... The respect for the integrity of the conjugal act is essential to the context for the advancement of the culture of life." I am concerned that the fear of man-made climate change is being used to foster misanthropy, such as the anti-human practices of abortion, contraception and population control. UNFPA (the United Nations Population Fund) issued a report this week which argued that climate change should be combatted by reducing population growth through contraception. UNFPA, one of the world's leading anti-life agencies, is complicit in China's brutal population control programme. The core of that programme is a one-child policy implemented by forced abortions, forced sterilisations, compulsory fittings of abortifacient birth control devices, abandonment of children and deliberate killing of orphans through neglect. Coercion is exercised through stiff penalties which include extortionate fines, destruction of property, imprisonment and even torture. "It is inadmissible that those who have control of the wealth and resources of mankind should try to resolve the problem of hunger by forbidding the poor to be born." The claim that man-made carbon dioxide omissions threaten to cause catastrophic global warming is a scientific theory and one that must be considered seriously and objectively. As it is a theory, it cannot be asserted with certainty that people will die if developed countries don't agree to further reductions in carbon omissions. What can be asserted with certainty is that abortion kills millions of innocent human beings every year; and that there is an ever-increasing push to promote abortion and population control in the developing world. Whatever the evidence regarding man-made global warming, the right to life and the right to found a family are fundamental, universal human rights enshrined in legally-binding international conventions, such as the United Nations Convention on the Rights of the Child, which marks its 20th anniversary today. The bill reflects the recommendations of the Teenage Pregnancy Independent Advisory Group 's report. Clauses 11 to 14 of the bill make sex education compulsory and set out the principles under which schools must teach sex education. The principles require that sex education "reflects a reasonable range of...cultural and other perspectives" and promotes "equality", "diversity" and "rights". The bill also says that schools must "have regard" to government guidance on how to implement the principles. (Our Notes section of our media release today has further detail.) There can be no doubt the government will use the bill, if passed, to promote abortion in schools. The bill's principles will be used to ensure that pro-abortion propaganda dominates the content of sex education. Schoolgirls will be told that they have a right to abortion, that abortion is virtually harmless and that pro-abortion agencies provide good sexual health services. 'Equality' and 'diversity' will be used to suppress opposition to abortion. The abolition of parents' right to withdraw older children from sex education classes will ensure that no child leaves state schooling without having been brainwashed with an pro-abortion mentality. Parents, teachers and clergy should contact MPs immediately in protest against the government's plans, urging MPs to speak out in parliament against them. "Those seeking to develop civilised values which respect the sanctity of human life should be encouraged by this vote. In spite of all the money, media support and propaganda of the euthanasia lobby, many politicians recognise the dangers to public safety in introducing such legislation. This victory for civilised values joins the recent defeat of a similar bill in Tasmania, as well as the repeated votes by the British House of Lords against assisted suicide." The BBC has confirmed that the Children, Schools and Families Bill will be part of the government's legislative programme in the new parliamentary year, which began with today's Queen's Speech. The government's plans to make sex education compulsory will undermine child safety by initiating children into an adult culture of abortion and sexual activity. The government has made clear that all schools following the national curriculum, including faith schools, must teach children about abortion and contraception in a so-called anti-discriminatory way. This means that children may well be taught that abortion is a legal right. It will certainly ratchet up the current policy of arranging secret abortions without parental knowledge or consent. In addition, the government's planned abolition of parents' right to withdraw older schoolchildren from sex education classes will undermine child safety by undermining parents' role as their children's primary educators. This role is enshrined in the United Nations Universal Declaration of Human Rights. Tuesday, 17 November 2009 Wesley J. Smith, a leading American bioethicist, addressed anti-euthanasia activists last night at the Cadogan Hotel, London. Anthony Ozimic, SPUC's communications manager, was there and he has sent me a picture (right) and the points below from Wesley's talk. Wesley is pictured with the Dowager Marchioness of Salisbury, who kindly hosted the meeting. Mr Smith told the meeting: There is a push to legalise a broad array of private killing. There is no real moral distinction between assisted suicide and euthanasia. They are like one leg following the other when walking. The push for euthanasia is based on a two-part ideology: firstly, that killing is an acceptable solution to human suffering, and secondly, autonomy. This ideology represents a radical remaking of society, from one predicated on equality to one in which people's lives exist on different tiers of value. In our polyglot, multi-cultural society, law has become the means by which the morality of actions is judged. The criteria in the Director of Public Prosecution (DPP)'s draft guidelines is the same as the criteria in Margo MacDonald's Scottish bill: assisting suicide should not be prosecuted where the deceased was terminally ill, neurologically degenerating, or seriously physically disabled. Scottish euthanasia activists are far more candid than their counterparts in England or elsewhere. The 2002 law allowing euthanasia in The Netherlands had its origins in prosecutorial guidelines which were relaxed at the behest of judges in the 1970s. In quadraplegic patients, depression is no higher after five years of quadraplegia than among the general population. The Hollywood film Million Dollar Baby, however, sent the message that people with quadraplegics are better off dead. Assisted suicide/euthanasia is not a medical act, as it can be performed by lay people. In The Netherlands, the euthanasia lobby is calling for lay people to perform assisted suicide/euthanasia. The 1995 case of Myrna Lebov, who had multiple sclerosis (MS) and who was coerced into suicide by her husband George DeLury, shows the danger of decriminalising assisted suicide. DeLury had convinced many people that his wife had wanted to commit suicide and that he had assisted her suicide out of compassion. It was later revealed that DeLury had coerced her into suicide because he resented having to care for her. Under the English DPP's draft guidelines, someone cleverer than DeLury in covering his tracks could get away with it. George DeLury's resentment of caring for his wife is similar to the resentment expressed by Jenni Murray, the BBC broadcaster, at the idea of caring for her elderly mother. Although the authors of the Liverpool Care Pathway (LCP) are well-intentioned, there is serious reason to believe that it may be used for back-door euthanasia. Palliative sedation is very rarely required, but according to The Telegraph, it is used in 16.5 percent of relevant cases, which is double the rate in The Netherlands. I have never heard of so many people needing palliative sedation. President Obama's plans for universal healthcare ("Obamacare") is tick-box medicine, similar to the LCP. Patients should instead be treated as individuals, not as categories. Thinking within medical ethics is moving towards the concept of "rational suicide", in which suicide is regarded as a rational choice rather than the result of negative psychological factors. The decisions of the doctors and the coroner regarding Kerrie Wooltorton made that case the epitome of abandonment. Monday, 16 November 2009 the 70th anniversary of the outbreak of the Second World War (1 September) the 20th anniversary of the fall of the Berlin wall (9 November) These anniversaries mark struggles by countless millions of free people against regimes that were seeking to oppress them. Yet in our own day, countless millions of free people in supposedly free Western societies face oppression by their own governments. In addition to the lethal oppression of abortion, destructive embryo research and euthanasia, our government is increasingly oppressing innocent children and their parents in its drive to introduce the culture of death into schools. In this, it emulates the Nazi and Communist regimes, which used state power effectively to abduct children from their parents' oversight. The totalitarian regimes of the 20th century shared the Brown government's contempt for the principle that parents are the primary educators of their children, a principle enshrined the Universal Declaration of Human Rights (UDHR) It is important to note that this principle was enshrined in the UDHR precisely in the light of the indoctrination of children by Nazi rule (which even led to units of the German armed forces being composed of children). Today there is a disturbing reversal of the post-war drive to protect individual human rights. Baroness (Mary) Warnock, the radical anti-life philosopher, told the House of Lords in 2007: "At the centre of the moral thinking behind the 1990 [Human Fertilisation and Embryology] Act was a broad utilitarianism. Changes may have come about, and we may all be much more rights-oriented than we were before the passage of the then Human Rights Bill, but in that moral thinking there was very little consideration of human rights. It was much more a broad utilitarian consideration, and I must say a few words in favour of utilitarianism … As legislators, parliamentarians have to be utilitarian in the broadest possible sense … On the committee, we thought that utilitarianism in this broad sense was the philosophy that must lie behind any legislation …" (Hansard, 19 Nov 2007, col. 721) I was struck this morning, when I went to church before going to the office, by the first reading in today's Mass from the Book of Maccabees. In short, the narrative relates how a section of God's people made an alliance with Israel's pagan rulers. This dissident section betrayed the true religion, and before long the king imposed his paganism on the whole of Israel. We can see today how the Catholic Education Service seems effectively to be making an alliance with the Government to introduce compulsory sex education, betraying Catholic pro-family teaching, and before long, if their legislation is not resisted and defeated, the government will have imposed the culture of death throughout the school system and on another generation of British people. Considering the millions of unborn children and innocent born persons killed under anti-life governments every year, and the reversal of the post-war drive to protect individual human rights, may we dare to ask the frightening question: Was the sacrifice for freedom made by so many millions in the 20th century in vain? My answer is that we should only dare to ask that question if we dare to answer with a resounding "No" and to justify that answer by our actions. We will never abandon our children or set aside their birthright to be their primary educators. Our children will never be surrendered to an anti-life, anti-family culture, so long as there are parents, headteachers, doctors, priests, and pro-life campaigners who are prepared to resist the government's legislation. We must begin our resistance to the government's plans by appealing to our pastoral leaders of all faiths: Please act urgently to protect the families entrusted to you from the government and from politicians of all parties who are determined to destroy them. (I am grateful to Fr Andrew Southwell, of St Bede's church, Clapham Park, London, for the broad theme of this blog-post: whether 20th century battles against tyranny were fought in vain.) Saturday, 14 November 2009 What The Daily Telegraph today describes as an "unprecedented coalition" of "leading lawyers, peers and former judges" has warned that the “interim prosecuting policy” for assisted suicide from the director of public prosecutions (DPP) poses "serious dangers for public safety". Read the story in full here as well as an excellent commentary by Lord Carlile (pictured), also in The Telegraph. The consultation on the DPP guidelines closes in mid-December. There's still time to order flyers from SPUC to alert the public to the dangers of these dangerously flawed guidelines which, according to Lord Carlile, "fly in the face of the principle that the law must afford equal protection to all, irrespective of age, sex race, religion and state of health", and, I would add, irrespective of disability. You can also order SPUC's briefing on making a submission to the DPP. Write to me for leaflets (state quantity) or a briefing at johnsmeaton@spuc.org.uk I was struck by the simplicity and force of what Archbishop Luis Ladaria, the Secretary for the Congregation of the Doctrine of the Faith(CDF), said to university students in Rome last week - as reported by Zenit: Science has proven that there is human life from the moment of conception, the archbishop affirmed, hence, the new being already has a soul and a spirit. He explained: "If it is a human, it is always a person. There is nothing abstract in him." From the moment the zygote begins to exist there is no change in its nature, he said. The archbishop was explaining the teaching in Dignitatis Personae, an Instruction published by the CDF last year. (A useful summary of the Instruction, by Dr (Fr) John I Fleming, the leading bioethicist, can be found here.) Interestingly, Dame Mary Warnock, whose thinking was used by the British Government in 1990 to justify the legalisation of human embryo experimentation up to 14 days, also concluded that, from conception, the nature of the human embryo does not change. In July 1982, the British Government invited Mary Warnock to chair a Committee of Inquiry into the ‘social, ethical and legal implications of recent, and potential developments in the field of human assisted reproduction’. The report of that committee is called the Report of the Committee of Inquiry into Human Fertilisation and Embryology, Cmnd. 9314, London, 1984. Read carefully in the next paragraph, taken from the report, the argument which Mary Warnock used to justify lethal experiments on human embryos, up to the 14th day after conception: "While, as we have seen, the timing of the different stages of development is critical, once the process has begun there is no particular part of the developmental process that is more important than another; all are part of a continuous process, and unless each stage takes place normally, at the correct time, and in the correct sequence, further development will cease. Thus biologically there is no one single identifiable stage in the development of the embryo beyond which the in vitro embryo should not be kept alive. However we agreed that this was an area in which some precise decision must be taken, in order to allay public anxiety.” (My emphasis) In other words (my comments in italics): “ … once the process has begun … ”: Since this paragraph is all about allowing experiments up to the 14th day after conception, this phrase clearly refers to the moment of conception. “ … there is no particular part of the developmental process that is more important than another … ”: the Warnock Committee admits there’s no special significance whatsoever (biological or philosophical) about the 14th day after conception, or any other day after conception. The significant thing is that a human life has begun. “ … Thus biologically there is no one single identifiable stage in the development of the embryo beyond which the in vitro embryo should not be kept alive … ”: Put plainly, whatever the age of the embryo or unborn child he or she should not really be killed. “ … However we agreed that this was an area in which some precise decision must be taken, in order to allay public anxiety … ” The Committee decided to make a completely arbitrary decision in order to fool Parliament and the public into thinking that they had reached a profound conclusion based on weighty scientific evidence, and so we've plumped for 14 days. As Clarke and Linsey noted " … this is a clear case of extrinsic criteria being used to solve a problem which requires the determination of firm and unequivocal intrinsic criteria ... "(Clarke, P.A.B. and A. Linzey Research on Embryos: Politics, Theology and Law. Lester Crook, London, 1988, p. 26.) Archbishop Ladaria observes in his talk to university students last week that thinking like this led to the concentration camps. Zenit reports: "Why do Christians give so much importance to the concept of person?" the archbishop asked. The prelate affirmed: "Man and woman have been created in the image and likeness of God. "The concept of person is essential for approaches to the mystery of the Trinity and the Incarnation. Man is a person, Christ is a person in his relationship with the Father; he is Son." Archbishop Ladaria pointed out that this type of argument is ignored when ideologies are promoted that go against life. Often, he lamented, man "is considered a number." The prelate recalled: "In concentration camps they wanted to eliminate human dignity, so they gave a number. This is a way of offending the person, of reducing him." Dignity, he explained, goes beyond a number, and is related to "unique and unrepeatable characteristics." The idea of personhood applying to all human beings, including the unborn child from the beginning of his or her existence, is by no means an exclusively religious concept. It's the universal consensus of humanity as expressed in international human rights instruments, as I explained in my closing address to the 4th World Pro-Life Congress in Saragossa, Spain, last weekend (which is available in English, Spanish and Italian). Tragically, on the basis of Dame Mary Warnock’s report, which, on its own admission, arbitrarily ignored the right to life of the human embryo, Parliament went on in 1990 to legalise destructive research on human embryos for the following purposes: promoting advances in the treatment of infertility; increasing knowledge about the causes of miscarriage; increasing knowledge about the causes of congenital disease; developing more effective techniques of contraception; developing methods for detecting the presence of gene or chromosome abnormalities in embryos before implantation; or for such other purposes as may be specified in regulations; and last year Parliament approved the Human Fertilisation and Embryology Act 2008, amending the 1990 law, which approved the licensing of more procedures that will harm or kill embryos created in the laboratory and which extends the ways in which embryos can be artificially created and manipulated - including hybrid (animal-human) embryos. John Smeaton About Me I became involved in SPUC after graduating, when I established a branch in south London in 1974. I have worked full-time for SPUC for 39 years. I became chief executive of SPUC in the UK in 1996, having been general secretary since 1978. I was elected vice-president of International Right to Life Federation in 2005. At UN conferences in Cairo, Copenhagen, Beijing, Istanbul and Rome, I helped coordinate more than 150 pro-life/pro-family groups resulting in pro-life victories in Cairo, Istanbul and Rome. I was educated at Salesian College, London, before going to Oxford where I graduated in English Language and Literature. I qualified as a teacher, becoming head of English at a secondary school. I am married to Josephine. We have a grown-up family and we live in north London. Acknowledgement I am grateful to SPUC's staff, supporters and advisers for their help to me in researching, writing and producing this blog. Sign up for email alerts Twitter @spucprolife Images I believe that I am allowed to use the images accompanying my blog and that they are licence- and royalty-free. However if the owner or the licensor disagrees, please contact me and I will remove it immediately.
2024-03-08T01:26:36.242652
https://example.com/article/8643
update=Sat 06 Jul 2019 08:45:23 PM PDT version=1 last_client=kicad [cvpcb] version=1 NetIExt=net [cvpcb/libraries] EquName1=devcms [general] version=1 [pcbnew] version=1 PageLayoutDescrFile= LastNetListRead= UseCmpFile=1 PadDrill=0.6 PadDrillOvalY=0.6 PadSizeH=1.5 PadSizeV=1.5 PcbTextSizeV=1.5 PcbTextSizeH=1.5 PcbTextThickness=0.3 ModuleTextSizeV=1 ModuleTextSizeH=1 ModuleTextSizeThickness=0.15 SolderMaskClearance=0 SolderMaskMinWidth=0 DrawSegmentWidth=0.2 BoardOutlineThickness=0.09999999999999999 ModuleOutlineThickness=0.15 [eeschema] version=1 LibDir=
2023-10-16T01:26:36.242652
https://example.com/article/5767
Google-funded US geothermal survey: vast clean-energy source found. - rkalla http://www.smu.edu/News/2011/geothermal-24oct2011.aspx ====== grecy Does anyone know if something like this is in the works for Canada?
2023-11-29T01:26:36.242652
https://example.com/article/2788
Hi everyone! I’m taking a break from the ED100 summaries and doing another one of our member spotlight interviews. However, you can expect a Module 6 summary to be up within a week. For this spotlight I reached out to Sami Morse, one of the newest members of Project SCIFI, and asked him a few questions pertaining to the organization. Sami is an executive associate and has been diligently pursuing grant funding as well as other side tasks. An interesting fact about Sami is that he is the goalie for the Cal Ice Hockey team. Hope you enjoy the article! Michael: Why did you join Project SCIFI? Sami: My science courses throughout my primary and secondary education have influenced my life outlook, career choices, and passion for learning. Personally, I believe that individuals from all walks of life deserve the opportunity to have a comprehensive educational experience in their scientific classrooms, and be impacted the same way I have. Michael: Out of all the resources Project SCIFI provides classrooms (lab coats, career books, science experiments, etc.) what resource appeals most to you and why? Sami: Science experiments are definitely the biggest thing Project SCIFI has to offer. For me, hands-on learning really hooked me on science, and I know that it’ll have the same impact on any kid. There is just something special that comes seeing scientific concepts play out in front of your eyes. Michael: What got you interested in STEM? Sami: As a child, all of my science courses captivated my interest. STEM courses has real-life implications, and my teachers did a great job conveying that fact to me and my classroom, providing experiments and coursework that apply to everyday situations. I really do think that the excitement and passion that teachers bring to the classroom are what gets students initially interested in science, more so than just the material itself. Michael: What do you think are some barriers that are preventing underprivileged students from pursuing STEM careers? Sami: Unfortunately, STEM classes are underfunded in underprivileged areas, so they can’t afford the equipment that is necessary to watch science play out in the lab. Thus, it’s harder for students in these communities to be captivated by science in general. I believe that with the proper guidance and resources, these underfunded communities can foster young scientists who bring about positive influence and changes in the future. Michael: What to you is the most exciting thing happening in science right now? Sami: Definitely cancer research. Contemporarily, the world’s premier doctors are working together to find a cure and effective treatment for the biggest medical issue of our time. Just recently, a cancer researcher (who conducted some of his research at Cal), Dr. James Allison, won a the Nobel Prize for his work on this subject.
2024-02-11T01:26:36.242652
https://example.com/article/9561
/**************************************************************************** ** ** Copyright (C) 2009 Nokia Corporation and/or its subsidiary(-ies). ** All rights reserved. ** Contact: Nokia Corporation (qt-info@nokia.com) ** ** This file is part of the tools applications of the Qt Toolkit. ** ** $QT_BEGIN_LICENSE:LGPL$ ** Commercial Usage ** Licensees holding valid Qt Commercial licenses may use this file in ** accordance with the Qt Commercial License Agreement provided with the ** Software or, alternatively, in accordance with the terms contained in ** a written agreement between you and Nokia. ** ** GNU Lesser General Public License Usage ** Alternatively, this file may be used under the terms of the GNU Lesser ** General Public License version 2.1 as published by the Free Software ** Foundation and appearing in the file LICENSE.LGPL included in the ** packaging of this file. Please review the following information to ** ensure the GNU Lesser General Public License version 2.1 requirements ** will be met: http://www.gnu.org/licenses/old-licenses/lgpl-2.1.html. ** ** In addition, as a special exception, Nokia gives you certain additional ** rights. These rights are described in the Nokia Qt LGPL Exception ** version 1.1, included in the file LGPL_EXCEPTION.txt in this package. ** ** GNU General Public License Usage ** Alternatively, this file may be used under the terms of the GNU ** General Public License version 3.0 as published by the Free Software ** Foundation and appearing in the file LICENSE.GPL included in the ** packaging of this file. Please review the following information to ** ensure the GNU General Public License version 3.0 requirements will be ** met: http://www.gnu.org/copyleft/gpl.html. ** ** If you have questions regarding the use of this file, please contact ** Nokia at qt-info@nokia.com. ** $QT_END_LICENSE$ ** ****************************************************************************/ /* generator.h */ #ifndef GENERATOR_H #define GENERATOR_H #include <qlist.h> #include <qmap.h> #include <qregexp.h> #include <qstring.h> #include <qstringlist.h> #include "node.h" #include "text.h" QT_BEGIN_NAMESPACE class ClassNode; class Config; class CodeMarker; class FakeNode; class FunctionNode; class InnerNode; class Location; class NamespaceNode; class Node; class Tree; class Generator { public: Generator(); virtual ~Generator(); virtual void initializeGenerator(const Config &config); virtual void terminateGenerator(); virtual QString format() = 0; virtual bool canHandleFormat(const QString &format) { return format == this->format(); } virtual void generateTree(const Tree *tree, CodeMarker *marker) = 0; static void initialize(const Config& config); static void terminate(); static Generator *generatorForFormat(const QString& format); protected: virtual void startText(const Node *relative, CodeMarker *marker); virtual void endText(const Node *relative, CodeMarker *marker); virtual int generateAtom(const Atom *atom, const Node *relative, CodeMarker *marker); virtual void generateClassLikeNode(const InnerNode *inner, CodeMarker *marker); virtual void generateFakeNode(const FakeNode *fake, CodeMarker *marker); virtual bool generateText(const Text& text, const Node *relative, CodeMarker *marker); #ifdef QDOC_QML virtual bool generateQmlText(const Text& text, const Node *relative, CodeMarker *marker, const QString& qmlName); virtual void generateQmlInherits(const QmlClassNode* cn, CodeMarker* marker); #endif virtual void generateBody(const Node *node, CodeMarker *marker); virtual void generateAlsoList(const Node *node, CodeMarker *marker); virtual void generateInherits(const ClassNode *classe, CodeMarker *marker); virtual void generateInheritedBy(const ClassNode *classe, CodeMarker *marker); void generateThreadSafeness(const Node *node, CodeMarker *marker); void generateSince(const Node *node, CodeMarker *marker); void generateStatus(const Node *node, CodeMarker *marker); const Atom *generateAtomList(const Atom *atom, const Node *relative, CodeMarker *marker, bool generate, int& numGeneratedAtoms); void generateExampleFiles(const FakeNode *fake, CodeMarker *marker); void generateModuleWarning(const ClassNode *classe, CodeMarker *marker); virtual int skipAtoms(const Atom *atom, Atom::Type type) const; virtual QString fullName(const Node *node, const Node *relative, CodeMarker *marker) const; const QString& outputDir() { return outDir; } QString indent(int level, const QString& markedCode); QString plainCode(const QString& markedCode); virtual QString typeString(const Node *node); virtual QString imageFileName(const Node *relative, const QString& fileBase); void setImageFileExtensions(const QStringList& extensions); void unknownAtom(const Atom *atom); QMap<QString, QString> &formattingLeftMap(); QMap<QString, QString> &formattingRightMap(); QMap<QString, QStringList> editionModuleMap; QMap<QString, QStringList> editionGroupMap; static QString trimmedTrailing(const QString &string); static bool matchAhead(const Atom *atom, Atom::Type expectedAtomType); static void supplementAlsoList(const Node *node, QList<Text> &alsoList); private: void generateOverload(const Node *node, CodeMarker *marker); void generateReimplementedFrom(const FunctionNode *func, CodeMarker *marker); void appendFullName(Text& text, const Node *apparentNode, const Node *relative, CodeMarker *marker, const Node *actualNode = 0); void appendFullName(Text& text, const Node *apparentNode, const QString& fullName, const Node *actualNode); void appendFullNames(Text& text, const NodeList& nodes, const Node* relative, CodeMarker* marker); void appendSortedNames(Text& text, const ClassNode *classe, const QList<RelatedClass> &classes, CodeMarker *marker); QString amp; QString lt; QString gt; QString quot; QRegExp tag; static QList<Generator *> generators; static QMap<QString, QMap<QString, QString> > fmtLeftMaps; static QMap<QString, QMap<QString, QString> > fmtRightMaps; static QMap<QString, QStringList> imgFileExts; static QSet<QString> outputFormats; static QStringList imageFiles; static QStringList imageDirs; static QString outDir; static QString project; }; QT_END_NAMESPACE #endif
2024-04-11T01:26:36.242652
https://example.com/article/6443
20 year fixed mortgage rates quicken loans Forget what you know about payday lending in the UK and step forward to Cashfloat payday loans 2. 0, a whole new short term credit facility that gives you full control of your loan. Weve redesigned our loans with our customers needs in mind, making them faster, safer and more affordable than ever. You can pay as early as you want and save. The flexibility we offer can easily compete with bank short term loans, lines of credit or the credit limit extension on your credit card. But thats not all. Weve also integrated your new GDPR data access rights so that you can enjoy even more transparency in your borrowing experience. Once you have been paid. As long as you pay the money back to the lender by the agreed date, you will not need to pay any extra fees or charges. After you have paid your loan, you will be able to apply for another if you need further financial help for following next month. Lenders do not offer more than one payday loan to the same person within a month, but after this you are free to go through the process again. How to make 500 dollars really fast. Our goal is to ensure that you not only survive the rough waves of financial uncertainty, but you even learn to 20 year fixed mortgage rates quicken loans in those times. In today's world you need money, and we totally understand that, so we have gathered a list of 7 ways to make 500 fast. 5 practical ways to save money for the future. Saving money - that's the one thing we all wish we were good at, but really aren't. Online Payday Loan Application. Online Payday Loans Application. Facing a financial emergency. Get the fast cash you need by applying for payday loans online. Our application process for online payday loans is simple and easy. You just have to submit this application form by entering all the required information. Once your application is approved, money will be directly transferred into your bank account. Our online payday loan application form is secure and confidential. Your personal information is kept safe with SSL encryption. Fill out this no obligation loan application form to get payday loans online.
2023-08-13T01:26:36.242652
https://example.com/article/9915
Kuwaiti Ambassador to Japan Abdulrahman Al-Otaibi hosted a reception in honor of a Kuwaiti delegation from the Ministry of Electricity and Water, who is visiting here to attend a two-week training course on "The transfer and distribution of electric power". In a speech at the reception held at the embassy, Al-Otaibi stressed the importance of maximizing benefit from the program that mirrors Japan's long experience in this field. The ambassador expressed his appreciation for the efforts exerted by the delegates to give a good image for the Kuwaitis to the Japanese people during the course, and encouraged them to take advantage of the program after returning to Kuwait. "This course comes in five other programs, provided in the Memorandum of Understanding reached in mid-June between the Kuwaiti Civil Service Commission and Japan International Cooperation Center on technical cooperation for the development of Kuwait's human resources," Al-Otaibi said, pointing out that the agreement came within the framework of implementation of the recommendations and the results of visit to Japan by Kuwaiti Deputy Premier and Foreign Minister Sheikh Dr. Mohammad Sabah Al-Salem Al-Sabah early June. "These programs are an important step toward strengthening and deepening cooperation in all fields between Kuwait and Japan, especially for the celebration of the 50th anniversary of bilateral diplomatic ties next year," the ambassador emphasized. For their part, the delegation showed gratitude to the ambassador for his efforts in realizing their successful visit to Japan, noting that the program has greatly benefited themselves in learning the most important features of Japan's electric industry and everything related to plants and equipment, laboratories and centers of advanced research. "The course was also a good opportunity to get to know the latest findings from the Japanese technology in the field of energy saving," one of the delegates said. Under the June agreement, the two more training courses will be conducted by the end of this year for officials at the Ministry of Public Works as well as the Ministry of Electricity and Water, while the rest of the programs will be launched next year.
2024-07-21T01:26:36.242652
https://example.com/article/9490
today is tuesday and its still raining like cat and dog outside da house..felt very cold as we r in a snowy state..but da fact is we r only in trgnu..peninsular of malaysia..huhu..da activity for today is not much diffrence wit yesterday..n 4 ur information i already finished da second movie title LOVE STORY IN HARVARD..woooowwww..da story was really touched...i luv it damn much..whoaa..there r a lot of lessons dat can we take from dat story..1st is about honesty..if we r done sumtin wit honesty n pure intention.wit da God's will all our aim may be reach successfully..2nd is about friendship..although one person might hate da other person..someday..they will realize dat nothing is more important than friendship..becoz friendship will last longer n ever lasting..da other lesson or value is about love..in diz story..we can see da true love between hyun woo n soo in..although soo in suffered fron da tumor dat r very dangerous but he still wanna marry her bcoz he luv his woman very much..so do wit soo in..im very touched to see their love dat r very pure to heart..hyun woo voluntered 2 withdraw his case in order to save soo in life..furthermore..hong jin min..friend to soo in n hyun woo..he also fall in love wit soo in but diz is unrequited love..he hate hyun woo so much..but at da end..he helped hyun woo by being a witness 4 da important case n blown da cover of Jason..dat time i feel like..whooaaa..jun min was a very very nice guy...but..i still adore hyun woo becoz he is gorgeous n adore man..hoho..diz is a story dat r very interesting compared to da story of TASTE SWEET LOVE..diz story is a lil bit dull bcoz da antagonise charachter is not well seen..but watever it is..im still enjoying watching these 2 movie..so now..i need 2 rest 4 2 days in order to finish my reading on da story book..heeee... now is da rainy season..rain fal all da days..from mornig to evening..from evenig to night..all da time..n n da fload had happened in certain places include my village...the high of the water is about ur knee..its very deep..diz is bcoz da compound of my village is a lil bit low n unfortunately it is near by the river..so da water from the river over flow onto da road n fload happen..since the rain fall without stopping..my short holidays r goin' 2 end up by watching da television at home..wanna hang out wit my frenz but....hurmm...da road might be slippery n it may cause an accidents if we're not be careful..so im a lil afraid to drive in da mean time..so wat can i do juz sat at home n enjoy my korean movie...yeayyy...im already happy wit dat activity..huhu.. hols already started bout 1week...n now im starting missing my frenz at UUM n also my assian's frenzz..wanna meet them up but have no time to do it..hurmm..i miss my old time at assian..although there are many bitter incidents but then im stil miss dat moment..bcause dats is my first U dat i had enterd..my 1st collegues dat ive met..so much things dat we had done 2gether..hope can see them in da future..gud luck 2 all of u..luv u damn much.. yeayyy..im home now..wat a preciuos time i thought..now i can feel free from doin any assgment or keep on readng all those act stuff...not feel bored but juz tiring when i think bout them..huhu..n during diz short hols..ill fill it up by watching all da korean drama dat ive install in my laptop..huhu..thnx 2 apan n putri coz gave me those story ya..huhu..i aready finish 1 complete drama title "TASTE SWEET LOVE"..huh..incredible..n now im continue wit da next story which is "LOVE STORY IN HARVARD"..hahaha..diz story all about da lawyers..da actor is KIM RAE WON..woow..he is gorgeous...im a fan of him now..huhu..damn i like it..diz story quite romantic btween hyun woo n soo in..arghhh..i luv both of themm..a big applause to them..huhu..here a few pict of them bout diz story..huhu..
2024-07-21T01:26:36.242652
https://example.com/article/1275
Teaching German News Germany: Anti-Semitic and xenophobic crimes rose in 2018 Politically motivated crime in Germany has decreased for the second straight year, according to the German Interior Ministry. But it logged more hate crimes, including anti-Semitic and xenophobic offenses. Watch video01:52 Share More hate crimes in Germany More hate crimes in Germany The number of anti-Semitic and xenophobia-related crimes rose in Germany last year, although there was an overall drop in politically motivated crime, according to statistics released by the German Interior Ministry on Tuesday. The ministry's report on politically motivated crime showed that anti-Semitic incidents rose from 1,504 in 2017 to 1,799 last year, an increase of 19.6%. Similarly, anti-foreigner crimes increased by 19.7% last year, from 6,434 incidents in 2017 to 7,701 in 2018. Roughly nine out of 10 of all anti-Semitic and anti-foreigner related crimes were committed by right-wing perpetrators. The main offenses included hate speech, anti-Semitic graffiti and displaying banned signs such as the swastika. Hate crimes overall saw a slight increase of 2.5% to 8,113 from 7,913. "This is a development that we have to confront, especially in this country," German Interior Minister Horst Seehofer told a news conference, alluding to Germany's Nazi history. "This is a job for the police as well as the whole society." Share Arab crime gangs in Germany German police crack down on Middle Eastern 'criminal clans' Second-straight drop Overall, the Interior Ministry said politically motivated crimes decreased by 8.7% to 36,062 last year, the second consecutive year of decline. However, it is the third highest tally of politically motivated crimes since the ministry started keeping the statistics in 2001. Right-wing crimes made up most of the incidents, with 20,431 recorded in 2018 — a slight decrease of 0.4%. Authorities suspected that a lack of overtly political major events in Germany in 2018 explained the reduction in overall numbers. In 2017, for instance, Germany underwent a national election campaign and there were large-scale far-left demonstrations and sometimes violent protests accompanying the G20 summit in Hamburg. Uptick in 'foreign ideologically' motivated crimes The report also showed a drastic increase in crimes committed for so-called "foreign ideological" grounds — from 1,617 in 2017 to 2,487 last year, an increase of 53.8%. The Interior Ministry attributed the sharp uptick to a growing strife between groups from Turkey who have been involved in conflicts in their home country. Last year's military intervention by Turkey in Afrin in Syria, in particular, led to "a considerable increase in typical protest-related crimes," and led to attacks on Turkish facilities in Germany. The Ministry said that German public perception of Kurds as victims in Turkey was growing, but added that its priority remained bringing an end to activities by the banned Kurdistan Worker's Party (PKK) in Germany. Conversely, crimes deemed to be motivated by religious ideology dropped by 46.9 percent, though the interior ministry has warned that Germany remains "a focus for Islamic terrorists and Islamic terrorism remains a large danger for internal security."
2023-11-27T01:26:36.242652
https://example.com/article/3791
Q: update query with php mysql is not updating the database table entries <?php include 'dbConfig.php'; $address=mysql_real_escape_string($_POST['address']); $pincode=mysql_real_escape_string($_POST['pincode']); $phone=mysql_real_escape_string($_POST['phone']); $email=mysql_real_escape_string($_POST['contactemail']); $id=1; $sql="UPDATE contactus SET address = '$address' , pincode = '$pincode' , phone = '$phone' , email = '$email' WEHER id='$id'"; $result=mysql_query($sql); if (!$result) { die('Error: '. mysqli_error()); } it gives answer like this:- DB initiated Error: What is the problem..? A: The WHERE is spelt incorrectly as WEHER: Try this $sql="UPDATE contactus SET address = '$address' , pincode = '$pincode' , phone = '$phone' , email = '$email' WHERE id='$id'";
2024-03-09T01:26:36.242652
https://example.com/article/9705
1. Field of the Invention This invention relates to a process for hydrogenating block copolymers. This invention particularly relates to a process for hydrogenating block copolymers using a heterogeneous catalyst. 2. Background of the Art Unsaturated polymers are hydrogenated for a variety of reasons, frequently using a nickel catalyst. The presence of olefinic double bonds in the polymers makes them susceptible to oxygen attack and to deterioration by actinic radiation; saturation of olefinic double bonds greatly improves environmental stability and may improve color. For example, U.S. Pat. No. 3,130,237, suggests hydrogenating unsaturated compounds by the use of certain cobalt complexes. U.S. Pat. No. 3,205,218 teaches hydrogenation of olefinic compounds utilizing a complex of a nickel or cobalt compound with certain aluminum reactants. U.S. Pat. No. 3,113,986 is related and suggests hydrogenation in the presence of the reaction products of certain metal alkoxides with aluminum trialkyls. U.S. Pat. No. 3,595,942 teaches selective hydrogenation of block copolymers with reaction products of aluminum trialkyls and metal alkoxides or carboxylates. Finally, there is a great number of references on other hydrogenation catalysts. A common problem shared by all types of hydrogenated polymers is the deleterious effect of catalyst residues remaining after hydrogenation. The quantity of metal residues to be removed may be as high as 5% wt. Nickel, for example, discolors the product and may cause polymer deterioration. It must therefore be removed almost completely in order to prepare polymers that are color stable. One typical method employed in the art to remove catalyst residue is by mixing a solution or emulsion of polymer, sometimes referred to as a polymer cement, with an aqueous solution of an acid, usually a mineral acid. For instance, U.S. Pat. No. 4,396,761 describes a process of removing catalyst residue by treating the polymer cement with dilute sulfuric acid, separating the aqueous phase, and contacting the polymer-containing phase with live steam to drive off the polymer solvent and convert the polymer into polymer crumb. It also describes a process wherein an alpha-hydroxysulfonic acid is used instead of the dilute sulfuric acid, and wherein the polymer crumbs so produced are then subjected to a heat treatment that removes the alpha-hydroxysulfonic acid residues. Use of heterogeneous catalysts for hydrogenation is also known. U.S. Pat. No. 3,415,759 describes the use of heterogeneous catalysts such as nickel on supports such as kieselguhr (diatomaceous earth) and Raney nickel. U.S. Pat. No. 5,028,665, U.S. Pat. No. 5,110,779, and U.S. Pat. No. 6,376,622 describe using heterogeneous catalyst that includes a group VIII metal on a porous support. The use of acid washes such as those described above is necessitated by the use of homogenous catalysts and heterogeneous catalysts that are too small to filter. It would be desirable in the art of preparing block copolymers to prepare the block copolymers with heterogeneous catalysts that are large enough to filter and can be used to economically prepare the block copolymers.
2024-03-04T01:26:36.242652
https://example.com/article/6164
Q: Can Gröbner bases be used to compute solutions to large, real-world problems? In particular, suppose I have an affine algebraic variety over $\mathbb{R}^n$ described by generators of a radical ideal $I$ and I want to find (perhaps not all of the) points in the variety. Several important questions come up in practice: are there versions of Buchberger's algorithm that work with inexact data? For instance, suppose that the coefficients of the polynomials generating $I$ are known only to floating point precision. Some CAS will try to find solutions assuming that these coefficients are exact. Are there CAS that do something more intelligent (e.g., make certain guarantees given that the numerical coefficients are the truncation of exact coefficients)? does a sparse system of polynomial equations yield a Gröbner basis with sparse elements? In other words, if each polynomial in the original system has a small number of non-zero coefficients relative to $n$, do the basis elements also have this property? what bounds are known for the size of a Gröbner basis in terms of size and sparsity of the original system? are there more appropriate algorithms (than Buchberger's) if we just want to find a single point in the variety? (Suppose that any such point is sufficient.) More generally, which algorithms are better suited to address the kinds of issues mentioned above? A: First, the Gröbner basis is not sparse. I am speaking a little off-the-cuff, but empirically when I ask SAGE for the Gröbner basis of $(y^n-1,xy+x+1)$ in the ring $\mathbb{Q}[x,y]$, it gets worse and worse as $n$ increases. Any bound would have to be in terms of the degrees of the original generators as well as their sparseness, and I suspect that the overall picture is bad. Overall your questions play to the weaknesses of Gröbner bases. You would need new ideas to make not just the computations of the bases, but also the actual answer numerically stable. You would also need new ideas to make Gröbner bases sparse. You are probably better off with three standard ideas from numerical analysis: Divide and conquer, chasing zeroes with an ODE, and Newton's method. If you have the generators for the variety in an explicit polynomial form, then you are actually much better off than many uses for these methods that involve messy transcendental functions. Because you can use standard analysis bounds, specifically bounding the norms of derivatives, to rigorously establish a scale to switch between divide-and-conquer and Newton's method, for instance. Moreover you can subdivide space adaptively; the derivative norms might let you stop much faster when you are far away from the variety. To explain what I mean by derivative bounds, imagine for simplicity finding a zero of one polynomial in the unit interval $[0,1]$. If the polynomial is $100-x-x^5$, then a simple derivative bound shows that it has no zeroes. If the polynomial is $40-100x+x^5$, then a simple derivative bound shows that it has a unique zero and Newton's method must converge everywhere within the interval. If the polynomial is something much more complicated like $1-x+x^5$, then you can subdivide the interval and eventually the derivative bounds become true. Also, with polynomials, you can make bounds to know that there are no zeroes in an infinite interval under suitable conditions. You can do something similar in higher dimensions. You can divide space into rectangular boxes, and just median subdivisions. It's not very elegant, but it works well enough in low dimensions. In high dimensions, the whole problem can be intractable; you need to say something about why you think that the solution locus is well-behaved to know what algorithm is suitable. A: According to the following reference the Buchberger algorithm is generally unstable under small changes of the coefficients of the system so it cannot be executed in floating point arithmetic or with inexact input data. The paper introduces an extended Gröbner bases to try to deal with the problem. see the following: http://www.risc.uni-linz.ac.at/publications/download/risc_273/Nr.7_paper-revised.pdf A: You should look into (numerical) homotopy continuation methods, which uses ODE tracking and Newton methods mentioned in Greg's answer. They should work better with inexact data than Groebner bases methods do. It's implemented in CAS Macaulay 2. Also, "polyhedral homotopy continuation" exploits sparsity of your system (implemented in PHCpack). Groebner bases have a doubly exponential degree bound, and this is tight. Both Groebner bases and homotopy continuation will give you COMPLEX solutions. You asked for real solutions, which is a whole another world. Look into method for computing real radicals using moment methods.
2023-09-23T01:26:36.242652
https://example.com/article/7138
Hepatitis C virus infection is significantly associated with malignant lymphoma in Taiwan, particularly with nodal and splenic marginal zone lymphomas. Hepatitis C virus (HCV) is a hepatotropic and lymphotropic RNA virus causally linked to lymphoma with a strong geographic variation. The aim of this study was to investigate the association of HCV and lymphoma in Taiwan, in which HCV is endemic. Patients diagnosed with lymphoma from January 2004 to December 2008 were investigated for serum anti-HCV, and the infection rate was compared with that in healthy controls. Various lymphoma types were investigated for HCV infection. Immunohistochemistry was performed for HCV non-structural (NS)3 protein, and genotyping was performed by reverse transcriptase PCR. Thirty-eight (11.0%) of 346 patients with lymphoma were positive for anti-HCV, as compared with 15 (1.8%) of 824 healthy controls (p<0.001, chi(2) test) with an age-adjusted and sex-adjusted OR of 4.57 (95% CI 2.41 to 8.68). Only nodal (five of eight cases) and splenic (two of two cases) marginal zone lymphomas (MZLs) as a group were significantly associated with HCV, as compared with mucosa-associated lymphoid tissue (MALT) lymphomas (1 of 15; p=0.002, Fisher's exact test). All 26 anti-HCV-positive cases stained for HCV-NS3 were negative. The most common genotypes were 1b (22%) and 2a (56%), with no statistical difference from 203 patients with HCV-related chronic liver disease. The incidence of HCV infection among lymphoma patients in Taiwan was significantly higher than that for healthy controls. Furthermore, non-MALT (nodal and splenic) MZL was the only group significantly associated with HCV. A larger national study is warranted to re-confirm our findings and to elucidate if any particular HCV genotypes were related to the pathogenesis of lymphoma.
2023-09-06T01:26:36.242652
https://example.com/article/6289
Tillerson: U.S. ‘a long ways from’ direct talks with North Korea 24 Views “In terms of direct talks with the United States, you ask negotiations and we’re a long ways from negotiations,” U.S. Secretary of State Rex Tillerson said of the potential of talks with North Korea during a press conference in Addis Ababa, Ethiopia. | Jonathan Ernst/Pool via AP Secretary of State Rex Tillerson said the U.S. is “a long ways from negotiations” with North Korea on Thursday, cautioning that expectations about the diplomatic relations between the two countries should be “realistic.” “In terms of direct talks with the United States, you ask negotiations and we’re a long ways from negotiations,” Tillerson said of the potential of talks with North Korea during a press conference in Addis Ababa, Ethiopia. Story Continued Below The U.S. diplomat added: “I think we just need to be very clear-eyed and realistic about it. I think the first step — and I’ve said this before, is to have talks.” The remarks comes two days after President Donald Trump expressed optimism that North Korea leader Kim Jong Un may be amenable to ending the country’s nuclear weapons program. The president, speaking to reporters during a bilateral meeting with the Swedish prime minister on Tuesday, said he believed North Korean officials were “sincere” in telling their South Korean counterparts during recent talks that they’d be open to halting their nuclear program. The most reliable politics newsletter. Sign up for POLITICO Playbook and get the latest news, every morning — in your inbox. By signing up you agree to receive email newsletters or alerts from POLITICO. You can unsubscribe at any time. “We have made progress,” Trump said of North Korea. “There’s no question about it.” Trump partially credited a slew of “biting” U.S. sanctions — and himself — in helping to bring North Korea to the table. “We’ve come certainly a long way, at least rhetorically, with North Korea,” said. “It would be a great thing for the world, it would be a great thing for North Korea, it would be a great thing for the peninsula, but we’ll see what happens.” Tillerson on Thursday concurred with the president that diplomatic talks between North and South Korea signaled “potentially positive signals,” but he voiced uncertainty over whether U.S. officials would eventually meet face-to-face with North Korean officials. Tillerson delivered the remarks during his first diplomatic tour through the continent of Africa. This article tagged under: Missing out on the latest scoops? Sign up for POLITICO Playbook and get the latest news, every morning — in your inbox.
2024-03-12T01:26:36.242652
https://example.com/article/5482
[SOLVED] menu screen for a program, anyone know a way of writing the code more elagantly. Welcome to the Java Programming Forums The professional, friendly Java community. 21,500 members and growing! The Java Programming Forums are a community of Java programmers from all around the World. Our members have a wide range of skills and they all have one thing in common: A passion to learn and code Java. We invite beginner Java programmers right through to Java professionals to post here and share your knowledge. Become a part of the community, help others, expand your knowledge of Java and enjoy talking with like minded people. Registration is quick and best of all free. We look forward to meeting you. menu screen for a program, anyone know a way of writing the code more elagantly. I'm attempting to write a menu screen for a program, and am a complete noob at swing. I am using JLabel's to display the graphics that I have chosen for the buttons. At the moment the code for changing the menu screen is just under the MouseClicked method for the JLabel. So for one JLabel I will have; public void MouseClicked(){ remove(all items in this screen); add(all items for the next screen, dependant on which button was clicked); } This does work, but is extremely messy, and I am certain that their is a better way of doing it. Does anyone have any ideas? On how to neaten it up. Re: menu screen for a program, anyone know a way of writing the code more elagantly. the answer you gave requires opening a new frame/window when a button is clicked. On windows, when a window is opened, the image of the frame zooms outward from the centre of the screen, before actually being able to be used. This, when it happens in my program, gives the impression that a new frame/window has been opened, instead of the contents of the current frame changing. Re: menu screen for a program, anyone know a way of writing the code more elagantly. I think I've solved it, I'm messing around with card layouts and they seem to work. Thankyou mr777 for all your help. Once I've finished I will post the code, so people can tell me if it's an improvement.
2024-02-29T01:26:36.242652
https://example.com/article/6293
Back in 1792, when George Washington was still President and there were 22 of the Constitution’s original framers STILL SERVING IN CONGRESS, Congress passed — and Washington signed — a bill *requiring* people to buy health insurance, and *requiring* men to buy guns and ammunition. Not a single one of these original framers said, “Hey, I’m not passing this bill, it’s against the Constitution…the one with my name on it.” I doubt I could offer much more to this topic. But will return with some “concrete figures” on the “limited participation” if I’m ever offered to spend time in one of the White House’s guest room’s. Would hate to speculate otherwise.
2024-06-28T01:26:36.242652
https://example.com/article/7736
From 8d91c3e9e7458c1faa5d09fce2920f73826f2c73 Mon Sep 17 00:00:00 2001 From: Aaron Madlon-Kay <aaron@madlon-kay.com> Date: Tue, 12 Nov 2019 16:44:11 +0900 Subject: [PATCH] Remove pip installation for packaging in MacPorts MacPorts provides the Python modules globally --- yubioath-desktop.pro | 10 ---------- 1 file changed, 10 deletions(-) diff --git a/yubioath-desktop.pro b/yubioath-desktop.pro index 2cbfb51..1b8c96e 100644 --- a/yubioath-desktop.pro +++ b/yubioath-desktop.pro @@ -38,16 +38,6 @@ QRC_JSON = resources.json # Generate first time system($$PYTHON_CMD build_qrc.py resources.json) -# Install python dependencies with pip on mac and win -win32|macx { - pip.target = pymodules - QMAKE_EXTRA_TARGETS += pip - PRE_TARGETDEPS += pymodules - QMAKE_CLEAN += -r pymodules -} -macx { - pip.commands = python3 -m venv pymodules && source pymodules/bin/activate && pip3 install -r requirements.txt && deactivate -} !macx { pip.commands = pip3 install -r requirements.txt --target pymodules } -- 2.26.0
2024-01-24T01:26:36.242652
https://example.com/article/3718
Actress and comedian Jane Curtin announced her New Near’s resolution during CNN’s countdown to 2019 on Monday night, saying that she resolved to end the Republican Party. CNN interviewed a number of celebrities to ask what their New Year’s resolutions were. Some of the famous people they interviewed were Megan Fox, Terrence Howard, and Queen Latifah. WATCH: “My New Year’s resolution is to better love myself so that I can better love those people who are in my life,” actress Fox said. Candace Bergen added, ‘My New Year’s resolution that every year I make and every year I don’t keep is to exercise and diet.” Bergen was the main character of the show Murphy Brown, which was rebooted for one season in 2018. The show took shots, both explicitly and implicitly, at the Trump administration. “My New Year’s resolution is to make sure that the Republican Party dies,” Curtin stated. Comedian Bridget Everett shared, “My New Year’s resolution is to wake up and have Anderson Cooper cook me breakfast every day for the rest of my life.” CNN’s new year’s coverage included Cooper trying his best to take shots of tequila every hour and Randi Kaye drinking champagne through a bong made from a snorkel. (RELATED: CNN’s Randi Kaye Does Champagne Bong On Air For New Year’s Eve) Follow Mike on Twitter
2024-05-14T01:26:36.242652
https://example.com/article/8238
Improving dental epidemiologic data collection with computers. A computerized dental data recording system (DDRS) was developed for the New England Elder Dental Study to improve data quality and increase field staff efficiency. The DDRS displays video screens similar to traditional paper forms to record data on coronal and root caries, dentate and denture status, subacute bacterial endocarditis screening, gingival bleeding, calculus, and periodontal attachment level. DDRS provides facilities for date and exam-component time tracking, on-line contextual comments, random record retrieval, editing, data backup, and data output in various data formats. This study compared the DDRS with a paper-form system for data entry accuracy. Dental caries and periodontal disease measurement data from 38 subjects were recorded on paper forms and independently entered using DDRS. The DDRS identified 150 illogical data errors, 39 inconsistent data errors, 7 invalid data and 34 miscellaneous data errors. Four technicians with field experience using both paper forms and DDRS reported time savings using DDRS in the field. DDRS has the potential for additional time savings by minimizing the time for data coding, cleaning, and management. Results demonstrate that DDRS could improve the quality of oral epidemiologic data by mandating strict adherence to protocols, preventing errors, and increasing field efficiency.
2023-12-03T01:26:36.242652
https://example.com/article/4675
Object subclass: #NumberGuesser instanceVariableNames: '' classVariableNames: '' poolDictionaries: '' category: 'Rosettacode'
2024-05-05T01:26:36.242652
https://example.com/article/2030
Evidence of a two-state picture for supercooled water and its connections with glassy dynamics. The picture of liquid water as consisting of a mixture of molecules of two different structural states (structured, low-density molecules and unstructured, high-density ones) represents a belief that has been around for long time awaiting for a conclusive validation. While in the last years some indicators have indeed provided certain evidence for the existence of structurally different "species", a more definite bimodality in the distribution function of a sound structural quantity would be desired. In this context, our present work combines the use of a structural parameter with a minimization technique to yield neat bimodal distributions in a temperature range within the supercooled liquid regime, thus clearly revealing the presence of two populations of differently structured water molecules. Furthermore, we elucidate the role of the inter-conversion between the identified two kinds of states for the dynamics of structural relaxation, thus linking structural information to dynamics, a long-standing issue in glassy physics.
2024-03-13T01:26:36.242652
https://example.com/article/2987
Efforts to create local “right-to-work” zones would have negative impacts on workers and the economy in Illinois. The preponderance of evidence finds that worker incomes are lower in economies with right-to-work laws and that employment effects are minimal at best. For instance, average worker wages are $2.90 per hour (13 percent) higher in Illinois than … “…it is my opinion that all counties, municipalities, and school districts must comply with the provisions of the Prevailing Wage Act when seeking bids and awarding contracts for public work projects.” 15-002 PWA
2024-07-04T01:26:36.242652
https://example.com/article/6268
Q: Create an array of number of occurrences from another array in Javascript I have two array which looks like var monthNames = [ "January", "January", "January", "April", "April", "December", "August", "August", "November", "November", "November", "December" ]; var monthRange = [ "January", "February", "March", "April", "May", "June", "July", "August", "September", "October", "November", "December" ]; Now I am wondering how should I work in JS so that I would get a new array back, again with 12 elements in it (one for each month) and get a count of it. So it will be like this - [3, 0, 0, 2, 0, 0, 0, 2, 0, 0, 3, 1] Here count is in the order of the monthRange which gives count for each month in monthNames . So here January : 3, April: 2, December: 1, August: 2, November: 3, December : 1 A: This would do it: var counts = monthRange.map(function(val) { var count = 0; for (var i = 0, j = monthNames.length; i < j; i++) { if (val === monthNames[i]) count++; } return count; });
2024-02-05T01:26:36.242652
https://example.com/article/6445
--- title: | Differences in dE/dX for $\mu+$ and $\mu-$\ and its Effect on the Underground Charge Ratio --- Introduction ============ The MINOS far detector is the first large underground experiment with a magnet that can measure the ratio of $\mu^+$ to $\mu^-$ with high precision.[@bib:mupaperFNAL; @bib:mufson]. A precise measurement of the charge ratio can then be used to ascertain special properties of the cosmic ray showers, such as the $\pi^+/\pi^-$ ratio and the $K^+/K^-$ ratio[@bib:interpret]. The survival probability for muons to reach an underground detector depends on the energy loss, so if there is any difference in energy loss between $\mu^+$ and $\mu^-$, that would affect the measured charge ratio. The statistical error on the MINOS measurement is remarkably small, and MINOS reports: $$r = \frac{N(\mu^+)}{N(\mu^-)} = 1.374 \pm 0.003(stat)^{+0.012}_{-0.010}(sys)$$ for surface muons with an energy near 1 TeV or higher. Thus, even very small differences in the energy loss between $\mu^+$ and $\mu^-$ could be important in the interpretation of these measurements. The statistical energy loss of muons, traversing an amount $X$ of matter in $g/cm^2$, with energies far above the Bethe-Bloch minimum is usually parameterized as $$- \frac{dE_{\mu}}{dX} = a(E_{\mu}) \,+\, \displaystyle\sum_{n=1}^{3} b_{n}(E_{\mu}) \cdot E_{\mu}, \label{eq:2}$$ where $a$ is the collisional term (i.e. ionization, mostly due to delta-ray production) and $b$ in the second term accounts for the three radiative muon energy loss processes: 1.Bremsstrahlung and 2.pair production, as well as 3.photonuclear interactions. In [*Table*]{} \[table1\] these energy loss parameters are listed for standard rock. The critical energy where ionization losses equal radiative losses in standard rock is approximately $0.6\,$TeV. The average muon energy for a muon which reaches the depth of MINOS is greater than $1$TeV, so the $b$ term and its energy dependence are important in calculating the energy loss. This paper focuses on the (small) differences in the $a$ and $b$ terms for $\mu^+$ and $\mu^-$. ----------- --------------------- ------------- ------------ ----------- ------------ $E_{\mu}$ $a_{ion}$ $b_{brems}$ $b_{pair}$ $b_{DIS}$ $\Sigma b$ \[$GeV$\] \[$MeV\,cm^{2}/g$\] $10$ 2.17 0.70 0.70 0.50 1.90 $10^{2}$ 2.44 1.10 1.53 0.41 3.04 $10^{3}$ 2.68 1.44 2.07 0.41 3.92 $10^{4}$ 2.93 1.62 2.27 0.46 4.35 ----------- --------------------- ------------- ------------ ----------- ------------ : [Average muon energy loss parameters calculated for standard rock [@bib:Groom][@bib:pdg]]{}[]{data-label="table1"} Calculated Difference in Ionization dE/dX for $\mu^+$ and $\mu^-$ ================================================================= At low energies, around the Bethe-Bloch maximum, the difference in ionization energy loss is known as the Barkas effect[@bib:fermi], and there have been efforts to both measure and calculate those differences[@bib:mccarthy]. Calculations show that negative particles lose energy at a slower rate, with the difference dropping from tens of percent at MeV energies to about $0.3$% in the GeV range. Such differences were experimentally verified both at MeV energies[@bib:barkas1]-[@bib:barkas3] and in the GeV range [@bib:barkas4]. At higher energies, this difference in ionization energy loss has usually been neglected, and we are not aware of any measurements. As described in Reference [@bib:jackson], the usual ionization energy loss term for muons (of either sign) depends on $z^2$, and the difference between $\mu^+$ and $\mu^-$ arises from a small additional $z^3$ correction term. This correction term in $dE/dx$ is: $$\displaystyle\left(\frac{dE}{dX}\right)^{corr}_{ion} = \frac{\pi \alpha z^3 0.307 Z}{2 \beta A} \quad [MeV\, cm^{2}\, g^{-1}] \label{eq:3}$$ where $\alpha$ is the fine structure constant, $z$ is the charge, $\beta$ is the relativistic velocity, and $Z$ and $A$ are the nuclear properties of the material through which the muon is passing. The absolute value of the difference in ionization energy loss between positive and negative muons in standard rock[@bib:pdg] is plotted in Figure \[fig:fig1\]. It is fairly constant above $10$GeV, at a value corresponding to approximately $0.15$% of the mean energy loss in the ionization dominated energy regime ([*c.f.*]{} Table \[table1\]). ![Calculated difference in ionization energy loss between positive and negative muons in standard rock (average nuclear properties: $\overline{Z}=11$, $\overline{A} = 22$ [@bib:pdg]).[]{data-label="fig:fig1"}](ComputationEsyst_BarkasIoni.eps){width="50.00000%"} Calculated Difference in Bremsstrahlung dE/dX for $\mu^+$ and $\mu^-$ ===================================================================== Above an energy near $0.6$TeV in standard rock, radiative energy loss becomes comparable to ionization energy loss, and continues to grow at higher muon energies. From Reference [@bib:jackson2], the fractional difference in Bremsstrahlung energy loss between positive and negative muons is $$\frac{[\frac{dE}{dX}]^{\mu+}_{brems} - [\frac{dE}{dX}]^{\mu-}_{brems}}{[\overline{\frac{dE}{dX}}]_{brems}} = \frac{8 Z \alpha}{\gamma} \label{eq:4}$$ where $\gamma$ is the Lorentz factor of the muon. Again, the $\mu^+$ has a slightly higher energy loss. This fractional difference [*decreases*]{} with energy and is already negligible where radiative energy losses become important. This fractional difference is plotted in Figure \[fig:fig2\] for muons in standard rock. Presumably, the same fractional difference can also be assigned for pair-production, as the underlying process is a two-photon exchange between the muon and the constituents of the nucleus, and thus the cross sections for $\mu^+$ and $\mu^-$ should scale in the same way as for Bremsstrahlung. ![Calculated fractional difference in Bremsstrahlung energy loss between positive and negative muons.[]{data-label="fig:fig2"}](ComputationEsyst_BarkasBrems.eps){width="50.00000%"} Muon Range Underground for $\mu^+$ and $\mu^-$ ============================================== Taking the vertical muon intensity from an optimized Gaisser parameterization of the muon flux at the surface and propagating this energy spectrum underground according to statistical ionization and radiative energy losses, it is possible to precisely calculate the underground muon intensity. This procedure is described in detail in [@bib:myCrouchProc] for overburdens of standard and Soudan rock (MINOS). First, the average muon range underground, for each value of surface energy, has to be precisely computed. For this, the energy dependent $a$ and $\Sigma b$ values are parameterized for standard and Soudan rock as in [@bib:myCrouchProc]. The additional ionization loss according to Eq. 3 is then added for $\mu^+$ to the value of the function for $a$ (subtracted for $\mu^-$). Conservatively, $90\,\%$ of the value of the function for $\Sigma b$ (the total radiative losses), are scaled with the energy dependent fractional difference $R=8Z\alpha/\gamma$ according to Eq. 4 as $\Sigma b^{\pm} = 0.9 \cdot \Sigma b \cdot (1 \pm R/2)$ for $\mu^+$ and $\mu^-$, respectively. The contribution from photonuclear production (DIS), which accounts for a constant fraction of $10\,\%$ of all radiative muon energy losses in standard rock (in the region of interest from $250\,$GeV to $10\,$TeV) is not scaled with the fractional difference. According to differential Eq. 2 the propagation of the muon energy is then numerically computed, separately for $\mu^+$ and $\mu^-$ (in standard and Soudan rock, respectively). Thus, for each initial value of muon energy, the slant depth in meter-water-equivalent where the muons of different charge range out is determined. Muon Charge Asymmetry from Ratio of Intensities Underground =========================================================== Using the average muon range underground, calculated for positive and negative muons in rock as described in the last section, and an optimized Gaisser parameterization of the differential intensity of vertical muons at the surface, we have computed the corresponding underground intensities of positive and negative muons as a function of slant depth for a given rock composition. The resulting ratio of the $\mu^+$ and $\mu^-$ intensity curves is shown in Figure \[fig:intensity\] for Soudan rock. The upper curve corresponds to the fractional difference in integral intensities of $\mu^+$ and $\mu^-$ at a given slant depth. For slant depth values above about $1000\,mwe$ the underground ratio $N(\mu^+)/N(\mu^-)$ is lowered by roughly $0.4\,\%$. However, since the charge of only the lower energy muons can be identified in a magnetic detector, owing to its maximum detectable momentum [@bib:mdm], the detected intensity corresponds to the charge ratio of the muons at depth below some momentum. The lower curve in Figure \[fig:intensity\] depicts the fractional difference in intensity for underground muon momenta below $250$GeV/c, corresponding to the approximate maximum detectable momentum of MINOS. For increasing slant depth values the measured underground ratio $N(\mu^+)/N(\mu^-)$ is further reduced and saturates at about $0.6\,\%$ below its surface value for slant depths larger than roughly $5000\,mwe$. The dominant $0.15$% difference in ionization energy loss between $\mu^+$ and $\mu^-$ gets amplified by a factor of about $3.7$, due to the approximate $E^{-3.7}$ dependence of the differential muon spectrum. The impact of the rock composition is almost negligible, as the induced muon charge asymmetry under Soudan rock lowers the surface value of the ratio by an additional amount less than $0.02\,\%$ compared to standard rock. ![Calculated ratio of positive to negative vertical muon intensities in Soudan rock as a function of slant depth. The upper curve is for all muons, the lower curve is for muons with a remnant momentum of less than 250 GeV/c ($\approx$ the maximum detectable momentum in the MINOS far detector).[]{data-label="fig:intensity"}](ComputationEsyst_Barkas_MINOS_final.eps){width="50.00000%"} Summary ======= There is a small fractional difference in energy loss for $\mu^+$ and $\mu^-$ of the order of $0.15\,\%$ predicted by theoretical calculations at high energies, predominantly due to a $z^3$ correction term in the ionization energy loss. This causes that measurements of the atmospheric muon charge ratio $N(\mu^+)/N(\mu^-)$ deep underground (e.g. with the MINOS detector), to observe a slightly lower ratio than at the surface. Moreover, as the atmospheric muon energy spectrum is steeply falling off with approximately $E^{-3.7}$, the small difference in energy loss between $\mu^+$ and $\mu^-$ at high energies results in an amplified charge asymmetry of about $0.6\,\%$ several thousand meters water equivalent deep underground. The calculations presented herein allow for a correction of the underground measured muon charge ratio to its surface value. Acknowledgments =============== This work was supported by the U.S. Department of Energy (DOE) under contract DE-AC02-06CH11357. I also like to thank Geoff Bodwin from the High Energy Physics Division at Argonne, Stan Wojcicki from Stanford, Stuart Mufson from the University of Indiana, Don Groom from Lawrence Berkeley National Laboratory as well as Thomas Fields and the neutrino physics group at Argonne for valuable discussions and in particular Maury Goodman for his support. [99]{} P. Adamson et al., “Measurement of the Atmospheric Muon Charge Ratio at TeV Energies with MINOS", submitted to Phys. Rev. D. S. Mufson for the MINOS collaboration, “Measurement of the Atmospheric Muon Charge Ratio at TeV Energies with MINOS", these proceedings. P. Schreiner and M. Goodman for the MINOS collaboration, “Interpretation of the Atmospheric Muon Charge Ratio in MINOS", these proceedings. D.E.Groom et al., “Muon stopping-power and range tables," Atomic Data and Nuclear Data Tables, 78, 183 (2001). Letter from E. Fermi to W. Barkas (1953). J. Jackson and R. McCarthy, Phys. Rev. [**B 6**]{} 4131 (1972). F. Smith, W. Birnbaum and W. Barkas, Phys. Rev. [**91**]{}, 765 (1953). W. Barkas, W. Birnbaum and F. Smith, Phys. Rev. [**101**]{}, 778 (1956). M. Agnello et al., Phys. Rev. Lett. [**74**]{} 371 (1995). A. Clark et al., Phys. Lett. [**41b**]{} 229 (1972). J. D. Jackson, Phys. Rev. [**D 59**]{}, 017301 (1998). W. Yao et al., J. Phys. G: Nucl. Part. Phys. [**33**]{} 2006; standard rock is described in section 24.1 on page 247. J. D. Jackson, private communication to S. Wojcicki, Nov. 4, 2005. J. Reichenbacher, “Calculating the Crouch Curve", these proceedings. M. Goodman for the MINOS collaboration, “Maximum Detectable Momentum for cosmic ray muons in the MINOS far detector", these proceedings.
2023-12-09T01:26:36.242652
https://example.com/article/3469
Tyler Clinton. Photo: Tyler Clinton/Facebook Amid speculation that Chelsea Clinton is going to run for some sort of office, another Clinton has stepped out of the political dynasty for the time being. Tyler — nephew of Hillary and Bill and son of Bill’s half-brother Roger — is officially becoming a professional hot person: The 22-year-old signed a contract with IMG Models, TMZ first reported. You may recognize Tyler from the 2016 Democratic National Convention, when he joined his aunt onstage for the role of “Hillary Clinton’s super-hot nephew Tyler.” All Clinton needs to do now is learn how to DJ — the default second career of models everywhere — and the Democrats will absolutely run him as their first model/DJ for president in 2044.
2023-10-22T01:26:36.242652
https://example.com/article/6979
J-S03035-18 NON-PRECEDENTIAL DECISION - SEE SUPERIOR COURT I.O.P. 65.37 COMMONWEALTH OF : IN THE SUPERIOR COURT OF PENNSYLVANIA : PENNSYLVANIA : : v. : : : HARRY DARBY : : No. 635 EDA 2017 Appellant Appeal from the PCRA Order January 9, 2017 In the Court of Common Pleas of Philadelphia County Criminal Division at No(s): CP-51-CR-0001961-2010 BEFORE: BENDER, P.J.E., PANELLA, J., and STEVENS, P.J.E.* MEMORANDUM BY STEVENS, P.J.E.: FILED FEBRUARY 27, 2018 Appellant Harry Darby appeals from the order of the Court of Common Pleas of Philadelphia County dismissing Appellant’s petition under the Post- Conviction Relief Act (“PCRA”), 42 Pa.C.S.A. §§ 9541-9546. As Appellant’s petition is untimely, we affirm. On August 16, 2011, Appellant entered a negotiated guilty plea to aggravated assault, robbery, conspiracy, burglary, possession of an instrument of crime and violations of the Uniform Firearms Act (VUFA). On that day, Appellant received an aggregate sentence of seven to fourteen years’ imprisonment. On January 15, 2013, this Court affirmed the judgment of sentence. On June 10, 2013, the Supreme Court denied Appellant’s petition for allowance of appeal. ____________________________________ * Former Justice specially assigned to the Superior Court. J-S03035-18 On January 27, 2016, Appellant filed a pro se PCRA petition, challenging the effectiveness of his trial counsel in advising him to enter a guilty plea. On November 30, 2016, newly-appointed counsel sought to withdraw his representation and filed a “no-merit” letter pursuant to Commonwealth v. Turner, 518 Pa. 491, 544 A.2d 927 (1988) and Commonwealth v. Finley, 550 A.2d 213 (Pa.Super. 1988). On December 10, 2016, the PCRA court issued notice of its intent to dismiss Appellant’s petition without a hearing pursuant to Pa.R.Crim.P. 907. On January 9, 2017, the PCRA court dismissed Appellant’s petition on the merits and allowed counsel to withdraw. The PCRA court did not determine whether Appellant’s petition was timely. On February 2, 2017, Appellant filed this timely appeal. When reviewing the denial of a PCRA petition, our standard of review is limited to examining whether the PCRA court's determination is supported by evidence of record and whether it is free of legal error. Commonwealth v. Smallwood, 155 A.3d 1054, 1059 (Pa.Super. 2017) (citations omitted). Before we can reach the merits of this petition, however, we must determine whether this PCRA petition was timely filed. “[T]he PCRA's timeliness requirements are jurisdictional in nature and must be strictly construed; courts may not address the merits of the issues raised in a petition if it is not timely filed.” Commonwealth v. Leggett, 16 A.3d 1144, 1145 (Pa.Super. 2011) (citations omitted). Generally, a PCRA petition must be filed within one year of the date the judgment of sentence becomes final unless the petitioner meets his burden to -2- J-S03035-18 plead and prove one of the exceptions enumerated in 42 Pa.C.S.A. § 9545(b)(1)(i)-(iii), which include: (1) the petitioner’s inability to raise a claim as a result of governmental interference; (2) the discovery of previously unknown facts or evidence that would have supported a claim; or (3) a newly- recognized constitutional right. 42 Pa.C.S.A. § 9545(b)(1)(i)-(iii). However, the PCRA limits the reach of the exceptions by providing that a petition invoking any of the exceptions must be filed within 60 days of the date the claim first could have been presented. Leggett, 16 A.3d at 1146 (citing 42 Pa.C.S.A. § 9545(b)(2)). As noted above, the trial court sentenced Appellant on August 16, 2011, this Court affirmed the judgment of sentence on January 15, 2013, and the Supreme Court denied allowance of appeal on June 10, 2013. Appellant did not seek review in the Supreme Court of the United States. Section 9545(b)(3) of the PCRA provides that a judgment of sentence becomes final at the conclusion of direct review or the expiration of the time for seeking the review. 42 Pa.C.S.A. § 9543(b)(3). Appellant’s judgment of sentence became final on September 8, 2013, after the expiration of the ninety-day period in which he was allowed to seek review in the U.S. Supreme Court. See U.S. Sup.Ct. R. 13(1) (stating “a petition for a writ of certiorari to review a judgment in any case ... is timely when it is filed with the Clerk of this Court within 90 days after entry of the judgment”). As such, Appellant needed to file his PCRA petition by September 8, 2014. As Appellant filed the instant petition on January 27, 2016, this petition is facially untimely. -3- J-S03035-18 Moreover, our review of Appellant’s petition reveals that none of the PCRA timeliness exceptions are applicable in this case. Appellant has not alleged nor proven that (1) the delay in raising his current claims was caused by interference by governmental officials, (2) the claims in his PCRA petition were unknown to him or could not have been ascertained by the exercise of due diligence or (3) his claims consist of recently recognized constitutional rights. See 42 Pa.C.S.A. § 9545(b)(1)(i)-(iii). Therefore, as Appellant’s PCRA petition is untimely, the PCRA court had no jurisdiction to consider it. Commonwealth v. Hutchins, 760 A.2d 50, 55 (Pa.Super. 2000). Even though the PCRA court denied Appellant’s petition on grounds other than untimeliness, “this Court may affirm the decision of the PCRA Court if it is correct on any basis.” Id (citations omitted).1 Order affirmed. Jurisdiction relinquished. ____________________________________________ 1 We note that Appellant has not asserted any deficiency in counsel’s Turner/Finley letter with respect to counsel’s failure to recognize the untimeliness of this petition. In Commonwealth v. Pitts, 603 Pa. 1, 9, 981 A.2d 875, 880 (2009), our Supreme Court held that it is improper for an appellate court to sua sponte address the adequacy of a no-merit letter filed before the PCRA court. -4- J-S03035-18 Judgment Entered. Joseph D. Seletyn, Esq. Prothonotary Date: 2/27/18 -5-
2024-02-25T01:26:36.242652
https://example.com/article/8886
Effect of nutrition on fertility and blood composition in the milk cow. The relationship between nutrition, fertility and blood composition was studied in 400 cows from commercial farms. Fertility evaluated by overall conception rate (OCR) was shown to be significantly related proportion of concentrate and roughage feeds in the diet, and to its content of dry matter, digestible protein, Ca and P. The ratio of serum total lipids to glucose and a newly introduced parameter, delta Pi (a calculated value, obtained by subtracting whole blood levels of Pi from those of the blood serum), showed a highly significant relationship to OCR. No significant relationship was found between OCR and serum, total lipids, cholesterol, urea, Ca, Mg, organic and inorganic phosphate. The values and significance of the 2 blood parameters which showed a relationship to fertility are discussed.
2024-07-08T01:26:36.242652
https://example.com/article/7495
Q: JEditorPane Content Type for HTML Embedded Base64 Images I am using JeditorPane and JEditorKit to display some HTML. The HTML is displaying correctly but the images show up as broken (they display properly in a browser). The image src is base64. I set the content type thus: final JEditorPane ed=new JEditorPane(); ed.setContentType("text/html"); I'm guessing that because it contains both text and images, the content type is incorrect. If that is the case, what should it be set to? TIA. ** After Madushan Perera's reply** final JEditorPane ed=new JEditorPane(); ed.setContentType("text/html"); ed.setEditable(false); HTMLDocument html=(HTMLDocument) ed.getDocument(); html.putProperty("IgnoreCharsetDirective", new Boolean(true)); HTMLEditorKit htmle=(HTMLEditorKit) ed.getEditorKit(); try { htmle.insertHTML(html,html.getLength(),content,0,0,null); } catch (BadLocationException | IOException e) { // Should not get here e.printStackTrace(); } ed.addHyperlinkListener(new HyperlinkListener() { public void hyperlinkUpdate(final HyperlinkEvent pE) { if (HyperlinkEvent.EventType.ACTIVATED == pE.getEventType()) { String desc = pE.getDescription(); if (desc == null || !desc.startsWith("#")) return; desc = desc.substring(1); ed.scrollToReference(desc); } } }); ed.setCaretPosition(0); JScrollPane scroll=new JScrollPane(ed,JScrollPane.VERTICAL_SCROLLBAR_AS_NEEDED,JScrollPane.HORIZONTAL_SCROLLBAR_NEVER); JPanel jp=new JPanel(); Dimension size=new Dimension(700,700); jp.setPreferredSize(size); jp.setLayout(new BorderLayout()); jp.add(scroll); JOptionPane.showMessageDialog(null,jp,title,JOptionPane.INFORMATION_MESSAGE); 'html' is the string containing the HTML. It was read from an html file type using IOUtils.toString. I'm probably going to have to develop an SCCE. Implementing CustomEditor final JEditorPane ed=new JEditorPane(); ed.setContentType("text/html"); ed.setEditable(false); CustomToolKit htmle=new CustomToolKit(); ed.setEditorKit(htmle); String content=readFile(fileName_+".html").replaceAll("(\\r|\\n)", ""); content=content.replace("!!!!",VERSION.VERSION); ed.setText(content); ed.addHyperlinkListener(new HyperlinkListener() { public void hyperlinkUpdate(final HyperlinkEvent pE) { if (HyperlinkEvent.EventType.ACTIVATED == pE.getEventType()) { String desc = pE.getDescription(); if (desc == null || !desc.startsWith("#")) return; desc = desc.substring(1); ed.scrollToReference(desc); } } }); ed.setCaretPosition(0); JScrollPane scroll=new JScrollPane(ed,JScrollPane.VERTICAL_SCROLLBAR_AS_NEEDED,JScrollPane.HORIZONTAL_SCROLLBAR_NEVER); JPanel jp=new JPanel(); Dimension size=new Dimension(700,700); jp.setPreferredSize(size); jp.setLayout(new BorderLayout()); jp.add(scroll); JOptionPane.showMessageDialog(null,jp,title,JOptionPane.INFORMATION_MESSAGE); } Now I get nothing. Obviously I did not properly implement your suggestion. A: You can try something like below : String imgsrc = this.getClass().getClassLoader() .getResource("your_package_name/image.png").toString(); editor_pane.setContentType("text/html"); editor_pane.setEditable(false); editor_pane.setText("<h3>Image Title</h3><img src='" + imgsrc + "' alt='img' name='img_name' width='100' height='100' /><br />"); UPDATE : String imgURL = "data:image/png;base64,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"; String encodedImg = imgURL.split(",")[1]; byte[] decodedImg = Base64.getDecoder().decode(encodedImg.getBytes(StandardCharsets.UTF_8)); Path destinationFile = Paths.get("C:\\your_path\\", "myImage.jpg"); try { Path path = Files.write(destinationFile, decodedImg); editor_pane.setContentType("text/html"); editor_pane.setEditable(false); editor_pane.setText("<h3>Image Title</h3><img src='" + path.toAbsolutePath().toUri() + "' alt='img_alt' width='150' height='150' /><br />"); } catch (IOException ex) { ex.printStackTrace(); } UPDATE 2 : You have to create custom toolkit for the JEditorPane like below : public class CustomToolKit extends HTMLEditorKit { private static HTMLFactory factory = null; @Override public ViewFactory getViewFactory() { if (factory == null) { factory = new HTMLFactory() { @Override public View create(Element elem) { AttributeSet attrs = elem.getAttributes(); Object elementName = attrs.getAttribute(AbstractDocument.ElementNameAttribute); Object o = (elementName != null) ? null : attrs.getAttribute(StyleConstants.NameAttribute); if (o instanceof HTML.Tag) { HTML.Tag kind = (HTML.Tag) o; if (kind == HTML.Tag.IMG) { return new BASE64ImageView(elem); } } return super.create(elem); } }; } return factory; } } Then you have to override the getImageURL() of javax.swing.text.html.ImageView to support Base64 encoded images: public class BASE64ImageView extends ImageView { private URL url; public BASE64ImageView(Element elmnt) { super(elmnt); populateImage(); } private void populateImage() { Dictionary<URL, Image> cache = (Dictionary<URL, Image>) getDocument() .getProperty("imageCache"); if (cache == null) { cache = new Hashtable<>(); getDocument().putProperty("imageCache", cache); } URL src = getImageURL(); cache.put(src, loadImage()); } private Image loadImage() { String b64 = getBASE64Image(); BufferedImage newImage = null; ByteArrayInputStream bais = null; try { bais = new ByteArrayInputStream( Base64.getDecoder().decode(b64.getBytes())); newImage = ImageIO.read(bais); } catch (Throwable ex) { ex.printStackTrace(); } return newImage; } @Override public URL getImageURL() { String src = (String) getElement().getAttributes() .getAttribute(HTML.Attribute.SRC); if (isBase64Encoded(src)) { this.url = BASE64ImageView.class.getProtectionDomain() .getCodeSource().getLocation(); return this.url; } return super.getImageURL(); } private boolean isBase64Encoded(String src) { return src != null && src.contains("base64,"); } private String getBASE64Image() { String src = (String) getElement().getAttributes() .getAttribute(HTML.Attribute.SRC); if (!isBase64Encoded(src)) { return null; } return src.substring(src.indexOf("base64,") + 7, src.length() - 1); } } Finally you can set your CustomToolKit to your editorPane : String imgURL = "data:image/png;base64,iVBORw0KGgoAA........."; editor_pane.setContentType("text/html"); editor_pane.setEditable(false); CustomToolKit toolKit = new CustomToolKit(); editor_pane.setEditorKit(toolKit); editor_pane.setText("<h1>Image Title</h1><img src='" + imgURL + "' alt='img_alt' width='150' height='150' /><br />");
2024-03-03T01:26:36.242652
https://example.com/article/5920
See All Preferences My Communities My Discussions My Email Digests Announcements I haven't been on for a while. Been busy trying to get stuff together for vacations. I went to see my doctor on Monday. I was given yet another prescription...hope this one helps. I feel like a walking pharmacy...huh Anyway she's concerned that my imobility due to pain, and the increased wieght that she has asked me to have bariatric surgery. She seems to think wieght loss will reduce my pain, and help me to feel human. I'm 32, 5'6" and 280lbs....It's summer now, and since my pain levels have increased over the last year there are so many things I remember doing, that I wont even attempt right now. I have to sit in a wheel chair to go shopping, and I love cooking, but can't stand long enough to make a meal for my family. What I'm wondering is if anyone here as had this surgery, and if so did it decrease pain levels in any way. I just dont want to look forward to it, and then have no change. I will however go through with the surgery, since at the moment I'm at risk for diabetes and high blood pressure. I went to see my doctor on Monday. I was given yet another prescription...hope this one helps. I feel like a walking pharmacy...huh Anyway she's concerned that my imobility due to pain, and the increased wieght that she has asked me to have bariatric surgery. She seems to think wieght loss will reduce my pain, and help me to feel human. I'm 32, 5'6" and 280lbs....It's summer now, and since my pain levels have increased over the last year there are so many things I remember doing, that I wont even attempt right now. I have to sit in a wheel chair to go shopping, and I love cooking, but can't stand long enough to make a meal for my family. What I'm wondering is if anyone here as had this surgery, and if so did it decrease pain levels in any way. I just dont want to look forward to it, and then have no change. I will however go through with the surgery, since at the moment I'm at risk for diabetes and high blood pressure. I was diagnosed with fibro in 1991. I had bariatric banding surgery in 2007. I have lost 80 lbs. I no longer have diabetes II, and other medical issues. However, it did not make any difference with my fibro pain. As a matter oof fact, I have been in a flare for about the last year. Sorry to give you the bad news, but it makes no difference how much you weigh when it comes to fibro. I recommend the surgery to avoid diabetes and all of the ppossible complications from that. Good luck. Thanks for your Reply! Report This| Share this:Bariatric SurgeryI was diagnosed with fibro in 1991. I had bariatric banding surgery in 2007. I have lost 80 lbs. I no longer have diabetes II, and other medical issues. However, it did not make any difference with my fibro pain. As a matter oof fact, I have been in a flare for about the last year. Sorry to give you the bad news, but it makes no difference how much you weigh when it comes to fibro. I recommend the surgery to avoid diabetes and all of the ppossible complications from that. Good luck. I was diagnosed with what ended up being fibro 25 years ago and I had RNY gastric bypass 10 years ago. I lost 150 pounds and there were a lot of health benefits, and reduced pain is one. I always encourage someone who 100 pounds or more to look into the surgery. Almost all of the surgical groups conduct a meeting for prospective candidates and you will be able to ask more questions. Most surgeons require you to attend group meetings before the surgery. The surgery is not to be taken lightly, but if you are well informed and motivated it will work. It saved my life. Ima Thanks for your Reply! Report This| Share this:Bariatric SurgeryI was diagnosed with what ended up being fibro 25 years ago and I had RNY gastric bypass 10 years ago. I lost 150 pounds and there were a lot of health benefits, and reduced pain is one. I always encourage someone who 100 pounds or more to look into the surgery. Almost all of the surgical groups conduct a meeting for prospective candidates and you will be able to ask more questions. Most surgeons require you to attend group meetings before the surgery. The surgery is not to be taken lightly, but if you are well informed and motivated it will work. It saved my life. Thanks Ima, I have attended the orientation, and have a first appointment for wiegh in on the 3rd. I have the schedual for the support groups and plan on attending two by the 6th...thats when I am going on vacation. I also have a excersise program set up for while on vaca as well as home. Thanks again for the info. Shannon Thanks for your Reply! Report This| Share this:Bariatric SurgeryThanks Ima, I have attended the orientation, and have a first appointment for wiegh in on the 3rd. I have the schedual for the support groups and plan on attending two by the 6th...thats when I am going on vacation. I also have a excersise program set up for while on vaca as well as home. Thanks again for the info. Related Drug Reviews Report Problems With Your Medications to the FDA You are encouraged to report negative side effects of prescription drugs to the FDA. Visit the FDA MedWatch website or call 1-800-FDA-1088. The opinions expressed in WebMD Communities are solely those of the User, who may or may not have medical or scientific training. These opinions do not represent the opinions of WebMD. Communities are not reviewed by a WebMD physician or any member of the WebMD editorial staff for accuracy, balance, objectivity, or any other reason except for compliance with our Terms and Conditions. Some of these opinions may contain information about treatments or uses of drug products that have not been approved by the U.S. Food and Drug Administration. WebMD does not endorse any specific product, service or treatment. Do not consider Communities as medical advice. Never delay or disregard seeking professional medical advice from your doctor or other qualified healthcare provider because of something you have read on WebMD. You should always speak with your doctor before you start, stop, or change any prescribed part of your care plan or treatment. WebMD understands that reading individual, real-life experiences can be a helpful resource, but it is never a substitute for professional medical advice, diagnosis, or treatment from a qualified health care provider. If you think you may have a medical emergency, call your doctor or dial 911 immediately.
2024-02-09T01:26:36.242652
https://example.com/article/2971
Patients' views of the medical education setting. The results of a survey of 1,334 patients at three community health centers operated by the University of Illinois College of Medicine at Rockford are presented and discussed. The research was designed to begin to obtain a better understanding of the patient's views on the quality of care and medical students in the medical education setting. Patients in the study reported being attracted to the educational site for the same reasons they would go to a private physician, that is, location, advice of a friend, or dissatisfaction with their previous doctor. They also reported satisfaction with care in general and with the specific components of care at the health centers. However, the patients expressed different views of the medical student's role, and there were differences in the patients' preferences for a student or a faculty physician depending on their medical problem or condition. These views of the student's role and the patients' preferences of physicians were found to be related significantly to the patient's age, the patient's perception of his primary source of medical care, the patient's evaluation of the effect of medical schools on health care, and the patient's level of satisfaction with the care received.
2023-09-25T01:26:36.242652
https://example.com/article/3700
Methods to Used to Stop Smoking Smoking is one of the most difficult addictions to quit. However, the long term effects of smoking are some of the most difficult to deal with, too. Aside from the long list of cancers, you are subjecting your lungs to the possibility of bronchitis, emphysema, pneumonia, asthma, and much worse. Other possibilities include heart disease, aneurysms, strokes, blood circulation issues, weakening of the bones, various eye diseases, and gum disease. Smoking also has an effect on the reproductive system. It can cause a variety of birth defects and other complications at birth along with impotence in men. This list goes on regarding the health issues by continuing to smoke. Second hand smoke can be just as damaging so you aren't just putting yourself at risk but others as well. Aside from the mere habit of it, the withdrawal symptoms can get a bit crazy for some. The nicotine receptors in your brain will make their temper tantrum quite known. Physically, you can experience stomach cramps and nausea, headaches, tingling sensations in the hands and feet, sweating, shakes, and even cold like symptoms. Mental symptoms aren't as kind either. These could include irritability, anger, depression, insomnia, unable to think clearly, and increase appetite. There are a variety of ways that you can quit smoking. Each person is as different as the methods suggested. You need to evaluate what will be best for you and stick with it. The road isn't an easy one but once you have found what works for you, being smoke free is attainable. First, let's attack the addiction itself. Although you don't normally find this suggestion at most websites and doctors' offices this method has help out hundreds of people. Continue smoking for a period of two weeks. Keep a journal with you to write down the date, time, what you were doing or had done prior to lighting up. Most people will notice they have a pattern to their smoking. Starting in week three, begin to cut out any random smoking. This means cut out any time you just lit a cigarette for no apparent reason. The next week, cut out one or two patterns to your smoking. This means if you always have to have a cigarette while driving or perhaps right after you eat, make yourself actively resist the urge to light up. Each week pick one pattern to cut out of your smoking routine. This method allows you to wean the nicotine receptors in your brain. It makes withdrawal symptoms less violent and more manageable. Although this isn't the healthiest way to quit smoking, it can be quite effective. The patch is quite effective with most people. It continues to send nicotine to the receptors in your brain without damaging your lungs any further. Most patches have gradual step.Generally speaking, there are three steps. Step One you will use for one to six weeks with 21mg of nicotine per patch. This step is for anyone who smokes more than ten cigarettes a day. Step Two is generally used for one to two weeks with only 14mg of nicotine per patch. If you smoke ten cigarettes or less you can start off with Step Two and use it for up to six weeks. Step Three has only 7mg and is designed for those transitioning from Step Two. One of common complaint about the patch is that it itches for the first thirty minutes after it is applied. After the first thirty minutes, the itching may subside. Another complaint is more of trial and error advice. The patch sometimes doesn't stay on as well unless applied to a shoulder blade. This may require some assistance. However, some people have no problems with sticking it to their upper arm, thigh, or buttocks. Be aware that some people experience side effects from using the patch. Some side effects include dizziness, lightheadedness, drowsiness, headaches, stomach upset, nausea, and diarrhea. The area where you apply the patch may become red and irritated, thus it is suggested to try a new site to place it. More severe side effects may include chest pain, breathing difficulties, irregular heartbeat, anxiousness, nervousness, and tremors. If these side effects occur, it is suggest you contact your doctor immediately. The nicotine gum has worked for several people. However, some people don't like the taste and sensation in their mouth. Other people don't experience that at all. So again, if the gum works for you it is worth it so that you can be free from the controlling habit of smoking. Most people use about ten to twelve pieces of gum a day. It is label that you must have quit smoking prior to using nicotine gum. That doesn't make sense in my book, except it is suggested to be used when you feel an urge to smoke. The nicotine gum also has its own list of side effects. Some of these effects include jaw muscle aches, mouth sores, increased saliva, indigestion, hiccups, nausea, vomiting, insomnia, lightheadedness, and dizziness. You should contact your doctor if you have a rapid heartbeat, cold sweats, or fainting. Chantix Chantix is prescribed by your doctor. It has a 44% success rate over a nine to twelve week treatment. Chantix blocks the nicotine receptors in your brain. For the first week you will take one white pill each morning. From week two through eight you will take a white pill in the morning and at night. Once you reach week nine, you will switch over to the blue pills. Chantix isn't without its own list of side effects. Some of these may include gas, constipation, vomiting, and sleep issues. Some people who have taken this medication has notice a change in their behavior such as agitation, depression, and suicidal thoughts. If you begin to have these side effects it is advised to discontinue use and contact your doctor. Hypnosis Some people have said that hypnosis has done wonders for them. I know for a fact that hypnosis is effective for many people that battle a variety of issues. So if you are open minded and willing to try what can be an easy fix, you might want to try hypnotherapy. There may be a hypnotherapist in your area. If not there are places online that you can order CDs to help with hypnosis to quit smoking. Other Methods E-Z Quit Artificial Cigarette Smokeeze Cigarette Filters Smokeless Counter ZeroSmoke Zero Nicotine Replace the Habit Sometimes it isn't just the addiction that keeps you smoking. Just the habit of having a cigarette in hand can be a strong foe. Try replacing the habit with something more productive. Consider taking up a new hobby or craft project. Writing isn't a bad replacement either. Start a journal, blog, or other writing avenue to use every time you want to light up. Some people prefer to just chew gum. Others have decided to have a book handy to read every time they want to grab for the pack of smokes. Regardless, the point is every time you crave lighting up, you are replacing it with a better habit. You can use this with the gradual quitting method as well. Use this replacement therapy to help reduce the amount of cigarettes that you smoke in a day. It is a great starting point to set you on your way to stop smoking entirely. No matter what you do to replace the habit of smoking, make sure it is productive and not harmful. The basic idea is to replace a bad habit with a good habit. Support System It is good to have a support system. Let everyone know you are quitting smoking. To begin with avoid being around people who are smoking. This helps fight the urge to light up with them. Sure, you must get used to being around cigarette smoke from time to time without having the urge to light up yourself, but to start with it could be a disastrous temptation for you. Encourage others to quit smoking with you. Making it a team effort helps ensure success for everyone. Having a small group of people that can relate to what you are going through is an amazing strength to add to your fight against the habit. Consider keeping a diary. Use it as a way to keep a day-to-day account of your struggles and triumphs while you are trying to stop smoking. Although you can keep an offline journal, consider using a blog to help show others who are trying to quit smoking that they are not alone. There are also websites available to assist you in your quest to be smoke free. Some these include: No matter what method you choose, quitting smoking is the best thing you can do for yourself and others. Once you get past the withdrawals, you will be amazed at how much better you feel. Just remember to stay positive and have faith in yourself. Don't give into the urges to light up. If you happen to slip, don't get discouraged. Just pick yourself back up and continue to persevere in the fight to be smoke free. 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2024-07-25T01:26:36.242652
https://example.com/article/6919
Assessment model from NYCCT Business Department Professor Lucas Bernard from New York City College of Technology took part in the CUNY Hybrid Initiative. Along with Professor Tim Reinig, he evaluated courses in the business department. The following is a summary of the findings: Status of The CUNY Hybrid Initiative Grant II
2024-03-20T01:26:36.242652
https://example.com/article/9340
# encoding: UTF-8 require File.expand_path(File.dirname(__FILE__) + '/../../wpstools_helper') describe 'StatsPlugin' do subject(:stats) { StatsPlugin.new } let(:plugins_vulns) { MODELS_FIXTURES + '/wp_plugin/vulnerable/plugins_vulns.json' } let(:themes_vulns) { MODELS_FIXTURES + '/wp_theme/vulnerable/themes_vulns.json' } let(:plugins_file) { COLLECTIONS_FIXTURES + '/wp_plugins/detectable/targets.txt' } let(:themes_file) { COLLECTIONS_FIXTURES + '/wp_themes/detectable/targets.txt'} describe '#vuln_plugin_count' do it 'returns the correct number' do expect(stats.vuln_plugin_count(plugins_vulns)).to eq 2 end end describe '#vuln_theme_count' do it 'returns the correct number' do expect(stats.vuln_theme_count(themes_vulns)).to eq 2 end end describe '#plugin_vulns_count' do it 'returns the correct number' do expect(stats.plugin_vulns_count(plugins_vulns)).to eq 3 end end describe '#theme_vulns_count' do it 'returns the correct number' do expect(stats.theme_vulns_count(themes_vulns)).to eq 3 end end describe '#total_plugins' do it 'returns the correct numer' do expect(stats.total_plugins(plugins_file)).to eq 3 end end describe '#total_themes' do it 'returns the correct numer' do expect(stats.total_themes(themes_file)).to eq 3 end end end
2024-02-13T01:26:36.242652
https://example.com/article/8667
Q: How to set my module block to access from anywhere Ok, i have custom module, which works as i wish it to work on a url www.mysite.com/mymodule. Now i want my module to be accessible with a block name from anylayout, also what do i have to do to embed on the CMS pages as well. My working module layout (mymodule.xml) <layout version="1.0"> <default> <reference name="head"> <action method="addItem" ifconfig="...> //js and css added here; </action> </reference> </default> <mymodule_index_index> <reference name="root"> <action method="setTemplate"><template>page/1column.phtml</template></action> </reference> <reference name="content"> <block type="core/template" name="mymodule" template="mycorp/mymodule/default.phtml"></block> </reference> </mymodule_index_index> This is my layout for the module. Now suppose i want to access it on other layout handle suppose here <catalog_category_default>...<reference name="content">HERE</reference>...</catalog_category_default> ? A: you can add your in content just like below. now your block will show before category content. <catalog_category_default><reference name="content"><block type="core/template" name="mymodule" name="mymodule" before="-" template="mycorp/mymodule/default.phtml"></block></reference></catalog_category_default> you can directly call the block in cms {{block type="core/template" template="mycorp/mymodule/default.phtml"}}
2023-11-12T01:26:36.242652
https://example.com/article/5113
My Thoughts on the Election 2012 I’ve always hated election time. All the constant television ads, telemarketing phone calls from political action committees, and all the rest of it. And now that we have social media to vent our opinions on, it just seems to be magnified a thousandfold. I have always mostly stayed out of the fray. I don’t discuss politics (or religion) with clients at my office. If any of them bring up those subjects, if it’s in a general tone, I let it pass. If they start with specifics, I usually say “You’re here to relax, and a debate is not relaxing. Let’s focus on your (neck, back, whatever) instead and see if we can help you feel better.” I haven’t said a word about my choice of candidates until a couple of weeks ago. I have several thousand massage therapists on my social networks, and other friends from all walks of life as well. I have seen some of them nearly working themselves up to a heart attack with their political rants on FB. I no longer see them posting pictures of their kids or their dog or talking about their day; it’s all politics, all the time. Then one day, I thought to myself, I just can’t be quiet any longer. I’ve worried about offending people, but then again, in the past five years, nearly every blog I’ve ever written has offended people. I’ve had people un-friend me on social networks on account of my blog. I’ve ticked off not only individuals, but entire companies and organizations with my revelations and opinions about the politics of massage, and in the general scheme of things, I’m not known for keeping my mouth shut. So in the past couple of weeks, I’ve been letting my opinions be known, and like other people who are doing the same on FB, facilitating some juicy arguments. For every piece of sensationalism regarding either of the candidates that make it to the news, the opposing party always has an answer:”That was taken out of context. This is what he REALLY said.” “He doesn’t really mean that, what he really means is THIS.” “Shame on the biased media that printed THAT.” It just goes on and on. And yes, both parties do it.One is just as guilty as the other. It’s our task, as voters, to muddle through the hyperbole, the half-truths, the outright lies, the edited videotapes, and the photo-shopped pictures in order to make the right choice…for us. And to bear in mind that what’s the right choice for you isn’t the right choice for me.The reason that you vote for someone will be the very same reason that I don’t. On my FB page, my political affiliation since the day I signed on has been “Sick of the whole damn thing.” That’s still pretty accurate. The first time I voted, I voted for Ronald Reagan. In the ensuing years, I have come to believe that his opponent at the time, Jimmy Carter, is one of the most admirable people on the planet. Some years ago, I stopped voting for the party, and started voting for the person. One of the biggest factors at election time is always the economy. Here in my corner of North Carolina, the economy sucks. In fact, here is a photographic essay I did about that. But I can’t blame that on the current administration. It didn’t happen on his watch. Personally, I’m not rich. I’m not poor. I’m just a middle-class, small-business owner trying to survive–and thrive. If I lost my business tomorrow, I don’t think I could blame that on the president, no matter who that is. So for me, the economy is not the deciding factor in who to vote for. The deciding factor, for me, is the equal treatment of all human beings. I don’t believe Mitt Romney views women as equal. I’m busting my butt at my business every day, and I’m not one of those women who usually gets home in time to cook dinner, but how nice of him to be concerned about that. And I’ll state just for the record that I’m heterosexual and been married to the same man for 20 years. Romney’s statements on and treatment of gay people have been atrocious. I cannot remain silent on this issue. Gay people are not more than, or lesser than, me or Romney or anyone else. If YOUR religion teaches that homosexuality is wrong, that’s between you and your higher power. The people of the United States are guaranteed the separation of church and state. The government shouldn’t equate “sin,” or the president and his idea of it, or any political party’s idea of it, and the law. If your religion teaches you to be intolerant of someone because they were born different from you, and to deny them the same rights as other human beings, that’s the reason I don’t belong to your organized religion. That’s my story and I’m sticking to it, and that’s why I support Barack Obama. So you vote as your conscience dictates, and I’ll vote mine. The day after the election is over, we’ll all still be here on the same planet, in spite of our differences. And we can all rest peacefully, secure in the knowledge that whomever wins, the administration that follows them will blame everything that is wrong on them, because that’s the American way. Laura. I always find your comments to be well thought-out and moderate – on all topics. As you know, I don’t live in your country but throughout this American election cmapaign, I have been mystified. I always. thought that there was a separation between church and state, both in your country and mine so I have been horrified by the religious rhetoric in this campaign. This does not happen in my country – Canada. You have just confirmed this for me by saying ” The people of the United States are guaranteed the separation of church and state”. Thank you ! Good to know that is still the official policy in the USA and that some Americans still support this You blog because can. We have brains for critical thinking and creativity, to reason, to care for ourselves and others. You used yours (brain) and you shared the results. While it is true I don’t agreed with everything I have read in past blogs, it does not matter. It is yours and you are sharing it. In this instance you are bang on because people in the country either don’t understand civics and government or forgotten, that we are a diverse country and that is why it was set up to separate state and religion. That is why I count myself as one of the many people who no longer has a religious affiliation because the extent of small mindedness and cruel thoughts towards other spiritual beings. We are spiritual beings first and therefore equal. We are connected and must respect that connection. I am an independent today that not only listens to what others are saying but watch the actions of such. That is why I too, have had to vote for that same person who respects all on a greater level. I’m not sure how I can assist others, touch others, without owning the connection. There are no disconnects. OMG Laura you spoke the words right out of my mouth, heart and mind!!! I am so sick and tired of the strong armed people who do not even consider your feelings, thoughts or your political affiliations. The right out of the box they slamming the one you may (or may not) be in favor of. This happened to me no less than 30 times this political season. Till my husband began standing up for what we feel is right, not just political flack. One day a long time friendly acquaintance boldly began knocking President Obama and he Democrats and then after 5 minutes of ranting he asked me; ” you damned sure are not going to vote for Obama, are you? I thought a second and unlike my normally very careful diplomatic responses to such statements, so as not to ruffle anyones feathers, I responded, “yes I am.” He was taken aback by his gasps and said, “are you kidding me, why would you do such a thing Vivian?” I responded simply by saying, ” TO PISS YOU OFF RJ.” I have never heard from him again to this day. Hello! You have taken my thoughts and put them in word form. Thank you. I’ve been so distressed over the ugliness that is coming out of Christians. I am a God-follower and he lives in my heart and to say we must choose sides and spew hatred is beyond me. Thank you for your bravery. By the way the best paper writing service that I saw: http://speedypaper.net/ Excellent web site! I truly love how it really is simple on my eyes and the data are nicely written. I am wondering how I could be notified whenever a new post has been created. I’ve subscribed to your feed which need to do the trick! Have a nice day!
2024-06-05T01:26:36.242652
https://example.com/article/7898
Capcom showcases Lost Planet 2 Aharon Etengoff, 10th January 2010 Capcom offered TG Daily a sneak peek of the latest Lost Planet 2 build at a special CES 2010 demo held in the swanky Planet Hollywood hotel. The game features 6 new episodes, each with multiple characters and progressive environments that include detailed cities, lush jungles, arid deserts and misty swamps. According to Capcom spokesperson Shawn Baxter, Lost Planet 2 is primarily a "story driven" game. "The story for LP2 was written by Hosokawa San, while the title was produced by Jun Takeuchi of Resident Evil 5 fame and directed by Kenji Oguro. However, I would like to note that the storyboarding and game creation process was very much influenced by fan feedback from the original Lost Planet," Baxter told TG Daily. "For example, we understood that features such as multiplayer capabilities and bigger, tougher bosses were extremely important to LP players. So, Capcom introduced extensive multiplayer options, including an incorporated battle gauge along with other methods - such as resource sharing and precise customization - of tweaking the online experience. "Lost Planet 2 offers four-player co-op action, where gamers team up to battle the giant Akrid. Teamwork is the player's key to victory as the team is dependent on each other to succeed and survive." Baxter also explained that LP2 features an improved AI and upgraded proprietary engine. "The original Lost Planet was powered by our proprietary MT framework 1 engine. The engine was upgraded to 1.5 for Resident Evil 5, while LP2 leverages the latest 2.0 iteration. Capcom dedicated an entire team just to develop and improve the MT engine. We can now render extremely high resolution textures, such as realistic water ripples and grass that accurately reacts to the stomping feet of characters and bosses. "We also created impressive AI partners [or bots]. If gamers don't feel like going online, they can just as easily play LP2 with their virtual teammates (up to 4), which can be inserted into the game at any point." He added that Hosokawa and Takeuchi had paid close attention to detail, thereby creating both a realistic sci-fi and military experience. "Planet 2 offers a large variety of hardware for players to unleash on unsuspecting enemies. Machine guns, shotguns, rocket launchers, lasers, sniper rifles, grenades and a host of other weapons are scattered across the game. Players will also utilize teamwork tactics to fight improved, larger-than-life bosses. "However, Lost Planet 2's biggest weapons come on two legs: the heavily armed and armored robotic Vital Suits return in greater numbers and variety than the first game. There are VS that transform into other vehicles, hold up to three players and some that even take multiple players to operate." Baxter confirmed that Lost Planet 2 will be released sometime in 2010 for the Xbox 360 and Playstation 3 platforms. "Work on the game began in 2007. We are now at the stage of striving to make the game perfect by extensive debugging and tweaking. Capcom wants the title to appeal to a wide audience, so that is why we are planning a simultaneous PS3 and Xbox 360 release. However, as of now, there are no plans for a PC build."
2024-03-11T01:26:36.242652
https://example.com/article/3541
Jair Bolsonaro, the populist former army captain who led a wave of support for the far-Right in Brazil's election, said he would not moderate his hardline views as he began his final push to lead the country. Brazil's political landscape was shaken to the core on Sunday as Mr Bolsonaro took a seemingly unassailable lead in the first round of the presidential ballot while his party Social Liberal Party made huge gains in Congress. In his first interview since the vote, Mr Bolsonaro said he would stick to his to his uncompromising Right-wing messages and not become a "peace and love" candidate just to win more votes. His rival, centre-Left candidate Fernando Haddad, pledged to unite moderates across the country to create a broad centrist coalition to challenge the “anti-democratic threat” of Mr Bolsonaro in Latin America's largest democracy. Mr Bolsonaro secured 46 per cent of the vote, beating Mr Haddad's 29 per cent, but falling just shy of the absolute majority required to win the election in the first round. Meanwhile, Mr Bolsonaro's far-Right Social Liberal Party gained a massive 51 seats in the lower house of Congress, making it the second largest party in the chamber. Presidential frontrunner Jair Bolsonaro, of the Social Liberal Party, flashes victory hand signs to supporters after voting at a polling station in Rio de Janeiro Credit: AP The presidential vote will now go to a October 28 run-off between Mr Bolsonaro, who spent much of the campaign in hospital after being stabbed at a rally, and Mr Haddad, the hand-picked candidate of Luiz Inácio “Lula” Da Silva, the Workers’ Party's imprisoned former president. Mr Bolsonaro said his "discourse will basically stay the same" as he called for the country to "unify" around him, in an interview with the Brazilian radio station Jovem Pan on Monday. Asked if he would shift to the centre to pick up votes in the second round, Mr Bolsonaro replied: “I can’t just suddenly become ‘Little Peace and Love Jair’ … I’ve got to carry on being the same person.” Mr Haddid's call to arms for centrists to help him block the far-Right from the presidential palace has echoes of Emmanuel Macron's second-round surge to keep out the National Front's Marine Le Pen. Story continues But a big enough swing to the Left in the second round of voting appears to be a big ask. Opinion polls published before the first round projected a statistical tie between the two candidates in the second, but with Mr Bolsonaro’s strong showing on Sunday, Mr Haddad is likely to have to take votes from his opponent to have any chance of victory. After a deep recession, sluggish recovery and sweeping corruption scandals, Brazil’s election has been characterised by anti-establishment sentiment as well as a staunch rejection of the Workers’ Party, which has won the last four presidential elections in the country and is mired in bribery scandals. Mr Bolsonaro rocketed to the top of the polls by representing the fiercest opposition to the Workers’ Party, but he also faces high rejection rates due to his track record of sexist, racist and homophobic remarks. Workers' Party presidential candidate Fernando Haddad, accompanied by his wife Ana Estela, arrives at a polling station to cast his vote Credit: AP His proximity to the armed forces is also a concern for many, in a country which lived under a repressive military rule between 1964 and 1985. Mr Bolsonaro has said he intends to fill his cabinet with a new generation of military politicians, many of which were victorious on Sunday. Mr Haddad only became the official Workers’ Party candidate 23 days before the election, after Lula was officially barred from running due to his corruption conviction. Broadcasting live on social media after Sunday evening’s results, Mr Bolsonaro gestured towards voters from Brazil’s northeast region, which is traditionally a Workers’ Party stronghold and was the only part of the country in which the Social Liberal Party candidate did not obtain a majority of votes. Supporters of Brazilian presidential candidate for the Social Liberal Party (PSL) Jair Bolsonaro cheer in front of the residential condominium where he lives, in Barra da Tijuca Credit: AFP In contrast to his usual brash statements, Mr Bolsonaro adopted a more conciliatory tone, declaring that the country “cannot take one more step to the Left, [Brazil’s] path now is to the centre-Right.” Following false reports of vote rigging, Mr Bolsonaro also took the opportunity to call into question the validity of the results, stating that if Brazil’s voting system “had any integrity”, he would have been elected in the first round. The front-runner was previously confident of securing an overall majority in Sunday’s vote, declaring that morning that he would be “on the beach” on 28 October, the day of the decisive second-round runoff. A flag of Fernando Haddad, presidential candidate of Brazil's leftist Worker Party (PT), is seen in a window, in Fortaleza Credit: Reuters Both candidates will embark on a three-week campaign, which began officially on Monday afternoon. There will be a total of six presidential debates, and Mr Bolsonaro and Mr Haddad will each receive equal airtime for televised political broadcasts. However, there were suggestions that Mr Bolsonaro would repeat his snub of TV debates in a sign the populist insurgent will continue his reliance on social media as his preferred platform to reach his loyal supporters.
2023-09-21T01:26:36.242652
https://example.com/article/1952
package com.thinkaurelius.faunus.tinkerpop.gremlin.loaders import com.thinkaurelius.faunus.FaunusPipeline import com.thinkaurelius.faunus.tinkerpop.gremlin.FaunusGremlin /** * @author Marko A. Rodriguez (http://markorodriguez.com) */ class PipeLoader { public static void load() { FaunusPipeline.metaClass.propertyMissing = { final String name -> if (FaunusGremlin.isStep(name)) { return delegate."$name"(); } else { FaunusPipeline.metaClass."$name" = { ((FaunusPipeline) delegate).property(name); } return ((FaunusPipeline) delegate).property(name); } } } }
2024-06-24T01:26:36.242652
https://example.com/article/9787
"I (Jesus) am the good shepherd. The good shepherd lays down his life for the sheep." John 10:11 Friday, June 15, 2007 The Latest News from Gaza I am currently on a trip out of the Middle East, but I’ve just talked to several Palestinian friends in Gaza. The last three days have been extremely difficult, but today (Friday) is quieter. One man from the church was injured when a bomb went off near him, but I didn’t understand that the injury was severe. Most said that as long as they stayed inside they felt safe, but one friend said that bullets came through his window and three people from his neighborhood was killed in the fighting. They were all from one extended family – 2 were Hamas and 1 was Fatah. No one knows what is going to happen next, but they believe that the next few days will be critical. We just got an e-mail from a friend – edited below. If you’d like to know more, I recommend his blog: www.tabulagaza.com “I just wanted to let all know that I am well and safe. I am still with my friends in Gaza City. Hamas now has full control over the Gaza Strip and all parties involved (the PA in the West bank, Israel, the US, EU and UN...) seem to be scrambling to adapt to the new realities. Despite all the uncertainties for the future of Gaza, the up-side of recent events is that internally the situation is safer than it has been in a long time because there are not two governments and not multiple security bodies fighting for control here. My friend who works at a big government hospital here has told me many times that Hamas has always been best at keeping his hospital safe and well controlled.The borders remain closed…, but I feel very safe and can even move around which I am keeping to a minimum.”
2023-09-21T01:26:36.242652
https://example.com/article/7904
Q: Unable to un-line-through a nested element I want to apply a line-through to the contents of <td> tags except for the <a> tag within a tag. The styles I am applying do not seem to work though... any ideas? Here's the example to play with (I'm testing in IE8): http://jsfiddle.net/9qbsq/ Here's what the markup looks like... HTML <table border=1> <tr class="highlight"> <td>hello</td> <td><a href="#">world</a></td> </tr> <tr> <td>foo</td> <td>bar</td> </tr> </table> CSS .highlight td { text-decoration:line-through; } .highlight td a { text-decoration:none; } A: That's how it should work - whilst the a element does have text-decoration: none, the line through is still being set. You could add a span in each td as a workaround, and set the text-decoration: line-through on that span if required. A: You'll have to wrap the text in something like a span, and apply text-decoration: line-through to that: http://jsfiddle.net/9qbsq/1/ That way, you don't have to achieve the impossible task of removing line-through on a child element when a parent element has line-through applied. A: The problem is that text-decoration propagates to descendants: When specified on or propagated to an inline element, it affects all the boxes generated by that element, and is further propagated to any in-flow block-level boxes that split the inline [...] For block containers that establish an inline formatting context, the decorations are propagated to an anonymous inline element that wraps all the in-flow inline-level children of the block container. For all other elements it is propagated to any in-flow children. But there are two exceptions: out-of-flow and atomic inline-level descendants: Note that text decorations are not propagated to floating and absolutely positioned descendants, nor to the contents of atomic inline-level descendants such as inline blocks and inline tables. Therefore, you can use display: inline-block on a child to prevent its parent's text-decoration from affecting it. .highlight > td { text-decoration: line-through; } .highlight > td > a { display: inline-block; /* Remove parent's text-decoration */ text-decoration: none; /* Remove default link underline */ } <table border=1> <tr class="highlight"> <td>hello</td> <td><a href="#">world</a></td> </tr> <tr> <td>foo</td> <td>bar</td> </tr> </table>
2024-02-13T01:26:36.242652
https://example.com/article/5771
import { h } from '../ionic-site-components.core.js'; let CACHED_MAP; function getIconMap() { if (!CACHED_MAP) { const win = window; win.Ionicons = win.Ionicons || {}; CACHED_MAP = win.Ionicons.map = win.Ionicons.map || new Map(); } return CACHED_MAP; } function getName(name, mode, ios, md) { mode = (mode || 'md').toLowerCase(); mode = mode === 'ios' ? 'ios' : 'md'; if (ios && mode === 'ios') { name = ios.toLowerCase(); } else if (md && mode === 'md') { name = md.toLowerCase(); } else if (name) { name = name.toLowerCase(); if (!/^md-|^ios-|^logo-/.test(name)) { name = `${mode}-${name}`; } } if (typeof name !== 'string' || name.trim() === '') { return null; } const invalidChars = name.replace(/[a-z]|-|\d/gi, ''); if (invalidChars !== '') { return null; } return name; } function getSrc(src) { if (typeof src === 'string') { src = src.trim(); if (isSrc(src)) { return src; } } return null; } function isSrc(str) { return str.length > 0 && /(\/|\.)/.test(str); } function isValid(elm) { if (elm.nodeType === 1) { if (elm.nodeName.toLowerCase() === 'script') { return false; } for (let i = 0; i < elm.attributes.length; i++) { const val = elm.attributes[i].value; if (typeof val === 'string' && val.toLowerCase().indexOf('on') === 0) { return false; } } for (let i = 0; i < elm.childNodes.length; i++) { if (!isValid(elm.childNodes[i])) { return false; } } } return true; } class Icon { constructor() { this.isVisible = false; this.lazy = false; } componentWillLoad() { this.waitUntilVisible(this.el, "50px", () => { this.isVisible = true; this.loadIcon(); }); } componentDidUnload() { if (this.io) { this.io.disconnect(); this.io = undefined; } } waitUntilVisible(el, rootMargin, cb) { if (this.lazy && this.win && this.win.IntersectionObserver) { const io = this.io = new this.win.IntersectionObserver((data) => { if (data[0].isIntersecting) { io.disconnect(); this.io = undefined; cb(); } }, { rootMargin }); io.observe(el); } else { cb(); } } loadIcon() { if (!this.isServer && this.isVisible) { const url = this.getUrl(); if (url) { getSvgContent(this.doc, url, "s-ion-icon") .then(svgContent => this.svgContent = svgContent); } else { console.error("icon was not resolved"); } } if (!this.ariaLabel) { const name = getName(this.getName(), this.mode, this.ios, this.md); if (name) { this.ariaLabel = name .replace("ios-", "") .replace("md-", "") .replace(/\-/g, " "); } } } getName() { if (this.name !== undefined) { return this.name; } if (this.icon && !isSrc(this.icon)) { return this.icon; } return undefined; } getUrl() { let url = getSrc(this.src); if (url) { return url; } url = getName(this.getName(), this.mode, this.ios, this.md); if (url) { return this.getNamedUrl(url); } url = getSrc(this.icon); if (url) { return url; } return null; } getNamedUrl(name) { const url = getIconMap().get(name); if (url) { return url; } return `${this.resourcesUrl}svg/${name}.svg`; } hostData() { const flipRtl = this.flipRtl || (this.ariaLabel && this.ariaLabel.indexOf("arrow") > -1 && this.flipRtl !== false); return { "role": "img", class: Object.assign({}, createColorClasses(this.color), { [`icon-${this.size}`]: !!this.size, "flip-rtl": flipRtl && this.doc.dir === "rtl" }) }; } render() { if (!this.isServer && this.svgContent) { return h("div", { class: "icon-inner", innerHTML: this.svgContent }); } return h("div", { class: "icon-inner" }); } static get is() { return "ion-icon"; } static get encapsulation() { return "shadow"; } static get properties() { return { "ariaLabel": { "type": String, "attr": "aria-label", "reflectToAttr": true, "mutable": true }, "color": { "type": String, "attr": "color" }, "doc": { "context": "document" }, "el": { "elementRef": true }, "flipRtl": { "type": Boolean, "attr": "flip-rtl" }, "icon": { "type": String, "attr": "icon", "watchCallbacks": ["loadIcon"] }, "ios": { "type": String, "attr": "ios" }, "isServer": { "context": "isServer" }, "isVisible": { "state": true }, "lazy": { "type": Boolean, "attr": "lazy" }, "md": { "type": String, "attr": "md" }, "mode": { "type": String, "attr": "mode" }, "name": { "type": String, "attr": "name", "watchCallbacks": ["loadIcon"] }, "resourcesUrl": { "context": "resourcesUrl" }, "size": { "type": String, "attr": "size" }, "src": { "type": String, "attr": "src", "watchCallbacks": ["loadIcon"] }, "svgContent": { "state": true }, "win": { "context": "window" } }; } static get style() { return ":host{display:inline-block;width:1em;height:1em;contain:strict;-webkit-box-sizing:content-box!important;box-sizing:content-box!important}.icon-inner,svg{display:block;fill:currentColor;stroke:currentColor;height:100%;width:100%}:host(.flip-rtl) .icon-inner{-webkit-transform:scaleX(-1);transform:scaleX(-1)}:host(.icon-small){font-size:18px!important}:host(.icon-large){font-size:32px!important}:host(.ion-color){color:var(--ion-color-base)!important}:host(.ion-color-primary){--ion-color-base:var(--ion-color-primary,#3880ff)}:host(.ion-color-secondary){--ion-color-base:var(--ion-color-secondary,#0cd1e8)}:host(.ion-color-tertiary){--ion-color-base:var(--ion-color-tertiary,#f4a942)}:host(.ion-color-success){--ion-color-base:var(--ion-color-success,#10dc60)}:host(.ion-color-warning){--ion-color-base:var(--ion-color-warning,#ffce00)}:host(.ion-color-danger){--ion-color-base:var(--ion-color-danger,#f14141)}:host(.ion-color-light){--ion-color-base:var(--ion-color-light,#f4f5f8)}:host(.ion-color-medium){--ion-color-base:var(--ion-color-medium,#989aa2)}:host(.ion-color-dark){--ion-color-base:var(--ion-color-dark,#222428)}"; } } const requests = new Map(); function getSvgContent(doc, url, scopedId) { let req = requests.get(url); if (!req) { req = fetch(url, { cache: "force-cache" }).then(rsp => { if (isStatusValid(rsp.status)) { return rsp.text(); } return Promise.resolve(null); }).then(svgContent => validateContent(doc, svgContent, scopedId)); requests.set(url, req); } return req; } function isStatusValid(status) { return status <= 299; } function validateContent(document, svgContent, scopeId) { if (svgContent) { const frag = document.createDocumentFragment(); const div = document.createElement("div"); div.innerHTML = svgContent; frag.appendChild(div); for (let i = div.childNodes.length - 1; i >= 0; i--) { if (div.childNodes[i].nodeName.toLowerCase() !== "svg") { div.removeChild(div.childNodes[i]); } } const svgElm = div.firstElementChild; if (svgElm && svgElm.nodeName.toLowerCase() === "svg") { if (scopeId) { svgElm.setAttribute("class", scopeId); } if (isValid(svgElm)) { return div.innerHTML; } } } return ""; } function createColorClasses(color) { return (color) ? { "ion-color": true, [`ion-color-${color}`]: true } : null; } export { Icon as IonIcon };
2024-04-27T01:26:36.242652
https://example.com/article/8045
The size of structures and systems that can be used in space is currently limited by the volume and mass of the payloads that can be accommodated within the launch vehicle envelope and its launch weight capacity. Forming structures in a space environment can be desirable. The requirements for building or forming large structures (e.g., hundreds of meters in length) in a space environment can be very different from forming structures in an earth environment because the physical environment on the surface of earth (e.g., gravity, presence of atmosphere and its pressure, solar spectrum, thermal conditions) are different from the orbital space environment (e.g., near-absence of gravity, near-vacuum, certain solar UV bands, thermal cycling, solar wind, trapped and cosmic radiation, and atomic oxygen in low earth orbits).
2023-12-16T01:26:36.242652
https://example.com/article/3850
Share Facebook Twitter LinkedIn Crytek has signed a major licensing deal with a mystery firm as part of its strategy to put the company on a more stable footing following its troubles last year. Last year the firm went through well-documented financial difficulties as it struggled to pay staff in full and seemingly stay afloat. Following a turbulent few months, the company eventually released a statement claiming it had secured extra capital to carry on as a business, though this still came at the expense of its Nottingham studio. Speaking to Develop at GDC, Crytek co-founder Faruk Yerli and head of PR Jens Schaefer said rather than securing funding from an investor as many had believed, the injection of money had come from a new licensing deal that it had been working on for a "long time". Yerli described it as a “huge" deal for Crytek that would put the firm back on track. The studio co-founder was unable to elaborate on specific details, such as whether it was to do with its powerful development tech CryEngine that has powered the Crysis series and Star Citizen, but said he was hopeful of announcing the deal with its mystery new partner soon. “A lot of people are under the impression we had to find a new investor or something, but that wasn’t the case. We made a licensing deal,” said Schaefer. Yerli added: “It was a huge one, probably the biggest one. I can’t say anything more in detail, but hopefully we’ll be able to announce it with the partner soon.” We’ll be publishing the full interview with Yerli on the state of Crytek and its plans for the future later this week.
2023-12-18T01:26:36.242652
https://example.com/article/3095
Diurnal Variability and Emission Pattern of Decamethylcyclopentasiloxane (D5) from the Application of Personal Care Products in Two North American Cities. Decamethylcyclopentasiloxane (D5) is a cyclic volatile methyl siloxane (cVMS) that is widely used in consumer products and commonly observed in urban air. This study quantifies the ambient mixing ratios of D5 from ground sites in two North American cities (Boulder, CO, USA, and Toronto, ON, CA). From these data, we estimate the diurnal emission profile of D5 in Boulder, CO. Ambient mixing ratios were consistent with those measured at other urban locations; however, the diurnal pattern exhibited similarities with those of traffic-related compounds such as benzene. Mobile measurements and vehicle experiments demonstrate that emissions of D5 from personal care products are coincident in time and place with emissions of benzene from motor vehicles. During peak commuter times, the D5/benzene ratio (w/w) is in excess of 0.3, suggesting that the mass emission rate of D5 from personal care product usage is comparable to that of benzene due to traffic. The diurnal emission pattern of D5 is estimated using the measured D5/benzene ratio and inventory estimates of benzene emission rates in Boulder. The hourly D5 emission rate is observed to peak between 6:00 and 7:00 AM and subsequently follow an exponential decay with a time constant of 9.2 h. This profile could be used by models to constrain temporal emission patterns of personal care products.
2024-02-25T01:26:36.242652
https://example.com/article/1323
LPS-induced up-regulation of TGF-beta receptor 1 is associated with TNF-alpha expression in human monocyte-derived macrophages. The immunosuppressive activity of TGF-beta-mediated signaling is well documented, but in contrast, its ability to promote proinflammatory responses is less clear. In this study, we report that blockade of TGF-beta signaling by a specific inhibitor of the TGF-beta receptor I [activin receptor-like kinase 5 (ALK5)] SB431542 significantly reduces the production of TNF-alpha, a key proinflammatory cytokine, by LPS-stimulated human monocyte-derived macrophages. ALK5 protein was only detectable after LPS stimulation, and the failure of treatment with SB431542 to alter TNF-alpha mRNA expression indicates that regulation is post-transcriptional. The additive effect of blocking TGF-beta and p38 MAPK signaling on reducing TNF-alpha but not IL-6 production suggests that there is selectivity in pathway signaling. SB431542 had similar inhibitory effects on TNF-alpha production by human monocytes and endothelial cells as well as macrophages. Furthermore, treatment with SB431542 reduced plasma TNF-alpha levels and tissue damage and thereby, prevented the lethal effects of LPS in a mouse model of septic shock. Our data demonstrate a direct effect of TGF-beta signaling via ALK5 on the regulation of TNF-alpha synthesis.
2023-08-25T01:26:36.242652
https://example.com/article/3150
Q: Removing dynamically added controls from WinForm I have a GroupBox in which I dynamically add controls into it. The controls I add are of two types DevExpress.XtraEditors.TextEdit and Windows.Forms.Label I am trying to remove these controls using the following foreach (Control control in salesBox.Controls) { control.Dispose(); salesBox.Controls.Remove(control); } This is correctly removing the TextEdit controls but not the Label controls. The loop is not iterating through the Label controls. A: It doesn't work because you are modifying the collection you are iterating. Calling the Dispose() method also removes a control from the parent's Control collection. The side-effect is that you'll only dispose the even numbered controls. Either of these two loops will get the job done: while (salesBox.Controls.Count > 0) salesBox.Controls[0].Dispose(); for (int ix = salesBox.Controls.Count-1; ix >= 0; ix---) salesBox.Controls[ix].Dispose(); Or keep them on a panel and dispose the panel. A: The easiest way to remove all controls from a controls collection is to call its Clear method: salesBox.Controls.Clear(); Modifying collections can invalidate enumerators and yield unpredictable results or even throw an InvalidOperationException, depending on the collection type (see the "Remarks" section in IEnumerable.GetEnumerator Method on MSDN). Since foreach uses an enumerator you should not alter the collection it is iterating. Use a for statement, if you have to delete selectively and also iterate backwards, in order not to get wrong index values after removing items: for (int i = salesBox.Controls.Count - 1; i >= 0; i--) { Control c = salesBox.Controls[i]; if (c is TextEdit || c is Label) { salesBox.Controls.RemoveAt(i); } }
2024-03-02T01:26:36.242652
https://example.com/article/5775
Chemical and biochemical studies in human fetuses affected with Niemann-Pick disease type A. Chemical and biochemical studies were performed on two unrelated fetuses affected with Niemann-Pick disease type A, following abortion at about the 19th week of gestation. Abortion was performed as a consequence of previous findings, in amniotic fluid cell cultures, that sphingomyelinase activity was completely absent. Phospholipid analyses of various organs of the fetuses revealed an excess of sphingomyelin in all viscera as compared to control nonaffected fetuses. Spleen and liver were the organs mostly affected. Interestingly enough considerable accumulation of sphingomyelin was found in the placenta. The brain was the only organ in which sphingomyelin storage could not be proved. In addition to sphingomyelin a slight accumulation of cholesterol was noticed. Deficiency of sphingomyelinase activity measured at pH 5.0 was the general characteristics of the affected tissues. It could be concluded that the accumulation of sphingomyelin in various organs throughout the body of fetuses affected with Niemann-Pick disease, was suggestive of the essential role of the enzyme sphingomyelinase and its biochemical maturation, even during the early stages of gestation.
2023-09-23T01:26:36.242652
https://example.com/article/8051
// Copyright John Maddock 2006, 2007. // Copyright Paul A. Bristow 2007. // Use, modification and distribution are subject to the // Boost Software License, Version 1.0. (See accompanying file // LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt) #ifndef BOOST_STATS_CAUCHY_HPP #define BOOST_STATS_CAUCHY_HPP #ifdef _MSC_VER #pragma warning(push) #pragma warning(disable : 4127) // conditional expression is constant #endif #include <boost/math/distributions/fwd.hpp> #include <boost/math/constants/constants.hpp> #include <boost/math/distributions/complement.hpp> #include <boost/math/distributions/detail/common_error_handling.hpp> #include <boost/config/no_tr1/cmath.hpp> #include <utility> namespace boost{ namespace math { template <class RealType, class Policy> class cauchy_distribution; namespace detail { template <class RealType, class Policy> RealType cdf_imp(const cauchy_distribution<RealType, Policy>& dist, const RealType& x, bool complement) { // // This calculates the cdf of the Cauchy distribution and/or its complement. // // The usual formula for the Cauchy cdf is: // // cdf = 0.5 + atan(x)/pi // // But that suffers from cancellation error as x -> -INF. // // Recall that for x < 0: // // atan(x) = -pi/2 - atan(1/x) // // Substituting into the above we get: // // CDF = -atan(1/x) ; x < 0 // // So the proceedure is to calculate the cdf for -fabs(x) // using the above formula, and then subtract from 1 when required // to get the result. // BOOST_MATH_STD_USING // for ADL of std functions static const char* function = "boost::math::cdf(cauchy<%1%>&, %1%)"; RealType result = 0; RealType location = dist.location(); RealType scale = dist.scale(); if(false == detail::check_location(function, location, &result, Policy())) { return result; } if(false == detail::check_scale(function, scale, &result, Policy())) { return result; } if(std::numeric_limits<RealType>::has_infinity && x == std::numeric_limits<RealType>::infinity()) { // cdf +infinity is unity. return static_cast<RealType>((complement) ? 0 : 1); } if(std::numeric_limits<RealType>::has_infinity && x == -std::numeric_limits<RealType>::infinity()) { // cdf -infinity is zero. return static_cast<RealType>((complement) ? 1 : 0); } if(false == detail::check_x(function, x, &result, Policy())) { // Catches x == NaN return result; } RealType mx = -fabs((x - location) / scale); // scale is > 0 if(mx > -tools::epsilon<RealType>() / 8) { // special case first: x extremely close to location. return 0.5; } result = -atan(1 / mx) / constants::pi<RealType>(); return (((x > location) != complement) ? 1 - result : result); } // cdf template <class RealType, class Policy> RealType quantile_imp( const cauchy_distribution<RealType, Policy>& dist, const RealType& p, bool complement) { // This routine implements the quantile for the Cauchy distribution, // the value p may be the probability, or its complement if complement=true. // // The procedure first performs argument reduction on p to avoid error // when calculating the tangent, then calulates the distance from the // mid-point of the distribution. This is either added or subtracted // from the location parameter depending on whether `complement` is true. // static const char* function = "boost::math::quantile(cauchy<%1%>&, %1%)"; BOOST_MATH_STD_USING // for ADL of std functions RealType result = 0; RealType location = dist.location(); RealType scale = dist.scale(); if(false == detail::check_location(function, location, &result, Policy())) { return result; } if(false == detail::check_scale(function, scale, &result, Policy())) { return result; } if(false == detail::check_probability(function, p, &result, Policy())) { return result; } // Special cases: if(p == 1) { return (complement ? -1 : 1) * policies::raise_overflow_error<RealType>(function, 0, Policy()); } if(p == 0) { return (complement ? 1 : -1) * policies::raise_overflow_error<RealType>(function, 0, Policy()); } RealType P = p - floor(p); // argument reduction of p: if(P > 0.5) { P = P - 1; } if(P == 0.5) // special case: { return location; } result = -scale / tan(constants::pi<RealType>() * P); return complement ? RealType(location - result) : RealType(location + result); } // quantile } // namespace detail template <class RealType = double, class Policy = policies::policy<> > class cauchy_distribution { public: typedef RealType value_type; typedef Policy policy_type; cauchy_distribution(RealType location = 0, RealType scale = 1) : m_a(location), m_hg(scale) { static const char* function = "boost::math::cauchy_distribution<%1%>::cauchy_distribution"; RealType result; detail::check_location(function, location, &result, Policy()); detail::check_scale(function, scale, &result, Policy()); } // cauchy_distribution RealType location()const { return m_a; } RealType scale()const { return m_hg; } private: RealType m_a; // The location, this is the median of the distribution. RealType m_hg; // The scale )or shape), this is the half width at half height. }; typedef cauchy_distribution<double> cauchy; template <class RealType, class Policy> inline const std::pair<RealType, RealType> range(const cauchy_distribution<RealType, Policy>&) { // Range of permissible values for random variable x. using boost::math::tools::max_value; return std::pair<RealType, RealType>(-max_value<RealType>(), max_value<RealType>()); // - to + infinity. } template <class RealType, class Policy> inline const std::pair<RealType, RealType> support(const cauchy_distribution<RealType, Policy>& ) { // Range of supported values for random variable x. // This is range where cdf rises from 0 to 1, and outside it, the pdf is zero. return std::pair<RealType, RealType>(-tools::max_value<RealType>(), tools::max_value<RealType>()); // - to + infinity. } template <class RealType, class Policy> inline RealType pdf(const cauchy_distribution<RealType, Policy>& dist, const RealType& x) { BOOST_MATH_STD_USING // for ADL of std functions static const char* function = "boost::math::pdf(cauchy<%1%>&, %1%)"; RealType result = 0; RealType location = dist.location(); RealType scale = dist.scale(); if(false == detail::check_scale("boost::math::pdf(cauchy<%1%>&, %1%)", scale, &result, Policy())) { return result; } if(false == detail::check_location("boost::math::pdf(cauchy<%1%>&, %1%)", location, &result, Policy())) { return result; } if((boost::math::isinf)(x)) { return 0; // pdf + and - infinity is zero. } // These produce MSVC 4127 warnings, so the above used instead. //if(std::numeric_limits<RealType>::has_infinity && abs(x) == std::numeric_limits<RealType>::infinity()) //{ // pdf + and - infinity is zero. // return 0; //} if(false == detail::check_x(function, x, &result, Policy())) { // Catches x = NaN return result; } RealType xs = (x - location) / scale; result = 1 / (constants::pi<RealType>() * scale * (1 + xs * xs)); return result; } // pdf template <class RealType, class Policy> inline RealType cdf(const cauchy_distribution<RealType, Policy>& dist, const RealType& x) { return detail::cdf_imp(dist, x, false); } // cdf template <class RealType, class Policy> inline RealType quantile(const cauchy_distribution<RealType, Policy>& dist, const RealType& p) { return detail::quantile_imp(dist, p, false); } // quantile template <class RealType, class Policy> inline RealType cdf(const complemented2_type<cauchy_distribution<RealType, Policy>, RealType>& c) { return detail::cdf_imp(c.dist, c.param, true); } // cdf complement template <class RealType, class Policy> inline RealType quantile(const complemented2_type<cauchy_distribution<RealType, Policy>, RealType>& c) { return detail::quantile_imp(c.dist, c.param, true); } // quantile complement template <class RealType, class Policy> inline RealType mean(const cauchy_distribution<RealType, Policy>&) { // There is no mean: typedef typename Policy::assert_undefined_type assert_type; BOOST_STATIC_ASSERT(assert_type::value == 0); return policies::raise_domain_error<RealType>( "boost::math::mean(cauchy<%1%>&)", "The Cauchy distribution does not have a mean: " "the only possible return value is %1%.", std::numeric_limits<RealType>::quiet_NaN(), Policy()); } template <class RealType, class Policy> inline RealType variance(const cauchy_distribution<RealType, Policy>& /*dist*/) { // There is no variance: typedef typename Policy::assert_undefined_type assert_type; BOOST_STATIC_ASSERT(assert_type::value == 0); return policies::raise_domain_error<RealType>( "boost::math::variance(cauchy<%1%>&)", "The Cauchy distribution does not have a variance: " "the only possible return value is %1%.", std::numeric_limits<RealType>::quiet_NaN(), Policy()); } template <class RealType, class Policy> inline RealType mode(const cauchy_distribution<RealType, Policy>& dist) { return dist.location(); } template <class RealType, class Policy> inline RealType median(const cauchy_distribution<RealType, Policy>& dist) { return dist.location(); } template <class RealType, class Policy> inline RealType skewness(const cauchy_distribution<RealType, Policy>& /*dist*/) { // There is no skewness: typedef typename Policy::assert_undefined_type assert_type; BOOST_STATIC_ASSERT(assert_type::value == 0); return policies::raise_domain_error<RealType>( "boost::math::skewness(cauchy<%1%>&)", "The Cauchy distribution does not have a skewness: " "the only possible return value is %1%.", std::numeric_limits<RealType>::quiet_NaN(), Policy()); // infinity? } template <class RealType, class Policy> inline RealType kurtosis(const cauchy_distribution<RealType, Policy>& /*dist*/) { // There is no kurtosis: typedef typename Policy::assert_undefined_type assert_type; BOOST_STATIC_ASSERT(assert_type::value == 0); return policies::raise_domain_error<RealType>( "boost::math::kurtosis(cauchy<%1%>&)", "The Cauchy distribution does not have a kurtosis: " "the only possible return value is %1%.", std::numeric_limits<RealType>::quiet_NaN(), Policy()); } template <class RealType, class Policy> inline RealType kurtosis_excess(const cauchy_distribution<RealType, Policy>& /*dist*/) { // There is no kurtosis excess: typedef typename Policy::assert_undefined_type assert_type; BOOST_STATIC_ASSERT(assert_type::value == 0); return policies::raise_domain_error<RealType>( "boost::math::kurtosis_excess(cauchy<%1%>&)", "The Cauchy distribution does not have a kurtosis: " "the only possible return value is %1%.", std::numeric_limits<RealType>::quiet_NaN(), Policy()); } } // namespace math } // namespace boost #ifdef _MSC_VER #pragma warning(pop) #endif // This include must be at the end, *after* the accessors // for this distribution have been defined, in order to // keep compilers that support two-phase lookup happy. #include <boost/math/distributions/detail/derived_accessors.hpp> #endif // BOOST_STATS_CAUCHY_HPP
2024-03-26T01:26:36.242652
https://example.com/article/1094
Divalent cations in tears, and their influence on tear film stability in humans and rabbits. Reduced tear film stability is reported to contribute to dry eye. Rabbits are known to have a more stable tear film than humans. Thus, we sought to examine the tears of rabbits and humans for metal cations, and to test how they influence tear film stability. Tears were collected from 10 healthy humans and 6 rabbits. Tear osmolality was measured by vapor pressure osmometer, and metals analyzed using inductively coupled plasma (ICP) mass spectrometry or ICP atomic emission spectroscopy. The influence of divalent cations on tears was analyzed by measuring surface tension using the Langmuir trough in vitro, using different concentrations of cations in the subphase, and grading the tear break-up in rabbits in vivo after instillation of chelating agents. Rabbit tears had a higher osmolality compared to humans. Major metals did not differ between species; however, rabbits had higher levels of Mg(2+) (1.13 vs. 0.39 mM) and Ca(2+) (0.75 vs. 0.36 mM). In rabbit tears in vitro, diminishing divalent cations resulted in a decrease in the maximum surface pressure from 37 to 30 mN/m. In vivo, an increase in the amount of tear film that was broken-up was found. In contrast, when changing divalent cation concentrations in human tears, the maximum surface pressure remained at 26 mN/m. The normal osmolality of rabbit tears is significantly higher than that in humans. While divalent cations had little influence on human tears, they appear to have an important role in maintaining tear film stability in rabbits.
2024-07-30T01:26:36.242652
https://example.com/article/1215
Q: preg replace doesn't replace right adds an extra backslash Good day everyone. I have the following two functions one for adding a rule and the other one for matching that rule. The problem is that when i use two params one of them doesn't get changed and i don't understand why it doesn't work. any help is apreciated. public function add($name, $pattern, $controller, $action = null, array $params = array()) { if(!isset($this->routeCollection[$name])) $this->routeCollection[$name] = array( 'pattern' => $pattern, 'controller' => $controller, 'action' => $action, 'params' => $params, ); } public function findMatch($url) { foreach ($this->routeCollection as $routeMap) { $this->regex = $this->buildRegex($routeMap['pattern'], $routeMap['params']); // Let's test the route. if (preg_match($this->regex, $url)) { return array('controller' => $routeMap['controller'], 'action' => $routeMap['action']); } } return array('controller' => $this->routeCollection['404']['controller'], 'action' => $this->routeCollection['404']['action']); } public function buildRegex($uri, array $params) { // Find {params} in URI if (preg_match_all('/\{(?:[^\}]+)\}/', $uri, $this->matches, PREG_SET_ORDER)) { foreach ($this->matches as $isMatch) { // Swap {param} with a placeholder $this->uri = str_replace($isMatch, "%s", $uri); } // Build final Regex $this->finalRegex = '/^' . preg_quote($this->uri, '/') . '$/'; $this->finalRegex = vsprintf($this->finalRegex, $params); var_dump($this->finalRegex); } else { $this->finalRegex = '/^(' . preg_quote($uri, '/') . ')$/'; $this->finalRegex = str_replace(array('\.', '\-'), array('.', '-'), $this->finalRegex); } return $this->finalRegex; } // Usage: $routeCollection->add('CatalogByCategory', '/catalog/category/{slugLink}', 'Ex:Controller:Catalog', 'ViewByCategory', array('slugLink' => ('[a-z0-9]+(?:-[a-z0-9]+)*') )); $routeCollection->add('ListCatalogPageByCategory', '/catalog/category/{sluglinks}/{pageNumber}', 'Ex:Controller:Catalog', 'ListCatalog', array('sluglinks' => ('[a-z0-9]+(?:-[a-z0-9]+)*'), 'pageNumber' => ('[1-9][0-9]*') )); // From Dump: string '/^\/catalog\/category\/[a-z0-9]+(?:-[a-z0-9]+)*$/' (length=49) string '/^\/catalog\/category\/\{sluglinks\}\/[a-z0-9]+(?:-[a-z0-9]+)*$/' (length=64) A: foreach ($this->matches as $isMatch) { // Swap {param} with a placeholder $this->uri = str_replace($isMatch, "%s", $uri); } You keep overwriting $this->uri with the value of $uri being run through a replacement - in this case, it's getting set with {sluglinks} being replaced, then set again with only {pageNumber} being replaced. You should use $this->uri = $uri;, and then always use $this->uri.
2024-03-25T01:26:36.242652
https://example.com/article/3737
Q: How to make an autocommand run for closing a window? There is a (moderately complicated) way to make an autocommand that only runs when windows are created, but I want to have one for when they are removed as well. The reason is that whenever a window is created or removed I'd like to run a function I wrote which calculates window heights and re-assigns them into the open windows. It's mainly about efficient allocation of screen space (tiling). When you remove a window, or add one, any small files may get stretched out into the average height and then it is a pain to shrink them down again. I don't know that there's a way to embed on this site, so here is gfy link. https://gfycat.com/UnrulyLikelyDrever The 9 line file at the bottom ends up taking up half the space once the middle window is closed. My routine automates it a bit so it works sort of like a tiling window system, but since vimscript is missing some API that would make things nicer it is somewhat slow to run (as I have to use wincmd j/k to move around a bunch inside the function). Therefore I'd like to trigger this only when necessary, which means only when creating or removing entire windows (not upon entry to or exiting focus from them). Indeed the linked solution for a window open autocommand doesn't even work properly, as I'd really need to have it run after the buffer has loaded (to know the number of lines in the buffer), but I am willing to accept a half-baked solution at this stage. So the point is I need some autocommands that effectively let me find out when window reflow has occurred. Since there's clearly no WindowReflowed autocommand for this I am looking for some hacks. A: You could listen to WinEnter and then compare winnr('$') result to the previous one you could have memorized for the current tab. If the number increases, it means "new window", a decrease will mean "a window has been closed"
2024-05-24T01:26:36.242652
https://example.com/article/4568
This invention relates to an inhibitor of heart muscule cell apoptosis, and a prophylactic and/or therapeutic agent for heart diseases. In recent years, it has been revealed that apoptosis is closely invloved in onset or progress of various heart diseases (R. Sanders Williams, The New England Journal of Medicine, vol. 341, p. 759, 1999). Apoptosis is closely invloved in morphognesis and histogenesis in the development process, maintenance of homeostasis, and bio-defence, and it is cell death having an important role in maintaining individual lifes. When the death process regulated by genes is congenitally or postnatally hindered, apoptosis is excessively induced or inhibited to cause functional disorders in various organs, and thus diseases (Shin Yonehara, Saishin Igaku, vol. 54, p. 825, 1999). In a mammalian heart, it is considered that heart muscle cells are finally differentiated cells, and lose proliferation activity. Accordingly, when heart muscle cells disappear by apoptosis, the heart contraction should be maintained only by remaining cells. Disappearance of heart muscle cells beyond threshold necessary for maintaining the heart contraction would result in abnormal heart functions and diseases. Apoptosis of heart muscle cells is actually observed in various animal models with cardiac insufficiency or in human patients with cardiac insufficiency, and it is noted that disappearance or lack of heart muscle cells by apoptosis may be involved in onset and progress of cardiac insufficiency (Narula, J. et al., The New England Journal of Medicine, vol. 335, p. 1182, 1996). It is further recognized that in heart muscle cells of human patients with cardiac insufficiency, an apoptosis-inhibitory factor Bcl-2 is expressed in excess, which is a possible compensation mechanism for cardiac insufficiency (Olivetti, G. et al., The New England Journal of Medicine, vol. 336, p. 1131, 1997); that serum levels of soluble Fas (sFas has an inhibitory activity on apoptosis) which lacks a membrane penetration domain in the Fas receptor known as an apoptosis inducing receptor, are increased significantly in proportion to severeness in NYHA class (New York Heart Association Functional Class) but independently of fundamental diseases, and thus an increase in serum levels of sFas is considered to be a compensatory mechanism to inhibit promotion of apoptosis in cardiac insufficiency (Nishigaki, K. et al., Journal of the American College of Cardiology, vol. 29, p. 1214, 1997); and that in the heart with dilation-type myocardiosis, deoxyribonuclease I (DNase I) considered as a indicator of apoptosis is increased 7-fold or more than in healthy persons (Yao, M. et al., Journal of Molecular and Cell Cardiology, vol. 28, p. 95, 1996). Recent important findings related to protection of heart muscle cells include those from studies on mice with deficiency in gp130 specifically in the ventricle. As a result of analysis of the mice, it is revealed that the signal from gp130-mediated receptors (gp130 signal) play an important role in protecting the heart functions, and these studies draw attention as a new development of heart muscle cell-protective signals leading to therapy of heart diseases (Hirota, et al., Cell, vol. 97, p. 189, 1999, and Senior, K. Molecular Medicine Today, vol. 5, p. 283, 1999). Therefore, it is highly possible that a compound having an inhibitory action on apoptosis of heart muscle cells or an enhancing action on heart muscle cell-protective signals may serves as a new preventive and/or remedy for heart diseases. When considered at the level of internal organs, the functions of the heart muscle are lowered in human cardiac diseases, and insufficient heart muscle contraction often endangers the maintenance of the life. Abnormalities, for example, myocardial disorders, abnormal heart pumping, pressure burden due to high blood pressure, volume burden due to acute nephritis, and insufficient blood pumping caused by these abnormalities lead to the onset of cardiac insufficiency. Against these abnormalities, the sympathetic nervous system, the internal secretion system, and the like work together to start a compensating mechanism, resulting in cardiac hypertrophy accompanied by hypertrophy of myocardial cells. However, when these abnormalities occur alone or in combination persistently and chronically, the hypertrophied myocardial cells are not sufficiently supplied with blood, and thus the myocardial cells disappear due to apoptosis, etc. As a result, the compensating mechanism fails to work, leading to a cardiac insufficiency syndrome accompanied by myocardial disorders such as insufficient heart contraction, a reduction in pumped blood, circulatory disorders in internal organs, venostasis, and body fluid retention. To treat these, amelioration of myocardial cell disorders, enhancement of the heart-protecting action, recovery from the reduced cardiac functions due to insufficient heart contraction, suppression of causative breakdown of compensation in vivo, or amelioration of the excessive compensation is necessary. Incidentally, 2-substituted-4H-1,3-benzothiazin-4-one compounds such as 2-(2-pyridyl)-1,3-benzothiazin-4-one, 2-(3-pyridyl)-1,3-benzothiazin-4-one and 2-(4-pyridyl)-1,3-benzothiazin-4-one are described in Chemical Abstracts, vol.51, 17927g (1957), but any specific action thereof is not described. 2-ethoxycarbonylmethyl-1,3-benzothiazin-4-one is described in Heterocycles, vol.22, 1677-1682 (1984), but any action thereof is not described. At present, the cardiac insufficiency syndrome is treated by using cardiotonic glycosides such as digoxin, sympathetic agents such as dobutamine, phosphodiesterase inhibitors such as amrinone, vasodilators such as hydralazine, calcium antagonist, angiotensin converting enzyme inhibitor and angiotensin receptor antagonist, and dilated cardiomyopathy is treated by xcex2-blockers, etc. But for therapeutic methods for suppressing the excessive compensation and for suppressing breakdown of compensation including apoptosis, there are no reported pharmaceuticals entirely satisfactory in clinical use. The present inventors found for the first time that a variety of 2-substituted-4H-1,3-benzothiazin-4-one compounds have an inhibitory action on heart muscle cell apoptosis. As a result of further investigation based on these findings, the present inventors achieved the present invention. Thus, the present invention provides: (1) An inhibitor of heart muscle cell apoptosis comprising a compound represented by the following formula: wherein R represents an optionally substituted hydrocarbon group, an optionally substituted aromatic heterocyclic group, or an optionally substituted amino group; or a salt thereof (referred to as Compound (I)); (2) The inhibitor of heart muscle cell apoptosis as described in (1), which is a prophylactic and/or therapeutic agent for heart diseases; (3) The inhibitor of heart muscle cell apoptosis as described in (1), which is an enhancer of gp130 signal; (4) The inhibitor of heart muscle cell apoptosis as described in (1), which is an enhancer of heart muscle cell protection signal; (5) A pharmaceutical composition comprising Compound (I); (6) A method for inhibiting heart muscle cell apoptosis in a mammal, comprising administrating an effective amount of Compound (I) to said mammal; (7) Compound (I) which is used for inhibition of heart muscle cell apoptosis; (8) Use of Compound (I) for production of an inhibitor of heart muscle cell apoptosis.
2024-02-24T01:26:36.242652
https://example.com/article/2167
Q: How to Loop through multi dimensional array of $_FILES array I am using dropzone to get the files uploaded to my Folder. Successfully getting the array of files. foreach($_FILES as $file) { print_r($file); } Current Output: Array ( [name] => Array ( [0] => Image.PNG [1] => sadssadsa.PNG ) [type] => Array ( [0] => image/png [1] => image/png ) [tmp_name] => Array ( [0] => C:\Users\CH MANAN\AppData\Local\Temp\php48B6.tmp [1] => C:\Users\CH MANAN\AppData\Local\Temp\php48B7.tmp ) [error] => Array ( [0] => 0 [1] => 0 ) [size] => Array ( [0] => 291647 [1] => 112790 ) ) Expected output: array ( [0] => array ( [name] => Image.PNG [type] => image/png [tmp_name] => C:\Users\CH MANAN\AppData\Local\Temp\php48B6.tmp [error] => 0 [size] => 291647 ) [1] => array ( [name] => sadssadsa.PNG [type] => image/png [tmp_name] => C:\Users\CH MANAN\AppData\Local\Temp\php48B7.tmp [error] => 0 [size] => 112790 ) ) Tried various loops in the parent loop but not getting the expected results. Someone can help here. A: You can use this: $keys = array_keys($_FILES); // get all the fields name $res = array_map(null, ...array_values($_FILES)); // group the array by each file $res = array_map(function ($e) use ($keys) {return array_combine($keys, $e);}, $res); // insert the field name to result array Documentation: array-keys, array-map and array-combine Live example: 3v4l
2024-05-05T01:26:36.242652
https://example.com/article/6098
Q: ActionBarSherlock Omnibus v3.8 I tried to import ActionBarSherlock in sub folder external of omnibus v3.8 but I got so many errors (more than 150). Most of them are about override a super class method. If I remove @Override annotation at the error line, the error is gone. Should I remove it one by one (more than 150 error) ? Is there any shortcut way to remove all errors? The release of ADT plugin : 18.0.0 JDK : 1.7 Build target : 15 Thanks A: The source code that you imported is from http://github.com/commonsware/cw-omnibus. If you read that Web page, you will find instructions for use of that code. If you read those instructions, you will find that: You need to have your Java compliance level set to 1.6 and You may need to adjust the ActionBarSherlock project to build with a build target that you have installed, or to install API Level 14 (which, IIRC, is what ActionBarSherlock wants)
2024-07-18T01:26:36.242652
https://example.com/article/2666
Salsa with tortilla chips is one of my favorite snacks, ever. I’ve been tasting lots of creative salsa variations lately, so here’s another one to add to the mix. Carrot works surprisingly well as a stand-in for tomato in salsa, and strikes me as a great any-time-of-year vegetable so you don’t have to settle for mealy, flavorless out of season tomatoes from who knows where. This is a super easy recipe thanks to the magic of the food processor. Makes a pretty and unique appetizer. Also a healthy snack, or a condiment with a Mexican meal. Who doesn’t need a burst of bright orange in their life? This recipe makes enough for 2 people, but can easily be scaled up as needed. Ingredients: 3-4 carrots, preferably locally grown (definite difference in taste) 1/2 of a small purple onion (about 1/4 cup finely chopped) 1/4 cup chopped cilantro leaves juice of 1/2 lime 1 tsp sea salt Trim the carrots and cut into large chunks. Chop finely in food processor. Next, add the onions, cilantro, sea salt and lime juice. Pulse until you get a nice uniform texture (but don’t liquefy). Note: if you don’t have a food processor, no problem: I would recommend grating the carrot and finely chopping the onion and cilantro, and then mixing in a bowl. Serve with tortilla chips (blue corn chips look especially nice in contrast to the bright orange carrot color). Stores in fridge for 1-2 days.
2024-02-19T01:26:36.242652
https://example.com/article/2181
Dodgers right fielder Yasiel Puig celebrates as he tracks the flight of his RBI double during the fifth inning of Game 1 of the NLCS on Saturday night at Dodger Stadium. Puig added a home run in the seventh inning of a 5-2 victory. (Photo by John McCoy, Los Angeles Daily News/SCNG) The crowd cheers in the 5th inning as Los Angeles Dodgers right fielder Yasiel Puig #66 hits a run scoring double. The Dodgers hosted the Chicago Cubs in the first game of the National League Championship series at Dodger Stadium. Los Angeles, CA 10/14/2017 (Photo by John McCoy, Los Angeles Daily News/SCNG) Los Angeles Dodgers center fielder Chris Taylor #3 hits a single home run in the 6th inning. The Dodgers hosted the Chicago Cubs in the first game of the National League Championship series at Dodger Stadium. Los Angeles, CA 10/14/2017 (Photo by John McCoy, Los Angeles Daily News/SCNG) Sound The gallery will resume inseconds Los Angeles Dodgers second baseman Logan Forsythe #11 is caught in a double play by Chicago Cubs second baseman Javier Baez #9 in the 2nd inning. The Dodgers hosted the Chicago Cubs in the first game of the National League Championship series at Dodger Stadium. Los Angeles, CA 10/14/2017 (Photo by John McCoy, Los Angeles Daily News/SCNG) Chicago Cubs right fielder Jason Heyward #22 looks down as Chicago Cubs center fielder Albert Almora Jr. #5 rounds 2nd base after hitting a 2 run homer in the 4th inning. The Dodgers hosted the Chicago Cubs in the first game of the National League Championship series at Dodger Stadium. Los Angeles, CA 10/14/2017 (Photo by John McCoy, Los Angeles Daily News/SCNG) During a pre-game press conference, Corey Seager said he will not be on the roster for the NLCS, and will not travel to Chicago. The Dodgers hosted the Chicago Cubs in the first game of the National League Championship series at Dodger Stadium. Los Angeles, CA 10/14/2017 (Photo by John McCoy, Los Angeles Daily News/SCNG) Chicago Cubs center fielder Albert Almora Jr. #5 hits a 2 run homer in the 4th inning. The Dodgers hosted the Chicago Cubs in the first game of the National League Championship series at Dodger Stadium. Los Angeles, CA 10/14/2017 (Photo by John McCoy, Los Angeles Daily News/SCNG) Dodgers take batting practice before facing the Chicago Cubs in the first game of the National League Championship series at Dodger Stadium. Los Angeles, CA 10/14/2017 (Photo by John McCoy, Los Angeles Daily News/SCNG) The Dodgers take batting practice before they faced the Chicago Cubs in the first game of the National League Championship series at Dodger Stadium. Los Angeles, CA 10/14/2017 (Photo by John McCoy, Los Angeles Daily News/SCNG) Los Angeles Dodgers right fielder Yasiel Puig #66 sticks his tounge out after catching a ball hit by Chicago Cubs first baseman Anthony Rizzo #44 in the 3rd inning. The Dodgers hosted the Chicago Cubs in the first game of the National League Championship series at Dodger Stadium. Los Angeles, CA 10/14/2017 (Photo by John McCoy, Los Angeles Daily News/SCNG) Los Angeles Dodgers starting pitcher Clayton Kershaw #22 stretches against the center field wall before the game. The Dodgers hosted the Chicago Cubs in the first game of the National League Championship series at Dodger Stadium. Los Angeles, CA 10/14/2017 (Photo by John McCoy, Los Angeles Daily News/SCNG) Los Angeles Dodgers center fielder Enrique Hernandez #14 motiones to the sky after warming up before the game. The Dodgers hosted the Chicago Cubs in the first game of the National League Championship series at Dodger Stadium. Los Angeles, CA 10/14/2017 (Photo by John McCoy, Los Angeles Daily News/SCNG) Dodgers stand during the National Anthem. The Dodgers hosted the Chicago Cubs in the first game of the National League Championship series at Dodger Stadium. Los Angeles, CA 10/14/2017 (Photo by John McCoy, Los Angeles Daily News/SCNG) Los Angeles Dodgers right fielder Yasiel Puig #66 warms up before the game. The Dodgers hosted the Chicago Cubs in the first game of the National League Championship series at Dodger Stadium. Los Angeles, CA 10/14/2017 (Photo by John McCoy, Los Angeles Daily News/SCNG) Los Angeles Dodgers starting pitcher Clayton Kershaw #22 looks to the outfield after giving up a 2 run homer to Chicago Cubs center fielder Albert Almora Jr. #5 in the 4th inning. The Dodgers hosted the Chicago Cubs in the first game of the National League Championship series at Dodger Stadium. Los Angeles, CA 10/14/2017 (Photo by John McCoy, Los Angeles Daily News/SCNG) Los Angeles Dodgers starting pitcher Clayton Kershaw #22 warms up before the game. The Dodgers hosted the Chicago Cubs in the first game of the National League Championship series at Dodger Stadium. Los Angeles, CA 10/14/2017 (Photo by John McCoy, Los Angeles Daily News/SCNG) Fans stand for the National Anthem. The Dodgers hosted the Chicago Cubs in the first game of the National League Championship series at Dodger Stadium. Los Angeles, CA 10/14/2017 (Photo by John McCoy, Los Angeles Daily News/SCNG) A giant flag was stretched out on the field for the National Anthem. The Dodgers hosted the Chicago Cubs in the first game of the National League Championship series at Dodger Stadium. Los Angeles, CA 10/14/2017 (Photo by John McCoy, Los Angeles Daily News/SCNG) The Dodgers hosted the Chicago Cubs in the first game of the National League Championship series at Dodger Stadium. Los Angeles, CA 10/14/2017 (Photo by John McCoy, Los Angeles Daily News/SCNG) Los Angeles Dodgers right fielder Yasiel Puig #66 celebrates after he hits a run scoring double in the 5th inning. The Dodgers hosted the Chicago Cubs in the first game of the National League Championship series at Dodger Stadium. Los Angeles, CA 10/14/2017 (Photo by John McCoy, Los Angeles Daily News/SCNG) Los Angeles Dodgers right fielder Yasiel Puig #66 stands on 2nd base after hitting a run scoring double in the 5th inning. The Dodgers hosted the Chicago Cubs in the first game of the National League Championship series at Dodger Stadium. Los Angeles, CA 10/14/2017 (Photo by John McCoy, Los Angeles Daily News/SCNG) Los Angeles Dodgers second baseman Charlie Culberson #37 hits a sac fly scoring Los Angeles Dodgers catcher Austin Barnes #15 in the 5th inning. The Dodgers hosted the Chicago Cubs in the first game of the National League Championship series at Dodger Stadium. Los Angeles, CA 10/14/2017 (Photo by John McCoy, Los Angeles Daily News/SCNG) Los Angeles Dodgers center fielder Chris Taylor #3, rounding 1st base, is pumped after hitting a single run homer in the 6th inning. The Dodgers hosted the Chicago Cubs in the first game of the National League Championship series at Dodger Stadium. Los Angeles, CA 10/14/2017 (Photo by John McCoy, Los Angeles Daily News/SCNG) Chicago Cubs starting pitcher Jose Quintana throws to the plate during the first inning of Game 1 of the National League Championship Series on Saturday at Dodger Stadium. (Photo by Keith Birmingham, Pasadena Star-News/SCNG) Chicago Cubs’ Jason Heyward smiles prior to a National League Championship Series baseball game against the Los Angeles Dodgers at Dodger Stadium on Saturday, Oct. 14, 2017 in Los Angeles. (Photo by Keith Birmingham, Pasadena Star-News/SCNG) Chicago Cubs manager Joe Maddon prior to a National League Championship Series baseball game against the Los Angeles Dodgers at Dodger Stadium on Saturday, Oct. 14, 2017 in Los Angeles. (Photo by Keith Birmingham, Pasadena Star-News/SCNG) Los Angeles Dodgers’ Justin Turner (10) with Former Los Angeles Dodgers Tommy Davis after he throws out the cerimonial pitch prior to a National League Championship Series baseball game against the Chicago Cubs at Dodger Stadium on Saturday, Oct. 14, 2017 in Los Angeles. (Photo by Keith Birmingham, Pasadena Star-News/SCNG) Los Angeles Dodgers starting pitcher Clayton Kershaw stretches in the outfield prior to a National League Championship Series baseball game against the Chicago Cubs at Dodger Stadium on Saturday, Oct. 14, 2017 in Los Angeles. (Photo by Keith Birmingham, Pasadena Star-News/SCNG) Los Angeles Dodgers starting pitcher Clayton Kershaw sits on the bench alone prior to a National League Championship Series baseball game against the Chicago Cubs at Dodger Stadium on Saturday, Oct. 14, 2017 in Los Angeles. (Photo by Keith Birmingham, Pasadena Star-News/SCNG) Los Angeles Dodgers’ Justin Turner (10) speaks to home plate umpire Lance Barksdale (23) after being called out on strikes as Chicago Cubs catcher Willson Contreras (40) looks toward the mound in the first inning of a National League Championship Series baseball game at Dodger Stadium on Saturday, Oct. 14, 2017 in Los Angeles. (Photo by Keith Birmingham, Pasadena Star-News/SCNG) Chicago Cubs starting pitcher Jose Quintana throws to the plate against the Los Angeles Dodgers in the first inning of a National League Championship Series baseball game at Dodger Stadium on Saturday, Oct. 14, 2017 in Los Angeles. (Photo by Keith Birmingham, Pasadena Star-News/SCNG) Los Angeles Dodgers starting pitcher Clayton Kershaw in the first inning of a National League Championship Series baseball game against the Chicago Cubs at Dodger Stadium on Saturday, Oct. 14, 2017 in Los Angeles. (Photo by Keith Birmingham, Pasadena Star-News/SCNG) Los Angeles Dodgers starting pitcher Clayton Kershaw throws to the plate against the Chicago Cubs in the first inning of a National League Championship Series baseball game at Dodger Stadium on Saturday, Oct. 14, 2017 in Los Angeles. (Photo by Keith Birmingham, Pasadena Star-News/SCNG) The National Anthem prior to a National League Championship Series baseball game between the Chicago Cubs and the Los Angeles Dodgers at Dodger Stadium on Saturday, Oct. 14, 2017 in Los Angeles. (Photo by Keith Birmingham, Pasadena Star-News/SCNG) Los Angeles Dodgers right fielder Yasiel Puig #66 celebrates as he runs toward 1st base after hitting a run scoring double in the 5th inning. The Dodgers hosted the Chicago Cubs in the first game of the National League Championship series at Dodger Stadium. Los Angeles, CA 10/14/2017 (Photo by John McCoy, Los Angeles Daily News/SCNG) Former Los Angeles Dodgers Tommy Davis waves to the crowd before throwing out the cerimonial pitch prior to a National League Championship Series baseball game against the Chicago Cubs at Dodger Stadium on Saturday, Oct. 14, 2017 in Los Angeles. (Photo by Keith Birmingham, Pasadena Star-News/SCNG) Los Angeles Dodgers starting pitcher Clayton Kershaw stretches in the outfield prior to a National League Championship Series baseball game against the Chicago Cubs at Dodger Stadium on Saturday, Oct. 14, 2017 in Los Angeles. (Photo by Keith Birmingham, Pasadena Star-News/SCNG) Chicago Cubs fan prior to a National League Championship Series baseball game against the Los Angeles Dodgers at Dodger Stadium on Saturday, Oct. 14, 2017 in Los Angeles. (Photo by Keith Birmingham, Pasadena Star-News/SCNG) The Dodgers’ Yasiel Puig celebrates as he watches the flight of his RBI double in the fifth inning of Game 1 of the NLCS on Saturday night at Dodger Stadium. Puig added a solo home run two innings later to help his team to a 5-2 victory over the Cubs. (Photo by Keith Birmingham, Pasadena Star-News/SCNG) Los Angeles Dodgers’ Yasiel Puig rounds third base after hitting a solo home run in the sixth inning of a National League Championship Series baseball game against the Chicago Cubs at Dodger Stadium on Saturday, Oct. 14, 2017 in Los Angeles. (Photo by Keith Birmingham, Pasadena Star-News/SCNG) Los Angeles Dodgers’ Yasiel Puig reacts after hitting a RBI double in the fifth inning of a National League Championship Series baseball game against the Chicago Cubs at Dodger Stadium on Saturday, Oct. 14, 2017 in Los Angeles. (Photo by Keith Birmingham, Pasadena Star-News/SCNG) Los Angeles Dodgers right fielder Yasiel Puig #66 hits a homer in the 7th inning. The Dodgers hosted the Chicago Cubs in the first game of the National League Championship series at Dodger Stadium. Los Angeles, CA 10/14/2017 (Photo by John McCoy, Los Angeles Daily News/SCNG) Los Angeles Dodgers right fielder Yasiel Puig #66 heads for first base and his fall heads out of the park for a homer in the 7th inning. The Dodgers hosted the Chicago Cubs in the first game of the National League Championship series at Dodger Stadium. Los Angeles, CA 10/14/2017 (Photo by John McCoy, Los Angeles Daily News/SCNG) Los Angeles Dodgers right fielder Yasiel Puig #66 rounds first after his 7th ining homer. The Dodgers hosted the Chicago Cubs in the first game of the National League Championship series at Dodger Stadium. Los Angeles, CA 10/14/2017 (Photo by John McCoy, Los Angeles Daily News/SCNG) Los Angeles Dodgers right fielder Yasiel Puig #66 is congratulated by Los Angeles Dodgers catcher Yasmani Grandal #9 after his 7th inning homer. The Dodgers hosted the Chicago Cubs in the first game of the National League Championship series at Dodger Stadium. Los Angeles, CA 10/14/2017 (Photo by John McCoy, Los Angeles Daily News/SCNG) Los Angeles Dodgers second baseman Charlie Culberson #37 complains to the umpire that he was blocked from touching the plate by Chicago Cubs catcher Willson Contreras #40 in the 7th inning. The play was overturned, ad Dodgers were awarded the run. The Dodgers hosted the Chicago Cubs in the first game of the National League Championship series at Dodger Stadium. Los Angeles, CA 10/14/2017 (Photo by John McCoy, Los Angeles Daily News/SCNG) Los Angeles Dodgers relief pitcher Kenley Jansen #74 points to the sky after getting the final out of the game against Chicago Cubs left fielder Jon Jay #30. The Dodgers defeated the Chicago Cubs 5-2 in the first game of the National League Championship series at Dodger Stadium. Los Angeles, CA 10/14/2017 (Photo by John McCoy, Los Angeles Daily News/SCNG) Los Angeles Dodgers first baseman Cody Bellinger #35 and Los Angeles Dodgers third baseman Justin Turner #10 are all smiles after the final out of the game. The Dodgers defeated the Chicago Cubs 5-2 in the first game of the National League Championship series at Dodger Stadium. Los Angeles, CA 10/14/2017 (Photo by John McCoy, Los Angeles Daily News/SCNG) Dodgers celebrate after the final out. The Dodgers defeated the Chicago Cubs 5-2 in the first game of the National League Championship series at Dodger Stadium. Los Angeles, CA 10/14/2017 (Photo by John McCoy, Los Angeles Daily News/SCNG) Los Angeles Dodgers starting pitcher Clayton Kershaw #22 is all smiles as he welcomes his team mates after the game. The Dodgers defeated the Chicago Cubs 5-2 in the first game of the National League Championship series at Dodger Stadium. Los Angeles, CA 10/14/2017 (Photo by John McCoy, Los Angeles Daily News/SCNG) Los Angeles Dodgers’ Yasiel Puig watches his solo home run in the sixth inning of a National League Championship Series baseball game against the Chicago Cubs at Dodger Stadium on Saturday, Oct. 14, 2017 in Los Angeles. (Photo by Keith Birmingham, Pasadena Star-News/SCNG) Los Angeles Dodgers fan cheer as Yasiel Puig (not pictured) hit a solo home run in the sixth inning of a National League Championship Series baseball game against the Chicago Cubs at Dodger Stadium on Saturday, Oct. 14, 2017 in Los Angeles. (Photo by Keith Birmingham, Pasadena Star-News/SCNG) Los Angeles Dodgers’ Yasiel Puig rounds third base after hitting a solo home run in the sixth inning of a National League Championship Series baseball game against the Chicago Cubs at Dodger Stadium on Saturday, Oct. 14, 2017 in Los Angeles. (Photo by Keith Birmingham, Pasadena Star-News/SCNG) The Dodgers’ Yasiel Puig looks to the sky as he trots toward home plate after hitting a solo home run during the sixth inning of Game 1 of the NLCS on Saturday night at Dodger Stadium. Puig also had an RBI double in a 5-2 victory. (Photo by Keith Birmingham, Pasadena Star-News/SCNG) Los Angeles Dodgers’ Yasiel Puig celebrates with teammates after hitting a solo home run in the sixth inning of a National League Championship Series baseball game against the Chicago Cubs at Dodger Stadium on Saturday, Oct. 14, 2017 in Los Angeles. (Photo by Keith Birmingham, Pasadena Star-News/SCNG) Los Angeles Dodgers manager Dave Roberts challenges the play after Charlie Culberson was called out at home plat in the sixth inning of a National League Championship Series baseball game against the Chicago Cubs at Dodger Stadium on Saturday, Oct. 14, 2017 in Los Angeles. (Photo by Keith Birmingham, Pasadena Star-News/SCNG) Umpire Mike Winters called Los Angeles Dodgers Charlie Culberson (not pictured) safe after a review of the call at home plate in the sixth inning of a National League Championship Series baseball game against the Chicago Cubs at Dodger Stadium on Saturday, Oct. 14, 2017 in Los Angeles. (Photo by Keith Birmingham, Pasadena Star-News/SCNG) Chicago Cubs manager Joe Maddon, left, argues with Umpire Mike Winters after a play at home plate was over turned as Los Angeles Dodgers Charlie Culberson (not pictured) was called safe after a review of the call at home plate in the sixth inning of a National League Championship Series baseball game at Dodger Stadium on Saturday, Oct. 14, 2017 in Los Angeles. (Photo by Keith Birmingham, Pasadena Star-News/SCNG) Chicago Cubs manager Joe Maddon, left, is ejected from the game by Umpire Mike Winters after arguing after a play at home plate was over turned as Los Angeles Dodgers Charlie Culberson (not pictured) was called safe after a review of the call at home plate in the sixth inning of a National League Championship Series baseball game at Dodger Stadium on Saturday, Oct. 14, 2017 in Los Angeles. (Photo by Keith Birmingham, Pasadena Star-News/SCNG) Chicago Cubs manager Joe Maddon upset after being ejected from the game after a play at home plate was over turned as Los Angeles Dodgers Charlie Culberson (not pictured) was called safe after a review of the call at home plate in the sixth inning of a National League Championship Series baseball game at Dodger Stadium on Saturday, Oct. 14, 2017 in Los Angeles. (Photo by Keith Birmingham, Pasadena Star-News/SCNG) Chicago Cubs manager Joe Maddon, right, argues with Umpire Mike Winters after being ejected from the game after a play at home plate was over turned as Los Angeles Dodgers Charlie Culberson (not pictured) was called safe after a review of the call at home plate in the sixth inning of a National League Championship Series baseball game at Dodger Stadium on Saturday, Oct. 14, 2017 in Los Angeles. (Photo by Keith Birmingham, Pasadena Star-News/SCNG) Chicago Cubs manager Joe Maddon, center, argues with Umpire Mike Winters (33) after being ejected from the game after a play at home plate was over turned as Los Angeles Dodgers Charlie Culberson (not pictured) was called safe after a review of the call at home plate in the sixth inning of a National League Championship Series baseball game at Dodger Stadium on Saturday, Oct. 14, 2017 in Los Angeles. (Photo by Keith Birmingham, Pasadena Star-News/SCNG) Los Angeles Dodgers’ Yasiel Puig cheers on his team in the seventh inning of a National League Championship Series baseball game against the Chicago Cubs at Dodger Stadium on Saturday, Oct. 14, 2017 in Los Angeles. (Photo by Keith Birmingham, Pasadena Star-News/SCNG) Los Angeles Dodgers’ Chris Taylor hits a solo home run in the sixth inning of a National League Championship Series baseball game against the Chicago Cubs at Dodger Stadium on Saturday, Oct. 14, 2017 in Los Angeles. (Photo by Keith Birmingham, Pasadena Star-News/SCNG) Chicago Cubs center fielder Albert Almora Jr. (5) watches as Los Angeles Dodgers’ Chris Taylor (not pictured) solo home run goes over the fence in the sixth inning of a National League Championship Series baseball game at Dodger Stadium on Saturday, Oct. 14, 2017 in Los Angeles. (Photo by Keith Birmingham, Pasadena Star-News/SCNG) Los Angeles Dodgers’ Chris Taylor high fives manager Dave Roberts (30) after hitting a solo home run in the sixth inning of a National League Championship Series baseball game against the Chicago Cubs at Dodger Stadium on Saturday, Oct. 14, 2017 in Los Angeles. (Photo by Keith Birmingham, Pasadena Star-News/SCNG) Los Angeles Dodgers starting pitcher Clayton Kershaw throws to the plate against the Chicago Cubs in the second inning of a National League Championship Series baseball game at Dodger Stadium on Saturday, Oct. 14, 2017 in Los Angeles. (Photo by Keith Birmingham, Pasadena Star-News/SCNG) Los Angeles Dodgers starting pitcher Clayton Kershaw walks off the mound at the end of the second inning of a National League Championship Series baseball game against the Chicago Cubs at Dodger Stadium on Saturday, Oct. 14, 2017 in Los Angeles. (Photo by Keith Birmingham, Pasadena Star-News/SCNG) Chicago Cubs starting pitcher Jose Quintana wipes his face after giving up a run in the fifth inning of a National League Championship Series baseball game against the Los Angeles Dodgers at Dodger Stadium on Saturday, Oct. 14, 2017 in Los Angeles. (Photo by Keith Birmingham, Pasadena Star-News/SCNG) Chicago Cubs starting pitcher Jose Quintana speaks with catcher Willson Contreras, left, and second baseman Javier Baez after giving up a run in the fifth inning of a National League Championship Series baseball game against the Los Angeles Dodgers at Dodger Stadium on Saturday, Oct. 14, 2017 in Los Angeles. (Photo by Keith Birmingham, Pasadena Star-News/SCNG) Chicago Cubs starting pitcher Jose Quintana walks off the mound in the fifth inning of a National League Championship Series baseball game against the Los Angeles Dodgers at Dodger Stadium on Saturday, Oct. 14, 2017 in Los Angeles. (Photo by Keith Birmingham, Pasadena Star-News/SCNG) Los Angeles Dodgers relief pitcher Kenley Jansen throws to the plate against the Chicago Cubs in the eighth inning of a National League Championship Series baseball game at Dodger Stadium on Saturday, Oct. 14, 2017 in Los Angeles. (Photo by Keith Birmingham, Pasadena Star-News/SCNG) Chicago Cubs vs. the Los Angeles Dodgers during a National League Championship Series baseball game at Dodger Stadium on Saturday, Oct. 14, 2017 in Los Angeles. (Photo by Keith Birmingham, Pasadena Star-News/SCNG) A man carrying a Dodgers flag run back and fourth along the top of the dugout prior to a National League Championship Series baseball game against the Chicago Cubs at Dodger Stadium on Saturday, Oct. 14, 2017 in Los Angeles. (Photo by Keith Birmingham, Pasadena Star-News/SCNG) Chicago Cubs vs. the Los Angeles Dodgers during a National League Championship Series baseball game at Dodger Stadium on Saturday, Oct. 14, 2017 in Los Angeles. (Photo by Keith Birmingham, Pasadena Star-News/SCNG) Los Angeles Dodgers’ Yasiel Puig reacts after hitting a RBI double in the fifth inning of a National League Championship Series baseball game against the Chicago Cubs at Dodger Stadium on Saturday, Oct. 14, 2017 in Los Angeles. (Photo by Keith Birmingham, Pasadena Star-News/SCNG) Chicago Cubs vs. the Los Angeles Dodgers during a National League Championship Series baseball game at Dodger Stadium on Saturday, Oct. 14, 2017 in Los Angeles. (Photo by Keith Birmingham, Pasadena Star-News/SCNG) Keith Birmingham is a Los Angeles-based photographer specializing in sports, editorial and portrait photography. He has been a staff photographer for 24 years with the Los Angeles Newspaper Group including the Pasadena Star-News, San Gabriel Valley Tribune, Whittier Daily News and Los Angeles Daily News. His work has appeared in Sports Illustrated, the Los Angeles Times, the New York Times, Nashville Tennessean, GQ, Life Magazine, Sporting News, Los Angeles Dodgers Magazine, National Sports Daily, along with wire services Associated Press and United Press International, and the books Photojournalism: The Professionals' Approach by Kenneth Kobre, and Out of the Blue by Joe Haakenson, the story of the 2002 World Series Champion Anaheim Angels. An award winning photographer, including awards from National Press Photographers Association, Pictures of the Year International, World Press Photo, Press Photographers Association of Greater Los Angeles, California Press Photographers Association, he has also won Picture of the Year from SportsShooter.com and been nominated by his paper for three Pulitzer Prize awards. Keith has covered 20 Rose Bowl games, four Men's Basketball Final Fours , two Women's Basketball Final Fours, Three Major League Baseball World Series, the Super Bowl, six NBA Finals, two Women's World Cups, one Men's World Cup and many other sporting events throughout the United States. He has also covered Hurricane Katrina and many major California wildfires.
2024-02-06T01:26:36.242652
https://example.com/article/9627
In the interests of balance, Hillingdon council not only collected my old fridge on Monday, navigating quite a few treacherous snow-covered steps in the process, but picked my rubbish up on time on Tuesday morning as well. So, erm, horray for Hillingdon... chibaken Proles??? Ugh, how condescendingly bourgeoise is that! Some of these highly skilled jobs bring in £60K; Marx would turn in his grave...
2023-11-02T01:26:36.242652
https://example.com/article/4200
Twists and turns abounded early in my sexuality & faith journey. Around the age of 5, I started having experiences of gender dysphoria, mimicking mannerisms that seemed feminine and gravitating toward games most of the girls played. Let’s just say becoming the jump rope champion on the playground wasn’t earning many boyhood points at home or school. Neither did sometimes wishing I was a girl. When it came to developing crushes in 5th and 6th grade, even in the midst of all the gender confusion, I did have a few little girlfriends that I genuinely cared about and felt attracted to them. We’d sneak over to Mitzi Hall’s house and play spin the bottle or have “make out” parties after school. But, on the heels of those awkward puberty years, I noticed a rising attraction to several of the boys in my class. During this bisexual season, I tried figuring out why I had these confusing feelings. My thinking was mostly done in isolation and silence, having no one safe with which to share. Not long into this exploration, my best guy friend at the time initiated a sexual experience with me. Though I was for longing for a close connection with someone, I wasn’t emotionally ready to handle the sexual aspect. I was only 14 at the time. We met secretly over the next couple of years; internally, I more and more embraced a gay identity. To add another complicated turn on the journey, in High School I became a Christian, and my heart was opened up to the living presence of Jesus Christ. He knew me, loved me and died for my sins on the cross. It was an interesting time, being the tail end of the Jesus Movement which had been thriving for the last decade. Kids in my class were talking about being “saved” and were sharing the gospel throughout the hallways. With my new found faith and thrown into all sorts of gatherings and activities, I now belonged to something bigger than myself. The peaceful well-being of finding my place lasted for what sadly felt like 30 seconds. Love for Jesus, community and busy Christian activities were all being overshadowed by strong and condemning messages about the gay community. For the first time I genuinely felt conflicted on a greater scale about my attractions. I doubted and feared God couldn’t love me. There didn’t seem to be a place in His kingdom, I surmised. So, upon graduation, with a diploma in my hand and a new sense of freedom, I left God, church and friends and went off in search of my “new life”. I pursued it passionately and would not just “come out”…I exploded out. My parents were not thrilled by this news and for a season we avoided one another while living in the same city. I entered a gay club in 1985 and felt like I was finally home. Ten long years of silence and isolation were over—I literally kissed the ground. Soon, I developed a small group of good friends and adopted the social and political views to which most in the LGBT community subscribed, and I became an advocate. This peaceful well-being of finding my place lasted for what felt like 30 seconds…sadly again. AIDS was prevalent in the gay community and men were dying quickly from the disease. This reality kept me from a lot of unsafe behavior. But sex wasn’t all I was looking for—a long-term, life time relationship with a man was what I wanted. Like many gay men with this sincere desire, it was easy to get caught up in the not so helpful trappings of navigating this community. Partying, addiction and club life were daily events. I started to wonder why everyone around me seemed to be happy and taking care of their lives—how had mine become so unmanageable? Although talking with my close gay friends frequently, I sensed the need for something deeper in the way of counsel. Through an odd series of events, I struck up a friendship with a Christian man. Because of my painful background, I was wary of him and Christians in general. It was a relief to experience his kindness as we chatted. I did take the opportunity to share my story with him and waited tentatively for his reaction. He honestly admitted that we probably had differing views on the subject biblically, but also said that he wanted to know me. This surprised me and things got complicated. Could I be in a relationship with someone who believed differently? We met weekly for lunch over several months. Thankfully the focus of our conversations was not about my sexuality but about the person of Jesus Christ. With every meeting, I’d leave realizing an uncomfortable major decision was looming on the horizon. Would I face Jesus again? One night I did pray and received Him back into my life. His intimate presence was back. In reading the bible, I saw passages with fresh eyes. This was wonderful, but what about my sexual orientation? I had repressed it for many years and then wholeheartedly embraced it—what do I do now? And what about my friends and boyfriend?--they’re probably not going to be thrilled with my conversion to Christianity. It was back to that old conflict between faith and sexuality. God did speak into this place pretty quickly, not with angels or trumpets but in the simplest of ways. I was standing in my small apartment kitchen—cooking dinner and probably ruminating on all the ways my life was blowing up. In that moment a sudden revelation and peace hit me. Much of my life had been about hiding, shame, anger and unmet longing—all the things that kept me running. It was exhausting. From God there came a sense that, there would neverbe any reason to leave or run from Him again. Accepted as I was, His grace flooded that tiny kitchen. Relief from the pressure also flooded in. There was space, time and freedom to figure out these huge complex parts of myself—no need for quick easy answers. This time God was part of the process. Many things coincided during this season of freedom. I loved Jesus, but was not so ready to step foot in a church anytime soon—too scary. But I did start to explore several organizations with different perspectives on LGBTQ issues. One of these became a safe space for me as they had no agenda but offered a place for those in conflict with same sex attraction and faith. It gave me a place to figure things out and just “be”. A lot of things in my life were in need of repair. I struggled with addictions, damaging relating styles and one of the most important of these was reconciling with my family. Having worked on these issues and examined scripture from different perspectives, I came to some personal conclusions. I just simply became convinced that the act of sex belongs between a man and woman within marriage. I couldn’t make affirming theology work for me. This has since brought up many questions. I’ve had a lot of fluidity in my attractions—could I explore a relationship with a woman? What would it look like to walk out life single and celibate? Singleness is an equal biblical vocation and calling alongside marriage. How can my relational status be a blessing and grace? How do I steward, manage and honor my legitimate emotional needs, longings and desires? So far, I’ve been walking out celibacy for many years and have learned numerous things. No one has it easy. Being married or single results in lots of benefits and blessings. They both come with a lot of hardship and struggle too—the grass is equally green on both sides. Another important lesson: I can’t walk this out alone. I need a lot of support and community from others, and we all need God and His grace. His grace gave me space—even space to leave Him and His church and to live in the LGBTQ community. There was grace to explore His word on complex parts of ourselves from different perspectives. And grace to live relatively peacefully--congruent with my own personal convictions. Over the years, my friends in conflict have landed all over this spectrum. Sadly, some have left the church. Others are getting married to same or opposite sex partners and others are living celibately. Others remain unable to move toward resolution in either direction. We have hard tearful conversations sometimes, but always put our love for God and each other first. I respect each of their journeys knowing that my own has taken me all over the map, including seasons of being stuck. I pray God will continue to guide all of us on His path of truth and grace.
2024-02-18T01:26:36.242652
https://example.com/article/4092
Intel and Toshiba Launch The Inside Experience Inside, a branded entertainment project starring Emmy Rossum and co-funded by Intel and Toshiba, debuts today at 2pm EST. As we noted earlier this month, the tech brands have joined forces for The Inside Experience, a crowdsourced hybrid of film and social media that riffs on the iconic “Intel Inside” tagline — collaborating not only with each, but with the audience. The plot: A young woman, Christina, played by Rossum is trapped in a room with only a Toshiba Satellite P775 laptop – powered by a second-generation Intel chip, and an undetectable Internet connection. The character must rely on her social network to deduce her location and plan her escape. That’s where the social web kicks in, starting today.[more] “It’s primarily a piece of entertainment, and it moves down the path to integrate social media aspects into it. As a brand, we’re ‘Sponsors of Tomorrow,’ and we’d like to think we’re sponsors of tomorrow’s entertainment,” commented Ryan Baker, OEM partner marketing director for Intel, about the first-of-its-kind social film. Fans can participate starting today via the social web — on the microsite, on Twitter, by following @theinsideexp and the hashtag #theinsideexperience, and on the project’s Facebook page — post clues and advice that will be incorporated into the series episodes. Here’s the first episode of The Inside Experience (INSIDE — Day 1) with the description: “Meet Christina Perasso. She is trapped in a room with only a laptop and an internet connection. With the help of her friends, family and you, she just might be able to find her way out… Help Christina in real time by going to her Facebook page now.” Naturally, it features the Toshiba laptop (with Intel inside) as a major prop: Her character’s Facebook page, however, seems less frantic than the Christina we meet above: Until last week, visitors to TheInsideExperience.com have been able to read scripts, make suggestions, submit and upload an audition. Any user-created video submissions that get used in the project will garner screen credit and bragging rights for the auteur. Intel and Toshiba are targeting that elusive younger generation increasingly immune to old-school advertising campaigns, and more prone to ‘video snacking.’ “This is a step above advertising,” says Tom Hume, director of marketing communications for Toshiba. “It takes traditional one-way communication and turns it on its head.”
2023-10-11T01:26:36.242652
https://example.com/article/2608
A tentative agreement reached on a sweeping Pacific Rim trade pact is expected to be a net benefit to British Columbia, which already has extensive trade links with Asia. Most business and industry leaders here said had Canada — and British Columbia — not been part of the 12-country Trans-Pacific Partnership, it would likely have lost market share and faced the threat of becoming marginalized in the growing Asian economy. B.C. will face reduced tariffs and trade barriers — along with the U.S. — into Japan, Malaysia, Vietnam, Singapore, Brunei, Chile and Peru. Australia, New Zealand and Mexico are also part of the deal. First, however, the deal requires political approval. To take effect, the pact must be ratified by the parliaments and law-making authorities of all 12 member countries. Canada will be the first political testing ground — the agreement lands smack in the midst of a federal election campaign that will decide who will control the Parliament that determines whether it lives or dies. The Canadian government appears to have guaranteed the long-term entrenchment of the supply-managed sector, which is detested by free-market economists but backed by every major political party and provincial government, and the domestic dairy lobby. Canada agreed to 3.25-per-cent more imports, a minuscule change compared to what some countries asked for. That means a bit more of international products like butter on grocery shelves now 90-per-cent dominated by domestic content. For their loss, the government would compensate Canadian farmers billions of dollars under a series of programs over at least 10 years. Among business and industry groups in the province that support the deal are the B.C. Business Council, the B.C. Chamber of Commerce, the Vancouver Board of Trade, the Mining Association of B.C., the Council of Forest Industries and the B.C. Seafood Alliance. However, producers in some of B.C.’s supply-managed sectors whose product is mostly sold domestically, such as dairy and poultry, don’t like the deal because it means they will lose Canadian market share to foreigners. Some expressed frustration that the deal was negotiated in secret, a common criticism of the agreement. University of B.C. professor Keith Head said just as the North American Free Trade Agreement was about embracing Mexico into a new trading block, the Trans-Pacific trade pact is about Japan becoming part of a new Asia-Pacific trading block. Japan has the third-largest economy in the world behind the U.S. and China, but has previously resisted trade agreements. Head, a professor of Asian commerce, said he also believes the deal signals an important shift by the U.S. under president Barack Obama toward a Pacific economy. Had Canada stayed out of the deal, it would have been at a disadvantage to the United States, which would faced lower or eliminated tariffs, he said. “I actually find it kind of exciting because we in Vancouver are so closely linked to these countries. To move forward with this kind of agreement, it does have positive aspects,” said Head. The two largest complaints of the deal — loosening protection for dairy, poultry and egg producers and for the auto sector — are not big hits for British Columbia, he said. The dairy and egg sectors are estimated to contribute less than one per cent of B.C.’s gross domestic product, a measure of the economy, and the province’s auto sector is small. On the other hand, the countries that are part of the new trade deal accounted for $22.5 billion in exports from B.C. in 2014, nearly two thirds of its total international exports, according to Canadian and B.C. data. Japan alone accounted for $3.64 billion in exports from B.C., led by copper, coal and lumber. B.C. trades less with some other countries in the pact: $104 million with Vietnam and $67 million with Malaysia. The deal will eliminate or reduce tariffs over time on a broad series of products including pork, fruit, wine and spirits, canola, barley, machinery, minerals and forestry products. As one example, the Canadian beef industry expects to see exports triple to Japan, with a multi-year phase-out in tariffs there from 39 per cent to nine per cent. B.C. Business Council chief policy officer Jock Finlayson said a big concern is what would have happened had Canada and B.C. not been part of the trade deal. “Some are saying we should say no, but the reality is we would become completely marginalized in terms of the emerging Asia-Pacific trade block,” said Finlayson. As of Monday, there was still no publicly available version of the text of the agreement. While two B.C. government ministers, Teresa Wat and Shirley Bond, put out statements touting the benefits of the deal for this province, the government admitted that while it had reviewed some iterations of the agreement text, it did not have a copy of the final draft text and would have to review that final version when it is released in the coming weeks. Bond, the jobs minister, said the province had negotiators at the table and its interests were represented well. “We have amazing products, if you look at areas like cherries, blueberries, if you look at forestry products — we think we have the ability to be the lead in looking at North America and that connection in the Asia-Pacific,” said Bond. One concern is that the deal is likely to increase drug costs because it extends the amount of time pharmaceutical companies have patent protection, which delays the production of lower-cost generic drugs, said drug policy researcher Alan Cassels. “It’s going to drive prices higher for us, but I think the more concerning thing is higher prices for life-saving drugs in the developing world,” Cassels said. “So, drugs for tuberculosis or anti-malarials … when you start tinkering with the patent protection in the poorer countries in the world, people die.” ghoekstra@vancouversun.comtcarman@vancouversun.comWith files from Rob Shaw, Vancouver Sun, and The Canadian Press B.C. reaction to the Trans-Pacific Partnership B.C. Poultry Association The head of the B.C. Poultry Association, Ray Nickel, said he had few details Monday of what the TPP would mean for this province’s industry. He called the lack of information “frustrating.” “We’re trying to figure out what this means,” he said, noting that poultry producers in B.C. sell primarily to the Canadian market, in which producers control the prices, a practice known as supply management. The big worry for poultry producers is losing market share to heavily subsidized American competitors, he said. This is what makes poultry so much cheaper in the U.S. “Americans would constantly like to have more access into our markets because they potentially see prices being higher here, which may or may not be true,” he said. “At face value it seems that we’ve obviously given up some (market) access, but there seems to have been a pretty good intention by those negotiating to hold the line,” he said, adding that he believes the TPP is an important deal for the country to have signed on to. B.C. Dairy Association Chair Dave Taylor was strongly critical of the deal, which he said amounted to “taking cows out of the barn” and a loss of ability to produce milk within B.C. The TPP allows 3.25 per cent more imports, which amounts to 23 million litres of milk that could have been produced in B.C. but will now be produced abroad next year, Taylor said. “We have taken a hit here in B.C. when it comes to future production … we’re really disappointed.” The government is offering billions in compensation to affected farmers, but Taylor said farmers would rather produce the milk in Canada. B.C. Seafood Alliance Executive director Christina Burridge called the deal a “very positive move for wild seafood in B.C.” “Asian markets account for a very substantial proportion of our exports and this keeps us in the market in a competitive position,” she said. “I think that the Japanese market in particular is one that’s going to make a significant difference to us because it means that our prices will be reduced to our Japanese customers as the tariffs come off.” B.C. exports products such as herring roe, sablefish, urchins, prawns and salmon to Japan, Burridge said, and tariffs can range between 3.5 and 11 per cent. Increased access to the market in Vietnam, where tariffs on B.C. seafood products can be as high as 34 per cent, will also be a huge benefit, she said. B.C. Agriculture Council Chair Stan Vander Waal said the deal will be good for many of B.C.’s farmers and ranchers. Sectors such as grain, cattle and pork will have access to new markets, he said. Reduced tariffs for Canadian beef products in Japan are likely to be especially beneficial. “I think that’s an affluent market that they’re hoping to tap into,” he said. Reductions in tariffs for fruits, wines and spirits in other countries will also help B.C. producers, Vander Waal said. Supply-managed sectors such as poultry and dairy have some “legitimate concerns” with the TPP, he added, calling on the government to work with these sectors to mitigate the losses. B.C. Mining Association
2024-07-13T01:26:36.242652
https://example.com/article/7563
Those who have grown up in Kolkata might be familiar with an urban legend that a popular roll outlet near the Gariahat used to sell "dog meat" in the name of chicken and mutton rolls. It was a standard joke, especially among college students, which however nether stopped the footfalls at the food outlet, nor did it diminish the enthusiasm for the famous Calcutta roll that was practically the staple snack of the city, known for its culinary delights. No one really bothered to find out the truth behind this rumour, or whether this was true of other roll outlets in the city as well. Those were messy days when one didn't check licences and registrations of one's favourite haunts, and the food was cheap and tasty. Still is. The filth that was a permanent installation outside the Calcutta Corporation on Suren Banerjee Road was pretty much an example of the apathy towards public hygiene and safety, and one was practically playing with one's life by deciding to eat street food. In the early 20th century, Bengali humorist Parashuram wrote a short story called "Bhushundir Mathe" in which the protagonist, Shibu, goes on a binge in the fleshpots of Calcutta, and then dies of food poisoning. Now, after 20 tonnes of carcass meat of cats and dogs being discovered, allegedly packaged and kept in cold storages, and distributed to food outlets throughout Kolkata, the city has been jolted out of slumber. According to reports, the sale of non-vegetarian food items like mutton, pork and chicken has halved across restaurants in Kolkata, and the Hotel and Restaurants' Association of Eastern India (HRAEI) has issued an advisory to its members asking them to stick to buying meat only from registered suppliers. Here is a description from one of the police officials involved in the investigations: "First they would wash the meat with formalin. Then they separated the fat from the meat to arrest rotting and inject calcium propanoate (as a food additive). After that it was mixed with aluminium sulphate and lead sulphate to get rid of the foul smell and then packed and supplied to different markets and restaurants." Panic has set in, and for a few days, Kolkatans are going to be concentrating on fish, prawns and vegetarian dishes, not just at the roadsides, but also bonafide restaurants. That is, until the customary apathy and suspension of disbelief sets in again. But to see this incident in isolation from the general climate of woeful lack of food safety standards that has been the norm in India is to continue living in denial. The contamination and fraudulent practises in the sale of meat products run alongside that of vegetables, fruits, edible oils, milk products and spices, as well. One of the first scandals to have shaken the nation was the beef tallow in vanaspati incident back in November 1983. The then commerce minister VNP Singh angrily accused the former Janata Party government of approving beef tallow imports. Singh declared, "Pages of your import policy are smeared with tallow and not ghee." The Vegetable Oil Manufacturers Association claimed that the one million-tonne annual national consumption of vanaspati had fallen off by 30 per cent. Restaurants began removing signs boasting that they used "pure" vegetable oil and some Hindu temples in northern India started refusing to accept sweets and food offerings believed to have been prepared with vanaspati. Seven years after a cinnamon planter, Leonard John from Kannaur, Kerala, campaigned to create awareness among consumers about the difference between cinnamon and cassia, a cheaper substitute, which is often passed off as cinnamon in shops, how many are aware of the difference and the health hazards of cassia? Cassia contains coumarin, which is a chemical used for making rat poison. According to the Food Safety and Standards Authority of India (FSSAI), low doses of coumarin consumed over few months can cause liver damage. It could also lead to secretion of liver enzymes in blood, inflammation of liver and might even cause jaundice in some cases. In 2003, 2010, 2012 and 2013, pre-Diwali raids in different parts of the country at sweet outlets and godowns unearthed contaminated and poisonous sweets in tonnes that contained the deadly pathogens. Although FSSAI has banned the use of calcium carbide as it is carcinogenic, these chemicals are still used to ripen fruits like bananas, apples and mangoes and sold by the friendly neighbourhood vendor. It is an open secret in the mandis and department stores throughout the length and breadth of Indi, that perishables such as vegetables, meat, and fish that do not get sold at the end of the day make their way into the chain of profiteering, at a tenth of their retail price, that results in them ending up in downmarket bars and restaurants where they are served to customers after being heavily spiced. In 2017, the health department of Rajkot Municipal Corporation conducted a raid for the second time on a restaurant named Jaddu's Food Field, run by cricketer Ravindra Jadeja's sister Naynaba, and found stale food, rotten vegetables, and other items. From rat poison found in vegetables and Diwali sweets laced with caustic soda, to batches of moonshine liquor that kill scores of people at a time, adulteration is rife. A report by FSSAI in January 2012 found that most of the country's milk was watered down or adulterated with products, including fertiliser, bleach and detergent, used to thicken milk and help give it a white, frothy appearance. Something fishy Avoiding meat and taking to prawns and fish may not help the residents of Kolkata much. Rivers and ponds in West Bengal are now a virtual cesspool of toxic waste. Concentrations of mercury in fish are far higher than prescribed limits. In 2009, two NGOs, Toxics Link (New Delhi) and Disha (Kolkata) studied 60 samples of fish and various varieties of crabs from markets across Kolkata and 204 samples from the Ganga at Farakka, Damodar and Jharkali in the state as well as from water bodies of the east Kolkata wetlands. The results were alarming. The percentage of methyl mercury in the samples was 70 to 500 per cent higher than the limit set by the Joint Food and Agriculture Organisation (FAO)/World Health Organisation (WHO) expert committee on food additives and the Prevention of Food Adulteration Act and Rules, 1954. Again, in 2012, another study based on samples collected from the Ganga in West Bengal by M Pal, S Ghosh, M Mukhopadhyay and M Ghosh of the University College of Science and Technology, University of Calcutta, found a strong correlation between mercury levels in muscle with food habits and fish length (age). Contamination in katla, mottled eel, chital, rita and pabda was above the 0.25μg Hg/g of wet weight, the limit set by the PFA for the maximum level for consumption of fish exposed to methyl mercury. In bhetki and tangra, the levels were threatening. The 2009 study by Toxics Link and Disha was submitted to the West Bengal Pollution Control Board (WBPCB). Nine years later, no local level programme has been initiated to address this issue. After the story on the carcass meat broke there has been a noticeable exultation in the ranks of the vegetarian evangelists on social media of the we-told-you-so variety. Vegetables not safe either Here are the facts on contamination of grain and vegetables. Random samples of foodgrains and vegetables like polished rice, red lentil (masoor dal), red spinach, spice (cumin seeds) and medicinal herb (Tulsi) were collected from 12 roadside markets across north, south, east and west Kolkata. Soil and vegetable samples were also collected from Dhapa, along the EM Bypass, for a study released by the Geological Survey of India on October 2017. All these samples were collected to compare their lead isotopic ratios and lead concentration with that of food items sold on the city's streets. The maximum lead concentration was found in rice from the markets of Kidderpore at 14.39 mg/kg. For red lentil samples, the content varied between 1.82 and 7.44 mg/kg. As per the American and European standards, the current reference range for acceptable blood lead-concentration in a healthy human being, without excessive exposure to environmental sources of lead, is less than 0.05 mg/L for children whereas it is less than 0.25 mg/L for adults. Coming close on the heels of BJP inroads in West Bengal with their incipient vegetarian agenda, and the 2017 online pamphleteering against fish by some loony fringe elements called "All India Fish Protection Committee", this was expected. Rotting carcass as packaged chicken/mutton is a fact. But many feel that the scale in which it was presented and the hype has been driven by vested interests trying to encourage a climate aversion towards non-vegetarian food. Their concerns are that these extended discussions about "unhygenic conditions" are engineered to cut off the legs of the small traders and unorganised sector vendors, and finally prepare a red carpet for FDI, Walmart and others to overtake the business of beef, chicken, meat among others. How seriously we must take these concerns or dismiss them as paranoia is moot. But a huge brand is no guarantee of legitimacy or quality as one can see from the frequent reports on KFC, Subway, and McDonald's. A brand is only as good as the people they employ. While eating out raises concerns about food safety, it is also a fact that the average Bengali has a culinary intrepidity that will not allow him/her to stay content with home-cooked food for long. Most Bengalis also have an intimate and personal relationship with the vendors and restaurants of their choice going back years, based on a solid foundation of trust and personal attention. Will a department chain ever be able to replace that bonhomie and trust? Also read: Carcass meat racket in Kolkata: Why civic authorities must admit it's their fault
2024-07-11T01:26:36.242652
https://example.com/article/7940
/** * DataSourceList.java * * This file was auto-generated from WSDL * by the Apache Axis 1.2.1 Jun 14, 2005 (09:15:57 EDT) WSDL2Java emitter. */ package org.eclipse.birt.report.soapengine.api; public class DataSourceList implements java.io.Serializable { private static final long serialVersionUID = 1L; private org.eclipse.birt.report.soapengine.api.DataSource[] dataSource; public DataSourceList() { } public DataSourceList( org.eclipse.birt.report.soapengine.api.DataSource[] dataSource) { this.dataSource = dataSource; } /** * Gets the dataSource value for this DataSourceList. * * @return dataSource */ public org.eclipse.birt.report.soapengine.api.DataSource[] getDataSource() { return dataSource; } /** * Sets the dataSource value for this DataSourceList. * * @param dataSource */ public void setDataSource(org.eclipse.birt.report.soapengine.api.DataSource[] dataSource) { this.dataSource = dataSource; } public org.eclipse.birt.report.soapengine.api.DataSource getDataSource(int i) { return this.dataSource[i]; } public void setDataSource(int i, org.eclipse.birt.report.soapengine.api.DataSource _value) { this.dataSource[i] = _value; } private java.lang.Object __equalsCalc = null; public synchronized boolean equals(java.lang.Object obj) { if (!(obj instanceof DataSourceList)) return false; DataSourceList other = (DataSourceList) obj; if (obj == null) return false; if (this == obj) return true; if (__equalsCalc != null) { return (__equalsCalc == obj); } __equalsCalc = obj; boolean _equals; _equals = true && ((this.dataSource==null && other.getDataSource()==null) || (this.dataSource!=null && java.util.Arrays.equals(this.dataSource, other.getDataSource()))); __equalsCalc = null; return _equals; } private boolean __hashCodeCalc = false; public synchronized int hashCode() { if (__hashCodeCalc) { return 0; } __hashCodeCalc = true; int _hashCode = 1; if (getDataSource() != null) { for (int i=0; i<java.lang.reflect.Array.getLength(getDataSource()); i++) { java.lang.Object obj = java.lang.reflect.Array.get(getDataSource(), i); if (obj != null && !obj.getClass().isArray()) { _hashCode += obj.hashCode(); } } } __hashCodeCalc = false; return _hashCode; } // Type metadata private static org.apache.axis.description.TypeDesc typeDesc = new org.apache.axis.description.TypeDesc(DataSourceList.class, true); static { typeDesc.setXmlType(new javax.xml.namespace.QName("http://schemas.eclipse.org/birt", "DataSourceList")); org.apache.axis.description.ElementDesc elemField = new org.apache.axis.description.ElementDesc(); elemField.setFieldName("dataSource"); elemField.setXmlName(new javax.xml.namespace.QName("http://schemas.eclipse.org/birt", "DataSource")); elemField.setXmlType(new javax.xml.namespace.QName("http://schemas.eclipse.org/birt", "DataSource")); elemField.setNillable(false); elemField.setMaxOccursUnbounded(true); typeDesc.addFieldDesc(elemField); } /** * Return type metadata object */ public static org.apache.axis.description.TypeDesc getTypeDesc() { return typeDesc; } /** * Get Custom Serializer */ public static org.apache.axis.encoding.Serializer getSerializer( java.lang.String mechType, java.lang.Class _javaType, javax.xml.namespace.QName _xmlType) { return new org.apache.axis.encoding.ser.BeanSerializer( _javaType, _xmlType, typeDesc); } /** * Get Custom Deserializer */ public static org.apache.axis.encoding.Deserializer getDeserializer( java.lang.String mechType, java.lang.Class _javaType, javax.xml.namespace.QName _xmlType) { return new org.apache.axis.encoding.ser.BeanDeserializer( _javaType, _xmlType, typeDesc); } }
2023-11-17T01:26:36.242652
https://example.com/article/8453
Abortion and fetal tissue research: some ethical concerns. Proponents of human fetal tissue research argue that this endeavor is morally separate from abortion. They claim that one's views about the morality of abortion should not effect decisions about the ethics of fetal tissue research and transplantation efforts. In lifting the ban on federal funding for fetal tissue research, President Clinton embraced this logic. However, a careful review of (1) the impact fetal tissue research and transplantation will have on the rate of abortion; (2) the concept of informed consent, and (3) the question of complicity demonstrates that abortion and fetal tissue research are morally connected.
2024-04-13T01:26:36.242652
https://example.com/article/7336
/* * Copyright (c) 2016, 2019, Gluon and/or its affiliates. * All rights reserved. Use is subject to license terms. * * This file is available and licensed under the following license: * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * * - Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * - Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in * the documentation and/or other materials provided with the distribution. * - Neither the name of Oracle Corporation and Gluon nor the names of its * contributors may be used to endorse or promote products derived * from this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT * OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ package com.oracle.javafx.scenebuilder.kit.fxom; import static org.junit.Assert.assertEquals; import static org.junit.Assert.assertFalse; import static org.junit.Assert.assertTrue; import java.io.File; import java.io.IOException; import java.net.URL; import java.nio.charset.StandardCharsets; import java.nio.file.Files; import java.nio.file.Path; import java.nio.file.Paths; import java.util.ArrayList; import java.util.List; import java.util.Set; import java.util.TreeSet; import com.oracle.javafx.scenebuilder.kit.fxom.glue.GlueCharacters; import org.junit.BeforeClass; import org.junit.Test; import javafx.embed.swing.JFXPanel; /** * Unit test for {@link FXOMSaver#updateImportInstructions(FXOMDocument)}. */ public class FXOMSaverUpdateImportInstructionsTest { private static FXOMDocument fxomDocument; private static FXOMSaver serviceUnderTest; @BeforeClass public static void initialize() { new JFXPanel(); } @Test public void testEmptyFXML() throws IOException { setupTestCase(FxmlTestInfo.EMPTY); assertTrue("fxml is empty", fxomDocument.getFxmlText(false).isEmpty()); } @Test public void testNoWildcard() { setupTestCase(FxmlTestInfo.NO_WILDCARD); Set<String> imports = new TreeSet<>(); fxomDocument.getFxomRoot().collectDeclaredClasses().forEach(dc -> { imports.add(dc.getName()); }); Set<String> givenImports = new TreeSet<>(); givenImports.add("javafx.scene.control.Button"); givenImports.add("javafx.scene.control.ComboBox"); givenImports.add("javafx.scene.control.TextField"); givenImports.add("javafx.scene.layout.AnchorPane"); assertTrue(imports.containsAll(givenImports)); } @Test public void testUnusedImports() { setupTestCase(FxmlTestInfo.UNUSED_IMPORTS); Set<String> imports = new TreeSet<>(); fxomDocument.getFxomRoot().collectDeclaredClasses().forEach(dc -> { imports.add(dc.getName()); }); Set<String> unusedImports = new TreeSet<>(); unusedImports.add("java.util.Date"); unusedImports.add("java.math.*"); unusedImports.add("java.util.Set"); unusedImports.add("org.junit.Test"); assertFalse("unused imports are not present", imports.containsAll(unusedImports)); } @Test public void testWithWildcard() { setupTestCase(FxmlTestInfo.WITH_WILDCARD); Set<String> imports = new TreeSet<>(); fxomDocument.getFxomRoot().collectDeclaredClasses().forEach(dc -> { imports.add(dc.getName()); }); assertFalse("fxml import does not contain javafx.scene.*", imports.contains("javafx.scene.*")); } @Test public void testWithMoreWildcards() { setupTestCase(FxmlTestInfo.WITH_MORE_WILDCARDS); Set<String> imports = new TreeSet<>(); // java.lang.* is not a declared class, therefore not in the imports Set fxomDocument.getFxomRoot().collectDeclaredClasses().forEach(dc -> { imports.add(dc.getName()); }); assertFalse("fxml import does not contain javafx.scene.*", imports.contains("javafx.scene.*")); assertFalse("fxml import does not contain javafx.scene.control.*", imports.contains("javafx.scene.control.*")); } @Test public void testWithGlueElements() { setupTestCase(FxmlTestInfo.WITH_GLUE_ELEMENTS); Set<String> imports = new TreeSet<>(); fxomDocument.getFxomRoot().collectDeclaredClasses().forEach(dc -> { imports.add(dc.getName()); }); assertTrue("fxml import contains java.lang.String", imports.contains("java.lang.String")); assertTrue("fxml import contains javafx.scene.paint.Color", imports.contains("javafx.scene.paint.Color")); } @Test public void testDuplicates() { setupTestCase(FxmlTestInfo.DUPLICATES); Set<String> imports = new TreeSet<>(); fxomDocument.getFxomRoot().collectDeclaredClasses().forEach(dc -> { imports.add(dc.getName()); }); // java.lang.* is not a declared class, therefore not in the imports Set assertTrue("fxml contain only 4 imports", (imports.size() == 4)); } @Test public void testWildcardsAndDuplicates() { setupTestCase(FxmlTestInfo.WILDCARDS_AND_DUPLICATES); Set<String> imports = new TreeSet<>(); fxomDocument.getFxomRoot().collectDeclaredClasses().forEach(dc -> { imports.add(dc.getName()); }); // java.lang.* is not a declared class, therefore not in the imports Set imports.forEach(i -> { assertFalse("fxml does not contain .*", i.contains(".*")); }); assertTrue("fxml contains only 4 imports", (imports.size() == 4)); } @Test public void testCustomButton() { setupTestCase(FxmlTestInfo.CUSTOM_BUTTON); Set<String> imports = new TreeSet<>(); fxomDocument.getFxomRoot().collectDeclaredClasses().forEach(dc -> { imports.add(dc.getName()); }); assertTrue("fxml has import com.oracle.javafx.scenebuilder.kit.fxom.TestCustomButton", imports.contains("com.oracle.javafx.scenebuilder.kit.fxom.TestCustomButton")); assertFalse("fxml does not contain com.oracle.javafx.scenebuilder.*", imports.contains("com.oracle.javafx.scenebuilder.*")); // java.lang.* is not a declared class, therefore not in the imports Set imports.forEach(i -> { assertFalse("fxml does not contain .*", i.contains(".*")); }); } @Test public void testImportsWithComments() { setupTestCase(FxmlTestInfo.HEADER_WITH_NOT_ONLY_IMPORTS); Set<String> imports = new TreeSet<>(); fxomDocument.getFxomRoot().collectDeclaredClasses().forEach(dc -> { imports.add(dc.getName()); }); assertEquals("comment line should not be removed", 5, fxomDocument.getGlue().getHeader().size()); assertTrue("second glue node should be a comment", fxomDocument.getGlue().getHeader().get(1) instanceof GlueCharacters); assertTrue("fifth glue node should be a comment", fxomDocument.getGlue().getHeader().get(4) instanceof GlueCharacters); assertTrue("fxml does not contain javafx.scene.control.ComboBox", imports.contains("javafx.scene.control.ComboBox")); assertTrue("fxml does not contain javafx.scene.layout.AnchorPane", imports.contains("javafx.scene.layout.AnchorPane")); } @Test public void testWildcardsAndStaticProperties() { setupTestCase(FxmlTestInfo.WILDCARDS_AND_STATIC_PROPERTIES); ArrayList<String> imports = new ArrayList<>(); fxomDocument.getGlue().collectInstructions("import").forEach(i -> imports.add(i.getData())); assertEquals("imports length should be 5", 5, imports.size()); assertTrue("HBox import was not found", imports.contains("javafx.scene.layout.HBox")); assertTrue("VBox import was not found", imports.contains("javafx.scene.layout.VBox")); assertFalse("Wildcard imports are present", imports.contains("java.scene.layout.*") || imports.contains("java.scene.control.*")); } @Test public void testPublicStaticImport() { setupTestCase(FxmlTestInfo.PUBLIC_STATIC_IMPORT); ArrayList<String> imports = new ArrayList<>(); fxomDocument.getGlue().collectInstructions("import").forEach(i -> imports.add(i.getData())); assertEquals("imports length should be 4", 4, imports.size()); assertTrue("Lighting import was not found.", imports.contains("javafx.scene.effect.Lighting")); assertTrue("Light.Distant import was not found.", imports.contains("javafx.scene.effect.Light.Distant")); assertFalse("Wildcard imports are present", imports.contains("java.scene.layout.*")); } private String callService() { return serviceUnderTest.save(fxomDocument); } private void setupTestCase(FxmlTestInfo n) { Path pathToFXML = Paths.get("src/test/resources/com/oracle/javafx/scenebuilder/kit/fxom/" + n.getFilename() + ".fxml"); Path pathToTestFXML = Paths.get("src/test/resources/com/oracle/javafx/scenebuilder/kit/fxom/testerFXML.fxml"); try { Files.deleteIfExists(pathToTestFXML); // Setup for the fxomDocument from the FXML file that will be tested setupFXOMDocument(pathToFXML); String savedFXML = callService(); // Creates new FXML file with the new output Files.write(pathToTestFXML, savedFXML.getBytes(StandardCharsets.UTF_8)); } catch (IOException e) { e.printStackTrace(); } } // setup for the FXOMDocument that will be tested private void setupFXOMDocument(Path relativePath) { // relativePath = // "src/test/resources/com/oracle/javafx/scenebuilder/kit/fxom/[fxmlname].fxml" File fxmlTesterFile = new File(relativePath.getParent() + "/testerFXML.fxml"); serviceUnderTest = new FXOMSaver(); try { URL location = fxmlTesterFile.toURI().toURL(); String fxmlString = getFxmlAsString(relativePath); fxomDocument = new FXOMDocument(fxmlString, location, null, null); } catch (IOException e) { e.printStackTrace(); } } // reads FXML file and gives it back as a String private static String getFxmlAsString(Path path) throws IOException { List<String> fxml = Files.readAllLines(path, StandardCharsets.UTF_8); StringBuilder sb = new StringBuilder(); fxml.forEach(line -> { sb.append(line).append('\n'); }); return sb.toString(); } private enum FxmlTestInfo { CUSTOM_BUTTON("CustomButton"), DUPLICATES("Duplicates"), EMPTY("Empty"), HEADER_WITH_NOT_ONLY_IMPORTS("HeaderWithNotOnlyImports"), NO_WILDCARD("NoWildcard"), UNUSED_IMPORTS("UnusedImports"), WILDCARDS_AND_DUPLICATES("WildcardsAndDuplicates"), WILDCARDS_AND_STATIC_PROPERTIES("WildcardsAndStaticProperties"), WITH_MORE_WILDCARDS("WithMoreWildcards"), WITH_WILDCARD("WithWildcard"), WITH_GLUE_ELEMENTS("WithGlueElements"), PUBLIC_STATIC_IMPORT("PublicStaticImport"); private String filename; FxmlTestInfo(String filename) { this.filename = filename; } String getFilename() { return filename; } } }
2024-03-14T01:26:36.242652
https://example.com/article/9560
/*++ Copyright (c) 2013 Minoca Corp. This file is licensed under the terms of the GNU General Public License version 3. Alternative licensing terms are available. Contact info@minocacorp.com for details. See the LICENSE file at the root of this project for complete licensing information. Module Name: copy.c Abstract: This module implements generic copy functionality for the Swiss common library. Author: Evan Green 3-Jul-2013 Environment: POSIX --*/ // // ------------------------------------------------------------------- Includes // #include <minoca/lib/types.h> #include <assert.h> #include <errno.h> #include <fcntl.h> #include <stdlib.h> #include <string.h> #include <unistd.h> #include <utime.h> #include "../swlib.h" // // ---------------------------------------------------------------- Definitions // // // Define the buffer size for copy blocks. // #define COPY_BLOCK_SIZE (1024 * 512) // // ------------------------------------------------------ Data Type Definitions // // // ----------------------------------------------- Internal Function Prototypes // INT SwpCopy ( BOOL IsOperand, ULONG Options, PSTR Source, PSTR Destination ); INT SwpCopyRegularFile ( ULONG Options, PSTR Source, struct stat *SourceStat, PSTR Destination, struct stat *DestinationStat ); INT SwpCopyNonRegularFile ( ULONG Options, PSTR Source, struct stat *SourceStat, PSTR Destination, struct stat *DestinationStat ); INT SwpMatchFileProperties ( PSTR Destination, struct stat *Stat ); BOOL SwpTestForFileInPathTraversal ( PSTR Path, dev_t Device, ino_t File ); // // -------------------------------------------------------------------- Globals // // // ------------------------------------------------------------------ Functions // INT SwCopy ( ULONG Options, PSTR Source, PSTR Destination ) /*++ Routine Description: This routine performs a copy of the source file or directory to the destination. Arguments: Options - Supplies a bitfield of options governing the behavior of the copy. Source - Supplies a pointer to the string describing the source path to copy. Destination - Supplies a pointer to the string describing the destination of the copy. Return Value: 0 on success. Returns an error number on failure. --*/ { mode_t OriginalMask; INT Result; OriginalMask = 0; if ((Options & COPY_OPTION_PRESERVE_PERMISSIONS) != 0) { OriginalMask = umask(0); } Result = SwpCopy(TRUE, Options, Source, Destination); if ((Options & COPY_OPTION_PRESERVE_PERMISSIONS) != 0) { umask(OriginalMask); } return Result; } // // --------------------------------------------------------- Internal Functions // INT SwpCopy ( BOOL IsOperand, ULONG Options, PSTR Source, PSTR Destination ) /*++ Routine Description: This routine performs a copy of the source file or directory to the destination. Arguments: IsOperand - Supplies a boolean indicating if this is a direct call from someone or a recursed call. Options - Supplies a bitfield of options governing the behavior of the copy. Source - Supplies a pointer to the string describing the source path to copy. Destination - Supplies a pointer to the string describing the destination of the copy. Return Value: 0 on success. Returns an error number on failure. --*/ { PSTR AppendedDestination; ULONG AppendedDestinationSize; PSTR AppendedSource; ULONG AppendedSourceSize; BOOL DestinationExists; struct stat DestinationStat; DIR *Directory; struct dirent *DirectoryEntry; BOOL FollowLinks; PSTR QuotedDestination; PSTR QuotedSource; BOOL RecursiveCopy; size_t SourceLength; struct stat SourceStat; INT Status; AppendedDestination = NULL; AppendedSource = NULL; Directory = NULL; QuotedDestination = Destination; QuotedSource = Source; FollowLinks = FALSE; if (((Options & COPY_OPTION_FOLLOW_LINKS) != 0) || ((IsOperand != FALSE) && ((Options & COPY_OPTION_FOLLOW_OPERAND_LINKS) != 0))) { FollowLinks = TRUE; } // // If verbose, print out the operation. // if ((Options & COPY_OPTION_VERBOSE) != 0) { QuotedSource = SwQuoteArgument(Source); QuotedDestination = SwQuoteArgument(Destination); printf("'%s' -> '%s'\n", QuotedSource, QuotedDestination); if (QuotedSource != Source) { free(QuotedSource); QuotedSource = Source; } if (QuotedDestination != Destination) { free(QuotedDestination); QuotedDestination = Destination; } } // // Stat the destination and the source. // DestinationExists = FALSE; Status = SwStat(Destination, TRUE, &DestinationStat); if (Status == 0) { DestinationExists = TRUE; } else if (Status != ENOENT) { SwPrintError(Status, Destination, "Cannot stat"); goto CopyEnd; } Status = SwStat(Source, FollowLinks, &SourceStat); if (Status != 0) { SwPrintError(Status, Source, "Cannot stat"); goto CopyEnd; } // // If the source and destination are the same, then print a message and do // nothing else. // if ((DestinationExists != FALSE) && (SourceStat.st_ino == DestinationStat.st_ino) && (SourceStat.st_dev == DestinationStat.st_dev) && (SourceStat.st_ino != 0)) { QuotedSource = SwQuoteArgument(Source); QuotedDestination = SwQuoteArgument(Destination); SwPrintError(0, NULL, "'%s' and '%s' are the same file", QuotedSource, QuotedDestination); goto CopyEnd; } // // Copy a directory. // if (S_ISDIR(SourceStat.st_mode)) { // // If it's a directory and recursive mode is not enabled, fail. // if ((Options & COPY_OPTION_RECURSIVE) == 0) { SwPrintError(0, Source, "Skipping directory"); goto CopyEnd; } // // Avoid copying a directory into itself. // SourceLength = strlen(Source); RecursiveCopy = SwpTestForFileInPathTraversal(Destination, SourceStat.st_dev, SourceStat.st_ino); if (RecursiveCopy != FALSE) { QuotedSource = SwQuoteArgument(Source); QuotedDestination = SwQuoteArgument(Destination); SwPrintError(0, NULL, "Cannot copy a directory '%s' into itself '%s'", QuotedSource, QuotedDestination); goto CopyEnd; } // // If not specified directly as an operand and it's a dot or a dot dot, // skip it. // if (SourceLength == 0) { SwPrintError(0, NULL, "Invalid empty source"); Status = EINVAL; goto CopyEnd; } if (Source[SourceLength - 1] == '.') { if ((SourceLength == 1) || (Source[SourceLength - 2] == '/')) { goto CopyEnd; } else if ((Source[SourceLength - 2] == '.') && ((SourceLength == 2) || (Source[SourceLength - 3] == '/'))) { goto CopyEnd; } } // // If the destination exists and is not a directory, print a message // and skip it. // if ((DestinationExists != FALSE) && (!S_ISDIR(DestinationStat.st_mode))) { QuotedSource = SwQuoteArgument(Source); QuotedDestination = SwQuoteArgument(Destination); SwPrintError(0, NULL, "Cannot overwrite non-directory '%s' with directory " "'%s'", QuotedDestination, QuotedSource); Status = EINVAL; goto CopyEnd; } // // Create the destination directory with the same permissions as the // source, but allow user access while the contents of the directory // are being copied. // if (DestinationExists == FALSE) { Status = SwMakeDirectory(Destination, SourceStat.st_mode | S_IRWXU); if (Status != 0) { Status = errno; SwPrintError(Status, Destination, "Failed to create directory"); goto CopyEnd; } } // // Recursively copy files inside of the source directory. // Directory = opendir(Source); if (Directory == NULL) { Status = errno; SwPrintError(Status, Source, "Failed to open directory"); goto CopyEnd; } while (TRUE) { errno = 0; DirectoryEntry = readdir(Directory); if (DirectoryEntry == NULL) { Status = errno; if (Status != 0) { SwPrintError(Status, Source, "Failed to read directory"); goto CopyEnd; } break; } // // Though there's also a check above, do a quick check here to // avoid unnecessary recursion. // if ((strcmp(DirectoryEntry->d_name, ".") == 0) || (strcmp(DirectoryEntry->d_name, "..") == 0)) { continue; } // // Create appended versions of the source and destination paths. // Status = SwAppendPath(Destination, strlen(Destination) + 1, DirectoryEntry->d_name, strlen(DirectoryEntry->d_name) + 1, &AppendedDestination, &AppendedDestinationSize); if (Status == FALSE) { Status = ENOMEM; SwPrintError(Status, NULL, "Failed to allocate"); goto CopyEnd; } Status = SwAppendPath(Source, strlen(Source) + 1, DirectoryEntry->d_name, strlen(DirectoryEntry->d_name) + 1, &AppendedSource, &AppendedSourceSize); if (Status == FALSE) { Status = ENOMEM; SwPrintError(Status, NULL, "Failed to allocate"); goto CopyEnd; } Status = SwpCopy(FALSE, Options, AppendedSource, AppendedDestination); if (Status != 0) { SwPrintError(Status, Source, "Bailing out of"); goto CopyEnd; } free(AppendedDestination); AppendedDestination = NULL; free(AppendedSource); AppendedSource = NULL; } closedir(Directory); Directory = NULL; // // If the preserve option is set, set all of the file attributes. // if ((Options & COPY_OPTION_PRESERVE_PERMISSIONS) != 0) { Status = SwpMatchFileProperties(Destination, &SourceStat); if (Status != 0) { goto CopyEnd; } // // Set the file permission bits to that of the source. // } else if (SourceStat.st_mode != (SourceStat.st_mode | S_IRWXU)) { Status = chmod(Destination, SourceStat.st_mode); if (Status != 0) { Status = errno; SwPrintError(Status, Destination, "Failed to set permissions on directory"); goto CopyEnd; } } // // Copy a regular file. // } else if (S_ISREG(SourceStat.st_mode)) { if (DestinationExists != FALSE) { Status = SwpCopyRegularFile(Options, Source, &SourceStat, Destination, &DestinationStat); } else { Status = SwpCopyRegularFile(Options, Source, &SourceStat, Destination, NULL); } if (Status != 0) { goto CopyEnd; } // // Copy something else. // } else { if (DestinationExists != FALSE) { Status = SwpCopyNonRegularFile(Options, Source, &SourceStat, Destination, &DestinationStat); } else { Status = SwpCopyNonRegularFile(Options, Source, &SourceStat, Destination, NULL); } if (Status != 0) { goto CopyEnd; } } CopyEnd: if (Directory != NULL) { closedir(Directory); } if (AppendedDestination != NULL) { free(AppendedDestination); } if (AppendedSource != NULL) { free(AppendedSource); } if (QuotedSource != Source) { free(QuotedSource); } if (QuotedDestination != Destination) { free(Destination); } return Status; } INT SwpCopyRegularFile ( ULONG Options, PSTR Source, struct stat *SourceStat, PSTR Destination, struct stat *DestinationStat ) /*++ Routine Description: This routine copies a regular file. Arguments: Options - Supplies a bitfield of options governing the behavior of the copy. Source - Supplies a pointer to the string describing the source path to copy. SourceStat - Supplies a pointer to the source file information (or that of the link destination if appropriate). Destination - Supplies a pointer to the string describing the destination of the copy. DestinationStat - Supplies a pointer to the destination file information, or NULL if the destination does not exist. Return Value: 0 on success. Returns an error number on failure. --*/ { BOOL Answer; PVOID Buffer; ssize_t BytesRead; ssize_t BytesWritten; int CloseStatus; mode_t CreatePermissions; int DestinationFile; PSTR QuotedDestination; INT Result; int SourceFile; ssize_t TotalBytesWritten; DestinationFile = -1; Result = 0; SourceFile = -1; // // Allocate a buffer to store the file information. // Buffer = malloc(COPY_BLOCK_SIZE); if (Buffer == NULL) { goto CopyRegularFileEnd; } // // If the destination file exists and the interactive option is on, // prompt. // if (DestinationStat != NULL) { if ((Options & COPY_OPTION_INTERACTIVE)) { QuotedDestination = SwQuoteArgument(Destination); fprintf(stderr, "%s: Overwrite file '%s'? ", SwGetCurrentApplicationName(), QuotedDestination); Result = SwGetYesNoAnswer(&Answer); if ((Result != 0) || (Answer == FALSE)) { Result = 1; goto CopyRegularFileEnd; } } // // Attempt to open and truncate the file. // DestinationFile = SwOpen(Destination, O_WRONLY | O_TRUNC | O_BINARY, 0); if (DestinationFile < 0) { if ((Options & COPY_OPTION_UNLINK) != 0) { Result = SwUnlink(Destination); if (Result != 0) { Result = errno; SwPrintError(Result, Destination, "Cannot remove"); goto CopyRegularFileEnd; } } else { Result = errno; SwPrintError(Result, Destination, "Cannot open"); goto CopyRegularFileEnd; } } } // // If the file isn't already opened, it must not exist or have been // unlinked. Create it now. If other properties are going to be changed, // then create it with the appropriate permissions to do that. Otherwise, // create it with the final permissions. // if (DestinationFile < 0) { CreatePermissions = SourceStat->st_mode; if ((Options & COPY_OPTION_PRESERVE_PERMISSIONS) != 0) { CreatePermissions |= S_IRWXU; } DestinationFile = SwOpen(Destination, O_WRONLY | O_CREAT | O_BINARY, CreatePermissions); if (DestinationFile < 0) { Result = errno; SwPrintError(Result, Destination, "Cannot open"); goto CopyRegularFileEnd; } } // // Open up the source as well. // SourceFile = SwOpen(Source, O_RDONLY | O_BINARY, 0); if (SourceFile < 0) { Result = errno; SwPrintError(Result, Destination, "Cannot open"); goto CopyRegularFileEnd; } // // Repeatedly copy blocks from the source file to the destination file. // while (TRUE) { do { BytesRead = read(SourceFile, Buffer, COPY_BLOCK_SIZE); } while ((BytesRead < 0) && (errno == EINTR)); // // Stop if the read failed. // if (BytesRead < 0) { Result = errno; break; } // // Stop at the end of the file. // if (BytesRead == 0) { break; } // // Write this bunch in. // TotalBytesWritten = 0; while (TotalBytesWritten < BytesRead) { do { BytesWritten = write(DestinationFile, Buffer + TotalBytesWritten, BytesRead - TotalBytesWritten); } while ((BytesWritten <= 0) && (errno == EINTR)); // // Stop if the write failed. // if (BytesWritten <= 0) { Result = errno; SwPrintError(Result, Destination, "Failed to write to"); goto CopyRegularFileEnd; } TotalBytesWritten += BytesWritten; } } // // Fix up the permissions if requested. Make sure to close the destination // file first. // close(DestinationFile); DestinationFile = -1; if ((Options & COPY_OPTION_PRESERVE_PERMISSIONS) != 0) { Result = SwpMatchFileProperties(Destination, SourceStat); if (Result != 0) { goto CopyRegularFileEnd; } } CopyRegularFileEnd: if (Buffer != NULL) { free(Buffer); } if (SourceFile >= 0) { close(SourceFile); } if (DestinationFile >= 0) { CloseStatus = close(DestinationFile); if (CloseStatus != 0) { CloseStatus = errno; SwPrintError(CloseStatus, Destination, "Failed to close"); if (Result == 0) { Result = CloseStatus; } } } return Result; } INT SwpCopyNonRegularFile ( ULONG Options, PSTR Source, struct stat *SourceStat, PSTR Destination, struct stat *DestinationStat ) /*++ Routine Description: This routine copies a symbolic link or FIFO object. Arguments: Options - Supplies a bitfield of options governing the behavior of the copy. Source - Supplies a pointer to the string describing the source path to copy. SourceStat - Supplies a pointer to the source file information (or that of the link destination if appropriate). Destination - Supplies a pointer to the string describing the destination of the copy. DestinationStat - Supplies a pointer to the destination file information, or NULL if the destination does not exist. Return Value: 0 on success. Returns an error number on failure. --*/ { BOOL Answer; PSTR LinkDestination; PSTR QuotedDestination; INT Result; LinkDestination = NULL; Result = 0; // // Unless the recursive option is on, don't do anything. // if (((Options & COPY_OPTION_RECURSIVE) == 0) || ((!S_ISLNK(SourceStat->st_mode)) && (!S_ISFIFO(SourceStat->st_mode)))) { SwPrintError(0, Source, "Skipping non-regular file"); goto CopyNonRegularFileEnd; } // // If the destination file exists and the interactive option is on, // prompt. // if (DestinationStat != NULL) { if ((Options & COPY_OPTION_INTERACTIVE)) { QuotedDestination = SwQuoteArgument(Destination); fprintf(stderr, "%s: Overwrite non-regular file '%s'? ", SwGetCurrentApplicationName(), QuotedDestination); Result = SwGetYesNoAnswer(&Answer); if ((Result != 0) || (Answer == FALSE)) { Result = 1; goto CopyNonRegularFileEnd; } } } // // Attempt to create the thing. // if (S_ISFIFO(SourceStat->st_mode)) { Result = SwMakeFifo(Destination, SourceStat->st_mode); if (Result != 0) { SwPrintError(Result, Source, "Failed to create FIFO"); goto CopyNonRegularFileEnd; } } else if (S_ISLNK(SourceStat->st_mode)) { Result = SwReadLink(Source, &LinkDestination); if (Result != 0) { SwPrintError(Result, Source, "Failed to read link"); goto CopyNonRegularFileEnd; } Result = SwCreateSymbolicLink(LinkDestination, Destination); if (Result != 0) { SwPrintError(Result, Source, "Failed to create symlink"); goto CopyNonRegularFileEnd; } } CopyNonRegularFileEnd: if (LinkDestination != NULL) { free(LinkDestination); } return Result; } INT SwpMatchFileProperties ( PSTR Destination, struct stat *Stat ) /*++ Routine Description: This routine sets the owner, group, modification time, and access time of the given file based on the supplied stat structure. If the owner and group could not be set, the ISUID and ISGID bits will be cleared. Arguments: Destination - Supplies a pointer to the string describing the path whose permissions should be changed. Stat - Supplies a pointer to the file information to set. Return Value: 0 on success. Returns an error number on failure. --*/ { mode_t Mode; int Result; struct utimbuf Times; // // Set the file times before potentially revoking write access. // Times.actime = Stat->st_atime; Times.modtime = Stat->st_mtime; Result = utime(Destination, &Times); if ((Result != 0) && (!S_ISDIR(Stat->st_mode))) { // // If the times are set to -1 and the status is EINVAL, try setting // the times to now. This works around an issue on Windows with file // times that are not set. Other OSes should not return EINVAL for // -1 times. // Result = errno; if ((Result == EINVAL) && ((Times.actime == -1) || (Times.modtime == -1))) { if (Times.actime == -1) { Times.actime = time(NULL); } if (Times.modtime == -1) { Times.modtime = time(NULL); } Result = utime(Destination, &Times); if (Result != 0) { Result = errno; } } if (Result != 0) { SwPrintError(Result, Destination, "Failed to set times of "); goto MatchFilePropertiesEnd; } } Result = SwChangeFileOwner(Destination, FALSE, Stat->st_uid, Stat->st_gid); if (Result != 0) { // // Change the permissions to clear the ISGID and ISUID bits. // Mode = Stat->st_mode & (~(S_ISGID | S_ISUID)); chmod(Destination, Mode); goto MatchFilePropertiesEnd; } Result = chmod(Destination, Stat->st_mode); if (Result != 0) { Result = errno; SwPrintError(Result, Destination, "Failed to set permissions for"); goto MatchFilePropertiesEnd; } Result = 0; MatchFilePropertiesEnd: return Result; } BOOL SwpTestForFileInPathTraversal ( PSTR Path, dev_t Device, ino_t File ) /*++ Routine Description: This routine tests to see if the given file number is in the path traversal. Arguments: Path - Supplies a pointer to the path to check. Device - Supplies the device number to check for. File - Supplies the file number to check for. Return Value: TRUE if the file number is in the path traversal. FALSE on error or if the file number is not in the path traversal. --*/ { BOOL Answer; PSTR CurrentSeparator; PSTR NextSeparator; CHAR OriginalCharacter; PSTR PathCopy; ULONG PathLength; INT Result; struct stat Stat; Answer = FALSE; PathCopy = NULL; // // Skip this if all the file numbers are zero. // if (File == 0) { goto TestForFileInPathTraversalEnd; } PathLength = strlen(Path); PathCopy = malloc(PathLength + 1); if (PathCopy == NULL) { goto TestForFileInPathTraversalEnd; } memcpy(PathCopy, Path, PathLength + 1); if (*PathCopy == '/') { CurrentSeparator = PathCopy + 1; } else { CurrentSeparator = strchr(PathCopy, '/'); } while (CurrentSeparator != NULL) { NextSeparator = strchr(CurrentSeparator + 1, '/'); // // Temporarily terminate the string and stat that partial path. // OriginalCharacter = *CurrentSeparator; *CurrentSeparator = '\0'; Result = SwStat(PathCopy, TRUE, &Stat); *CurrentSeparator = OriginalCharacter; if (Result != 0) { break; } if ((Stat.st_dev == Device) && (Stat.st_ino == File)) { Answer = TRUE; goto TestForFileInPathTraversalEnd; } CurrentSeparator = NextSeparator; } // // Check the path as a whole. // Result = SwStat(Path, TRUE, &Stat); if (Result != 0) { goto TestForFileInPathTraversalEnd; } if (Stat.st_ino == File) { Answer = TRUE; goto TestForFileInPathTraversalEnd; } TestForFileInPathTraversalEnd: if (PathCopy != NULL) { free(PathCopy); } return Answer; }
2023-11-16T01:26:36.242652
https://example.com/article/1172
<?xml version="1.0" encoding="UTF-8"?> <project xmlns="http://maven.apache.org/POM/4.0.0" xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance" xsi:schemaLocation="http://maven.apache.org/POM/4.0.0 https://maven.apache.org/xsd/maven-4.0.0.xsd"> <modelVersion>4.0.0</modelVersion> <parent> <groupId>io.quarkus</groupId> <artifactId>quarkus-integration-test-bootstrap-config-extension-parent</artifactId> <version>999-SNAPSHOT</version> <relativePath>../</relativePath> </parent> <artifactId>quarkus-integration-test-bootstrap-config-extension</artifactId> <name>Quarkus - Integration Tests - Bootstrap Config - Extension - Runtime</name> <dependencies> <dependency> <groupId>io.quarkus</groupId> <artifactId>quarkus-core</artifactId> </dependency> </dependencies> <build> <plugins> <plugin> <groupId>io.quarkus</groupId> <artifactId>quarkus-bootstrap-maven-plugin</artifactId> </plugin> <plugin> <artifactId>maven-compiler-plugin</artifactId> <configuration> <annotationProcessorPaths> <path> <groupId>io.quarkus</groupId> <artifactId>quarkus-extension-processor</artifactId> <version>${project.version}</version> </path> </annotationProcessorPaths> </configuration> </plugin> </plugins> </build> </project>
2024-05-30T01:26:36.242652
https://example.com/article/9183
Molecular characterisation of waxy corn and barley starches in different solvent systems as revealed by MALLS. The effect of different dissolution procedures on molecular characteristics of waxy starches from corn and barley were evaluated using a MALLS (batch-mode) detector, principally to understand the role played by different solvents. Starches were dissolved in aqueous solutions of: (1) 90% DMSO, (2) 2 M KOH and (3) 90% DMSO/2 M KOH, and stored for 15 days at ∼22 °C with shaking. Weight-average molecular weight (Mw) and z-average radius of gyration (Rz) were determined at intervals ranging from 0 to 15 days. Regardless of starch source and dissolution procedures, Mw and Rz of amylopectin (AP) decreased with increasing storage time. Decrease in Mw followed the order: 90% DMSO>2 M KOH>90% DMSO/2 M KOH. However, decrease in Rz followed the order: 2 M KOH>90% DMSO/2 M KOH>90% DMSO. The study indicated that starch solubilisation in 90% DMSO/2 M KOH may be a reasonable method for molecular characterisation with less AP degradation.
2024-06-02T01:26:36.242652
https://example.com/article/3268
Q: git status: on branch XXX Your branch is ahead of origin/YYY by 10 commits I have this message on git status: # On branch YYY # Your branch is ahead of 'origin/XXX' by 10 commits. # nothing to commit (working directory clean) Branch YYY is child of branch XXX. But normally on git status I would expect: # On branch YYY # Your branch is ahead of 'origin/YYY' by 10 commits. # nothing to commit (working directory clean) Git fetch does not solve the problem. Any ideas? Output of git branch -avvv (filtered): * XXX 0d64037 [origin/YYY: ahead 10] test remotes/origin/XXX 0d64037 test A: Check the output of git branch -avvv Maybe YYY has been set to track origin/XXX. You can change it with: git branch branch_name -u your_new_remote/branch_name git branch YYY -u origin/YYY # for git older than 1.8 git branch YYY --set-upstream origin/YYY You will need to push YYY at least once, before seeing anything about origin/YYY in the git status output.
2023-08-17T01:26:36.242652
https://example.com/article/2426
Thanks to Buy Real Marketing! I really needed help growing my Twitter account and I wasn't sure what to do. Fortunately a friend recommended Buy Real Marketing. I wasn't sure what to think at first but their customer service was amazing and they delivered more than I purchased. Incredible. JustiFi Capital sent my cellphone a marketing text message and cannot provide me, after multiple attempts, with the written consent that I would have legally had to give them to send me the text message. After my first call I was told I would be sent the information and was not. My second call I got hung up on. We run an organized retail chain, but due to increase in the competition, we were facing loss and also lost some customers due to mismanagement. Fortunately, Beacon Technology Solutions form JK Technosoft helped us in controlling the loss and managing the business systematically. We receive insightful data, boost in marketing and also is cost-effective. We are really thankful to JK Technosoft for this device that changed our business scenario. New York City, with a Census-estimated population of over 8.4 million in 2013, is the most populous city in the United States. It is thenucleus of the premier gateway for legal immigration to the United States—the New York City Metropolitan Area, one of the most populous urban agglomerations in the world. New York City is also known for being the location of Ellis Island, the largest historical gateway for immigration in the history of the United States. A global power city, New York City exerts a significant impact upon commerce, finance, media, art, fashion, research, technology, education, and entertainment. The home of the United Nations Headquarters, New York City is an important center for international diplomacy and has been described as the cultural and financial capital of the world. New York City alone makes up over 40 percent of the population of New York State. Two-thirds of the state's population live in the New York City Metropolitan Area, and nearly 40% live on Long Island. Both the state and New York City were named for the 17th century Duke of York, future King James II of England. The earliest Europeans in New York were French colonists and Jesuit missionaries who came down from settlements at Montreal for trade and proselytizing. New York was inhabited by various tribes of Algonquian and Iroquoian speaking Native Americans at the time Dutch settlers moved into the region in the early 17th century. In 1609, the region was first claimed by Henry Hudson for the Dutch. They built Fort Nassauin 1614 at the confluence of the Hudson and Mohawk rivers, where the present-day capital of Albany later developed. The Dutch soon also settled New Amsterdam and parts of the Hudson River Valley, establishing the colony of New Netherland based on trade and profitmaking. It was a multicultural community from the earliest days and the center of trade and immigration. The British annexed the colony from the Dutch in 1664. The borders of the British colony, the Province of New York, were quite similar to those of the present-day state. Both the Dutch and the British imported African slaves as laborers to the city and colony; African Americans were integral to the rise of the city. New York had the second-highest population of slaves after Charleston, SC. About one-third of the battles of the Revolutionary War took place in New York. The state constitution was enacted in 1777. New York became the 11th state to ratify the United States Constitution, on July 26, 1788. Slavery was extensive in New York City and some agricultural areas. The state passed a law for the gradual abolition of slavery soon after the Revolutionary War, but the last slave in New York was not freed until 1827. State parks New York has many state parks and two major forest preserves. Adirondack Park, roughly the size of the state of Vermont and the largest state park in the United States, was established in 1892 and given state constitutional protection to remain "forever wild" in 1894. The park is larger thanYellowstone, Everglades, Glacier, and Grand Canyon national parks combined. The thinking that led to the creation of the Park first appeared inGeorge Perkins Marsh's Man and Nature, published in 1864. The Catskill Park was protected in legislation passed in 1885, which declared that its land was to be conserved and never put up for sale or lease. Consisting of 700,000 acres (2,800 km2) of land, the park is a habitat for bobcats, minks, and fishers. There are some 400 black bears living in the region. The state operates numerous campgrounds, and there are over 300 miles (480 km) of multi-use trails in the Park. The Montauk Point State Park boasts the 1797 Montauk Lighthouse, commissioned under President George Washington, which is a major tourist attraction on the easternmost tip of Long Island. Hither Hills park offers camping and is a popular destination with surfcasting sport fishermen. African Burial Ground National Monument in Lower Manhattan (New York City) is the only National Monument dedicated to Americans of African ancestry. It preserves a site containing the remains of more than 400 Africans buried during the late 17th and 18th centuries in a portion of what was the largest colonial-era cemetery for people of African descent, both free and enslaved, with an estimated tens of thousands of remains interred. The site's excavation and study were called "the most important historic urban archeological project in the United States."[57] Gateway National Recreation Area is more than 26,000 acres (10,522 ha) of water, marshes, and shoreline at the entrance to New York Harbor, the majority of which lies within New York. Including areas on Long Island and in New Jersey, it covers more area than that of two Manhattan Islands.
2024-01-28T01:26:36.242652
https://example.com/article/5842
Low-grade endometrial stromal sarcoma with intracardiac extension. Evolution of extensive smooth muscle differentiation and usefulness of immunohistochemistry for its recognition and distinction from intravenous leiomyomatosis. This case, a rare example of low-grade endometrial stroma sarcoma with extensive smooth muscle differentiation which extended to the inferior vena cava and cardiac chambers closely resembling intravenous leiomyomatosis grossly and microscopically, illustrates the importance of extensive sectioning and the usefulness of immunohistochemistry. Although spindle cell components arranged in interlacing bundles consistent with smooth muscle differentiation were recognizable in the primary tumor (on retrospective review), extensive smooth muscle differentiation in the recurrent tumors masked prototypical morphologic features of stromal sarcoma and only small neoplastic stromal components were preserved in limited areas, leading to initial failure to distinguish the lesion from intravenous leiomyomatosis. The immunophenotyping disclosed two distinct cell populations in the tumor: i.e. vimentin-positive and smooth muscle marker negative stromal cells, and vimentin-negative spindle-shaped desmin-positive smooth muscle cells. Our observation suggests that the predominance of a smooth muscle component in such a tumor can be misleading and does not always warrant a diagnosis of intravenous leiomyomatosis, nor does it predict a benign clinical course. This case also provides an insight into the relationship of the endometrial stroma and myometrium, and their cell of origin and the histogenesis of endometrial stromal sarcoma.
2024-06-25T01:26:36.242652
https://example.com/article/3926
105 F.Supp.2d 901 (2000) Scott E. CARLSON, Plaintiff, v. CONSOLIDATED RAIL CORPORATION, a corporation, and Bethlehem Steel Corporation, a corporation, Defendants. No. 98 C 4774. United States District Court, N.D. Illinois, Eastern Division. July 24, 2000. *902 Robert Earl Harrington, Jr., Patrick Joseph Harrington, Harrington, Thompson, Acker & Harrington, Ltd., Chicago, IL, for Plaintiff. Mark Clarke Fedota, Fedota, Childers & Rocca, P.C., Chicago, IL, George W. Gessler, Mark A. Pellegrino, Gessler, Hughes & Socol, Ltd., Chicago, IL, for Defendants. MEMORANDUM OPINION AND ORDER MORAN, Senior District Judge. Plaintiff Scott Carlson (Carlson) injured his ankle one rainy night in August 1996 while working as a switchman for defendant Consolidated Rail Corporation ("Conrail" or "the railroad") on property owned and controlled by defendant Bethlehem Steel Corporation ("Bethlehem Steel" or "the industry"). He filed this action under the Federal Employer's Liability Act (FELA), 45 U.S.C. § 51 et seq., on August 3, 1998, alleging, inter alia, that Conrail negligently failed to provide him with reasonably safe working conditions, including a work area with uniform and properly tamped ballast, and adequate artificial illumination; that Bethlehem Steel similarly failed to maintain its premises in a reasonably safe condition for the work to be performed; and that Conrail violated its duty not to delegate the responsibility for furnishing Carlson with a safe place to work.[1] On August 29, 1998, Conrail answered the complaint and filed a cross claim against Bethlehem Steel seeking indemnification pursuant to an "Agreement for Industry Track" (Agreement) between Bethlehem Steel and Penn Central Transportation Company, dated April 30, 1974. Penn Central was a predecessor of Conrail and all its rights under the Agreement were passed on to Conrail. The Agreement established the parties' respective duties and obligations regarding certain "Sidetrack facilities leading northwestwardly off the Buffalo-Chicago Main Line *903 at Mile Post 485 + 529'" and terminating on industry property. The cross claim here alleges that, pursuant to the terms of the Agreement, Conrail is entitled to recover from Bethlehem all of its defense costs in this litigation and, if Carlson should prevail, to indemnity "for the full amount of any sum CONRAIL may be adjudged liable to the plaintiff" (cc ¶ 10). We now have before us Conrail's motion for summary judgment on its cross claim. For the reasons discussed below, summary judgment is denied. I. Standards On a motion for summary judgment we must view the record and all reasonable inferences to be drawn therefrom in the light most favorable to the nonmoving party — in this instance Bethlehem Steel. Fulk v. United Transportation Union, 160 F.3d 405, 407 (7th Cir.1998). Summary judgment is appropriate only if the evidence, read in this light, demonstrates that there is no genuine issue of material fact and that the moving party is entitled to judgment as a matter of law. Fed. R.Civ.P. 56(c); Matsushita Electric Industrial Co. v. Zenith Radio Corp., 475 U.S. 574, 587, 106 S.Ct. 1348, 89 L.Ed.2d 538 (1986). II. Background Carlson worked as a switchman at Bethlehem Steel's Burns Harbor Plant at least ten times before he was assigned the WDBH 62 position on a "regular" basis (Carlson dep. at 11-12). As "low man on the totem pole," he worked the third shift. He had not completed his first full week in this assignment before he was injured on the night of August 7, 1996. At this stage of the litigation it is not clear precisely how Carlson injured his ankle or which of several factors contributed to his fall or to the injury. Piecing together details from Carlson's deposition and that of his supervisor, Michael King (King), it appears that Carlson slipped and fell while walking across the rail to throw the 631-632 lead. It was raining at the time, or had just rained, and the ties were wet (King dep. at 20). The oil that rises to the surface of the wood during warm weather and the creosote applied to protect the wooden ties from decaying made certain patches on the ties even more slippery when wet (Carlson dep. at 69). There was apparently little or no artificial light in the area. Prior to the accident Carlson made several oral complaints to various Conrail crew members and supervisors regarding the poor lighting conditions (id. at 98-99). No improvements were made, however, and that night, Carlson had to rely on his Conrail-issued hand-held lantern, which illuminated a circle approximately two to three feet in diameter. Carlson testified that he slipped on a flat wooden surface. He attributed his fall to the fact that the tie "was wet, soaked with oil," and that there was no ballast around the tie. He testified that his left foot slipped off the left side of the railroad tie (id. at 70). Carlson's doctors told him he had an ankle sprain and torn ligaments (id. at 86). After King was notified of the accident he went to the site to investigate. He wrote in his report that Carlson had "stepped on end of tie, ground surface two to three inches below top of ties, making for uneven surface." King elaborated in his deposition that in the area four or five ties adjacent to the switch, the ballast between the rails was two to three inches below the ties, thus creating an "uneven walking surface" (King dep. 20-26). He also speculated that Carlson's "lack of attention" as to where he was walking may also have contributed to the accident, or that perhaps Carlson had not sufficiently illuminated the area with his lantern. Ultimately, King conceded that he did not know what caused the accident. Lower levels of ballast around rail ties would not always be deemed an "unsafe" or "improper" condition. King explained that "cribbing" is used to prevent blowing snow or debris from creating obstacles in the switch point area (id. at 34, 36). The *904 procedure involves removing four to five inches of ballast from between the ties within the switch point area to create holes or indentations where debris can settle out of harm's way. King, for one, did not believe that the accident site would have been cribbed because it was not within the switch point area. He also suggested that cribbing would not be done "on the end of the ties." For these reasons, Carlson would only have anticipated that the accident point was cribbed if he had been forewarned, according to King. There is scant record evidence at this point regarding the parties' fulfillment of their respective duties to provide Carlson with reasonably safe working conditions. There was testimony that Midwest Construction has been hired to carry out track maintenance within the Bethlehem property and Conrail employees are not permitted entry onto industry property to inspect or maintain the rail (Carlson at 104; King dep. at 40). That would seem to be in some conflict with provisions of the Agreement, which defendants agree is still in full force and effect. The relevant provisions of the Agreement include the following: (1) Right-of-Way The Industry shall provide ... all necessary right-of-way outside the right-of-way of the Railroad, required for the proper construction and operation of said sidetrack, said right-of-way to be satisfactory to the Railroad.... The Railroad shall have the right to enter upon the property of the Industry, for the purpose of inspecting and operating said sidetrack. (3) Maintenance Said sidetrack shall be maintained (including removal of ice, snow, weeds and debris) and renewed to the satisfaction of the Railroad; the work shall be performed and the cost thereof borne as follows: By the Railroad, at its expense, that portion on Railroad right of way. By the Industry, at its expense, that portion beyond Railroad right of way. (8) Liability in Connection with Sidetrack ... (b) Other Liability. Except as herein otherwise specifically provided, in respect ... of injury to or death of persons, caused by or in connection with the construction, operation, maintenance, use, presence or removal of said side-track, as between the parties hereto; (i) The Railroad shall assume responsibility for and hold the Industry harmless and defend the Industry from all losses (including claims for injuries to employees of the Industry or of the Railroad), expenses, attorneys' fees, damages, claims and judgments arising from or growing out of the actionable acts or omissions of the Railroad, its agents or employees, solely or in conjunction with a third person; (ii) The Industry shall assume responsibility for and hold the Railroad harmless and defend the Railroad from all losses (including claims for injuries to employees of the Industry or of the Railroad), expenses, attorneys' fees, damages, claims and judgments arising from or growing out of the actionable acts or omissions of the Railroad, its agents or employees, solely or in conjunction with a third person; (iii) The parties hereto shall equally bear all losses (including claims for injuries to employees of the Industry or of the Railroad), expenses, attorneys' fees, damages, claims and judgments arising from or growing out of the joint or concurring actionable acts or omissions of both parties hereto, their respective agents or employees (iv) Notwithstanding anything contained in this Section 8(b), and irrespective of any joint or concurring negligence of the Railroad, the Industry *905 assumes sole responsibility for and agrees to indemnify, save harmless and defend the Railroad from and against all claims, actions or legal proceedings arising, in whole or in part, from (a) the failure of the Industry to comply with requirements set forth in Sections 3 and 7 hereof, or (b) any claims, actions or legal proceedings under [FELA], alleging or claiming, in legal effect, that the Railroad failed to correct or guard against an unsafe condition if the unsafe place to work or the condition resulted in whole or in part from any act or omission of the Industry, its agents, employees, tenants, licensees or invitees. It is this last subparagraph, ¶ 8(b)(iv)(b), which is at the heart of the parties' dispute here. III. Analysis Conrail takes the position that the indemnification provision is unambiguous, that the conditions to trigger the provision are present in this lawsuit, and, therefore, that Conrail is entitled to judgment as a matter of law. Bethlehem Steel believes, on the other hand, that the indemnification provision is dependent upon two factual preconditions which may or may not be present here, and Bethlehem Steel is entitled to have those facts determined by a jury. Although Conrail is correct that where the terms of the contract are not ambiguous, the meaning of the contract is a matter for the court to decide as a question of law, Fort Wayne Cablevision v. Indiana & Michigan Electric Co., 443 N.E.2d 863, 866 (3rd Dist.Ind.1983), it is not correct that an unambiguous contract provision here entitles the railroad to summary judgment. Bethlehem Steel makes four distinct, but related, arguments why summary judgment must be denied. First, it argues that paragraph 8(b)(iv)(b) is only triggered if Bethlehem was in fact partly or wholly negligent. It argues that the evidence does not show conclusively that the "place to work" or "condition" was "unsafe" or "improper" as a matter of law and therefore summary judgment is premature. Second, and closely related, Bethlehem argues that there are disputed issues of fact concerning whether, if there was an "unsafe" condition, it resulted in whole or in part from any negligent act or omission of Bethlehem. Third, Bethlehem argues that there is no undisputed evidence showing that Bethlehem's act or omission was, in whole or in part, the cause of the injury, and therefore Bethlehem is entitled to a factual determination by a jury regarding injury causation and the parties' fault. And, finally, Bethlehem argues that because the complaint includes multiple claims against Conrail, the final provision is not automatically triggered, especially where the cause of the injury is not at all clear. We think Bethlehem has it right. Under Conrail's interpretation, the site of the injury and the language of the employee's pleading would be determinative of whether the indemnification provision applied. Conrail views the operative phrase as "alleging or claiming, in legal effect." It suggests that the preconditions for indemnification are present here: paragraph 3 of count I of Carlson's complaint states that the claim is brought under FELA, and paragraph 6 alleges, in effect, that Conrail failed to "correct or guard against an unsafe condition." Under this reading, one allegation in a FELA action that the unsafe place was due to an act or omission of the industry is all it takes to secure blanket protection from liability. It is implausible, however, that the industry would agree to hitch its future legal liabilities to pleading decisions made by plaintiffs' lawyers. Clearly, subparagraph 8(b)(iv)(b) requires a finding of an act or omission by Bethlehem that caused the "unsafe place to work or ... condition. ..." The contract does not spell out the level of fault required, but it is explicit about causation. It is not enough that railroad ties under Bethlehem's control are merely implicated in the accident. *906 Nor is the provision necessarily triggered even if there was an unsafe condition created by Bethlehem if the unsafe condition played no role in causing the accident. For example, hypothetically, if the ballast in the work area was improperly cribbed, but Carlson fell when the rubber sole on his lug boots detached, the mere existence of an unsafe but non-contributing condition caused by Bethlehem, will not trigger (b)(iv)(b). Indeed, if a jury were to find that acts or omissions by Conrail were solely responsible for the condition that caused the injury, despite the fact that it occurred on Bethlehem's property, subparagraph (b)(i) would apparently be triggered and Bethlehem Steel would be entitled to indemnification. As this case reveals, a plaintiff's complaint will often allege multiple factors and conditions that led to an injury. Here, testimony implicates rain, oil, creosote, nightfall, the employee's carelessness, inadequate lighting (attributed at various points to all three parties), several parts of a railroad tie, falls in different directions, maintenance delegation to a third party, ballast conditions, improper and proper cribbing practice, notice and warnings, and an ulterior motive for the employee's absence from work. Under these circumstances it will not be clear whether provision 8(b)(iv)(b) applies until after a trier of fact has sorted out causation and fault. Accord Laiho v. Consolidated Rail Corp., 4 F.Supp.2d 45 (D.Mass.1998); D'Angelo v. Consolidated Rail Corp., Bethlehem Steel Corporation, and Midwest Construction Service, Inc., 2:97CV56 (N.D.Ind. June 29, 1999) (JM). The only remaining question is whether the duty to defend is broader than the duty to indemnify and triggered prior to a finding of fact on the above issues. The court in Laiho considered and rejected this argument when made by Conrail with respect to an identical and contemporaneous indemnification clause. See Laiho, 4 F.Supp.2d at 51. We find it rather surprising that Conrail, the repeat player here, would cite to this District of Massachusetts case only with respect to the standards for summary judgment and without any argument to distinguish the result there, whether or not it was binding on this court. In any case, given the specific language of the contract provision, we agree with the Laiho court that the duty to defend may not be determined as a matter of law prior to a finding that "the unsafe place to work or the condition resulted in whole or in part from any act or omission of the Industry." Here, the duty to defend must be read as ex post facto payment of defense costs. The situation here is distinguishable from those cases finding an insurer's duty to defend independent of and broader than its duty to indemnify. See, e.g., Wayne Tp. Bd. of School Com'rs v. Indiana Ins. Co., 650 N.E.2d 1205 (Ind.App.5th Dist. 1995) (insurer's duty to defend is determined from allegations of complaint and from those facts known to or ascertainable by insurer after reasonable investigation); Western American Insurance Co. v. Moonlight Design Inc., 95 F.Supp.2d 838, 842 (N.D.Ill.2000) (under New York law, insurer must defend its insured unless there is no possible factual or legal basis that would bring the action within the purview of the policy, and must defend the entire action even if only one claim potentially falls within the coverage of the policy). The duty to defend in the insurance context, while grounded in the contract language, also follows from concerns about unequal bargaining power and contracts of adhesion. See Cincinnati Ins. Co. v. Flanders Elec. Motor Service, Inc., 40 F.3d 146, 151, 39 ERC 1839 (7th Cir.1994) (under Indiana law, where language of insurance policy is ambiguous, i.e. "susceptible to more than one reasonable interpretation," the court must construe the language in favor of the insured). The defense incentives, moreover, are neatly lined up because the insurer wants to prevent a finding of all liability in order to avoid any payment under the policy. *907 Here, however, the four scenarios under the indemnification provision, ¶ (8)(b)(i)(iv), reveal the likelihood of conflicting defense strategies between the two alleged tortfeasors. There is also no concern here regarding uneven bargaining power which would lead us to interpret an arguably ambiguous provision against the indemnified party. In this context, it is reasonable to interpret the term "duty to defend" to mean payment of defense costs once it is determined which indemnification provision will apply. CONCLUSION For the foregoing reasons, summary judgment on the cross claim is denied. NOTES [1] Under FELA, 45 U.S.C. § 51, a railroad has the nondelegable duty to provide its employees with a safe place to work even when they are required to go onto the premises of a third party over which the railroad has no control. See Shenker v. Baltimore & Ohio R.R. Co., 374 U.S. 1, 7, 83 S.Ct. 1667, 10 L.Ed.2d 709 (1963).
2024-07-05T01:26:36.242652
https://example.com/article/6886
Q: How to dynamically show/hide navigation buttons? When an item is at the top of the list I need to remove the "up" button and when an item is at the bottom of the list I need to remove the "down" button. I tried to do some code, but when I remove the buttons, they cease to exist permanently and I need to do this only when the item is at the top or bottom I'm trying to solve this but I have no idea how, can anyone help me? I'm new to the JavaScript language. function attachButtons(list){ let upButton = document.createElement('button'); upButton.className = 'up'; upButton.textContent = 'Up' list.appendChild(upButton); let downButton = document.createElement('button'); downButton.className = 'down'; downButton.textContent ='Down'; list.appendChild(downButton); let removeButton = document.createElement('button'); removeButton.className = 'remove'; removeButton.textContent = 'Remove'; list.appendChild(removeButton); }; const ul = document.getElementsByTagName('ul')[0]; const existingLi = ul.children; for(let i = 0; i < existingLi.length; i++){ attachButtons(existingLi[i]); } const input = document.getElementsByTagName('input')[0]; const addButton = document.getElementsByClassName('add')[0]; addButton.addEventListener('click', () => { let liItem = document.createElement('li'); let pItem = document.createElement('p'); pItem.textContent = input.value; liItem.appendChild(pItem); attachButtons(liItem); ul.appendChild(liItem); input.value = ''; }); ul.addEventListener('click', (event) => { let liItem = event.target.parentNode; if(event.target.className == 'remove'){ ul.removeChild(liItem); } if(event.target.className == 'up'){ let prevLi = liItem.previousElementSibling; if(prevLi){ ul.insertBefore(liItem, prevLi); } } if(event.target.className == 'down'){ let nextLi = liItem.nextElementSibling; if(nextLi){ ul.insertBefore(nextLi, liItem); } } }); const liFirstChild = ul.firstElementChild; const firstChildButton = liFirstChild.querySelector('.up'); //liFirstChild.removeChild(firstChildButton); const liLastChild = ul.lastElementChild; const lastChildButton = liLastChild.querySelector('.down'); //liLastChild.removeChild(lastChildButton); body { background: #f1f1f1; font-family: arial, sans-serif; } .container { width: 600px; height: auto; margin: 0 auto 5px; padding: 40px 20px; border-radius: 5px; background: white; text-align: center; } h1 { font-size: 24px; color: #000; margin: 0 0 10px; padding: 0; } p { font-size: 12px; color: #666; margin: 0 0 20px; padding: 0; } input { min-width: 180px; height: 30px; border: 1px solid #999; border-radius: 3px 0 0 3px; margin: 0; padding: 0 10px; } .add { height: 32px; background: #f1f1f1 ; border: 1px solid #999; border-radius: 0 3px 3px 0; color: #333; margin: 0 0 0 -5px; padding: 0 10px; } ul { list-style: none; text-align: left; margin: 40px 0 0; font-size: 14px; color: #666; } li { height: auto; border-bottom: 1px solid #ccc; margin: 10px 0 0; padding: 5px 0; } li:after { content: "."; visibility: hidden; display: block; height: 0; clear: both; } li p { margin: 10px 30px 0 0; padding: 0; background: white; float: left; } .up, .down { background: white; border: 1px solid #999; border-radius: 2px; color: #999; margin: 0; padding: 5px 10px; } .remove { background: white; border: 1px solid red; border-radius: 2px; color: red; margin: 0; padding: 5px 10px; } <!doctype html> <html> <head> <link rel="stylesheet" href="style.css"> <title>Traversing</title> </head> <body> <div class="container"> <h1>List of Cars</h1> <p>A list of cars I love</p> <div> <input type="text"> <button class="add">Add Car</button> </div> <ul> <li> <p>BMW M5</p> </li> <li> <p>Porche 911 Turbo</p> </li> <li> <p>Mercedez A250 AMG</p> </li> </ul> </div> <script src="app.js"></script> </body> </html> A: you can do it with only css: /*2nd element (up) in first li is not displayed */ ul li:first-child > :nth-child(2) { display:none; } /*3rd element (down) in last li is not displayed */ ul li:last-child > :nth-child(3) { display:none; } codepen example
2024-01-28T01:26:36.242652
https://example.com/article/9159
Q: jPlayer does not cache the media while playing, if output is provided by PHP script In other words: it does not cache rest of the song while it's playing. JS: $('#jplayer-9999').jPlayer({ ready: function() { $(this).jPlayer('setMedia', { oga: 'http://mysite/getogg.php', }).jPlayer('play', 15); $(this).bind($.jPlayer.event.timeupdate, function(event) { if(event.jPlayer.status.currentTime > 55) { $(this).jPlayer('play', 15); } }); }, play: function() { $(this).jPlayer('pauseOthers'); }, cssSelectorAncestor: '#jp_container_9999', swfPath: '/js/jplayer', supplied: 'oga', preload: 'auto' }); PHP (getogg.php): <?php header('Content-type: audio/ogg'); $output = readfile("/oggs/1234.ogg"); echo $output; ?> However direct links work just fine and song is caching: oga: 'http://mysite/oggs/1234.ogg' Please help resolving this issue. A: The issue was related to OGG format. Changing media to MP3 fixed an issue.
2024-06-20T01:26:36.242652
https://example.com/article/5669
This invention relates to thermoplastic polyolefin (TPO) compositions. In one aspect, the invention relates to compositions comprising at least one polypropylene and at least one ethylene copolymer while in another aspect, the invention relates to compositions in which the ethylene copolymer is of low crystallinity. In still another aspect, the invention relates to compositions in which the xcex1-olefin of the copolymer comprises at least four carbon atoms. In yet another aspect, the invention relates to articles manufactured from the compositions. Soft touch applications such as automotive overshoot parts (e.g., door handles and skins such as dashboard, instrument panel and interior door skins), tooth brush handles, grips, shoe soles, and toys, are requiring ever more flexible TPO compositions. The TPO compositions presently used for soft touch applications comprise a polypropylene and a nearly amorphous ethylene/propylene (EP) or an ethylene/propylene/diene monomer (EPDM) rubber. The EP and EPDM rubbers, which have relatively high glass transition temperatures (Tg) and are blocky (i.e., the ethylene/propylene sequence distribution is highly regular and uniform throughout the polymer), tend to have a flexural modulus at room temperature (25xc2x0 C.) that is higher than desired for the soft touch applications. To obtain the desired flexibility, these TPO compositions require the use of a plasticizer but over time the plasticizer migrates from the composition and this in turn, fogs the composition and/or results in a loss of impact and/or modulus. As such, a need and an interest exists for TPO compositions for use in soft touch applications that require little, if any, plasticizer. According to this invention, TPO compositions useful for soft touch applications comprise, in weight percent based upon the weight of the composition, about: A. 1 to about 99 percent of a least one polypropylene homopolymer or copolymer; and B. 99 to about 1 percent of at least one homogeneously branched ethylene /xcex1-olefin copolymer in which the xcex1-olefin contains at least 4 carbon atoms and the homogeneously branched copolymer has a crystallinity of less than about 3 percent. The polypropylenes of these TPO compositions include high and low crystallinity homopolymers and/or copolymers (e.g., propylene and ethylene), while the ethylene/xcex1-olefin copolymers are of low crystallinity, preferably amorphous or nearly amorphous. Preferably, the ethylene copolymer is a substantially linear ethylene/xcex1-olefin copolymer. The TPO compositions of this invention exhibit unexpectedly lower modulus and/or higher impact and/or higher tensile properties then those exhibited by TPO compositions comprising a polypropylene and a conventional amorphous EP or EPDM rubber. These unexpected and desirable properties allow for the use of these compositions in soft touch applications with little, if any, plasticizer. When plasticizer is added, a smaller amount is added to the TPO compositions of the invention in order to obtain the same or better flexibility compared to prior plasticizer-containing EP or EPDM TPO compositions.
2023-11-12T01:26:36.242652
https://example.com/article/9475
Keywords: elevated CO2; genomic; microarray Abstract The use of genomic techniques to address ecological questions is emerging as the field of genomic ecology. Experimentation under environmentally realistic conditions to investigate the molecular response of plants to meaningful changes in growth conditions and ecological interactions is the defining feature of genomic ecology. Because the impact of global change factors on plant performance are mediated by direct effects at the molecular, biochemical, and physiological scales, gene expression analysis promises important advances in understanding factors that have previously been consigned to the ‘black box’ of unknown mechanism. Various tools and approaches are available for assessing gene expression in model and nonmodel species as part of global change biology studies. Each approach has its own unique advantages and constraints. A first generation of genomic ecology studies in managed ecosystems and mesocosms have provided a testbed for the approach and have begun to reveal how the experimental design and data analysis of gene expression studies can be tailored for use in an ecological context.
2024-01-13T01:26:36.242652
https://example.com/article/4006
Q: Invisble gwt chart when placed into an HTMLPanel I'm experiencing a very weird issue and I honestly don't know what is going on... I'm trying to load a dummy chart in a GWT project. While this works perfectly fine: /** * This is the entry point method. */ public void onModuleLoad() { Window.enableScrolling(false); Window.setMargin("0px"); RootLayoutPanel.get().add(getSimpleLayoutPanel()); // Create the API Loader ChartLoader chartLoader = new ChartLoader(ChartPackage.CORECHART); chartLoader.loadApi(new Runnable() { @Override public void run() { getSimpleLayoutPanel().setWidget(getPieChart()); drawPieChart(); } }); } private SimpleLayoutPanel getSimpleLayoutPanel() { if (layoutPanel == null) { layoutPanel = new SimpleLayoutPanel(); } return layoutPanel; } private Widget getPieChart() { if (pieChart == null) { pieChart = new PieChart(); } return pieChart; } private void drawPieChart() { // Prepare the data DataTable dataTable = DataTable.create(); dataTable.addColumn(ColumnType.STRING, "Name"); dataTable.addColumn(ColumnType.NUMBER, "Donuts eaten"); dataTable.addRows(4); dataTable.setValue(0, 0, "Michael"); dataTable.setValue(1, 0, "Elisa"); dataTable.setValue(2, 0, "Robert"); dataTable.setValue(3, 0, "John"); dataTable.setValue(0, 1, 5); dataTable.setValue(1, 1, 7); dataTable.setValue(2, 1, 3); dataTable.setValue(3, 1, 2); // Draw the chart pieChart.draw(dataTable); } And I get the expected output: When I try to place the chart inside a HTMLPanel: /** * This is the entry point method. */ public void onModuleLoad() { Window.enableScrolling(false); Window.setMargin("0px"); HTMLPanel html = new HTMLPanel("<div id='container'></div>"); html.add(getSimpleLayoutPanel(), "container"); RootPanel.get().add(html); html.setVisible(true); // RootLayoutPanel.get().add(getSimpleLayoutPanel()); // Create the API Loader ChartLoader chartLoader = new ChartLoader(ChartPackage.CORECHART); chartLoader.loadApi(new Runnable() { @Override public void run() { getSimpleLayoutPanel().setWidget(getPieChart()); drawPieChart(); getSimpleLayoutPanel().setVisible(true); getSimpleLayoutPanel().getWidget().setVisible(true); } }); } Results in a white screen, weird enough, if I inspect the DOM with Firebug, I can see the "chart" there...I mean, the svg file that composes the chart: <div aria-hidden="false"><div id="container"><div aria-hidden="false" style="position: relative;"><div aria-hidden="true" style="position: absolute; z-index: -32767; top: -20ex; width: 10em; height: 10ex; visibility: hidden;">&nbsp;</div><div style="position: absolute; overflow: hidden; left: 0px; top: 0px; width: 100%; height: 100%;"><div aria-hidden="false" style="position: absolute; left: 0px; top: 0px; right: 0px; bottom: 0px;"><div dir="ltr" style="position: relative; width: 1525px; height: 200px;"><div style="position: absolute; left: 0px; top: 0px; width: 100%; height: 100%;"><svg style="overflow: hidden;" height="200" width="1525"><defs id="defs"></defs><rect fill="#ffffff" stroke-width="0" stroke="none" height="200" width="1525" y="0" x="0"></rect><g><rect fill="#ffffff" fill-opacity="0" stroke-width="0" stroke="none" height="87" width="453" y="38" x="934"></rect><g><rect fill="#ffffff" fill-opacity="0" stroke-width="0" stroke="none" height="15" width="453" y="38" x="934"></rect><g><text fill="#222222" stroke-width="0" stroke="none" font-size="15" font-family="Arial" y="50.75" x="955" text-anchor="start">Michael</text></g><rect fill="#3366cc" stroke-width="0" stroke="none" height="15" width="15" y="38" x="934"></rect></g><g><rect fill="#ffffff" fill-opacity="0" stroke-width="0" stroke="none" height="15" width="453" y="62" x="934"></rect><g><text fill="#222222" stroke-width="0" stroke="none" font-size="15" font-family="Arial" y="74.75" x="955" text-anchor="start">Elisa</text></g><rect fill="#dc3912" stroke-width="0" stroke="none" height="15" width="15" y="62" x="934"></rect></g><g><rect fill="#ffffff" fill-opacity="0" stroke-width="0" stroke="none" height="15" width="453" y="86" x="934"></rect><g><text fill="#222222" stroke-width="0" stroke="none" font-size="15" font-family="Arial" y="98.75" x="955" text-anchor="start">Robert</text></g><rect fill="#ff9900" stroke-width="0" stroke="none" height="15" width="15" y="86" x="934"></rect></g><g><rect fill="#ffffff" fill-opacity="0" stroke-width="0" stroke="none" height="15" width="453" y="110" x="934"></rect><g><text fill="#222222" stroke-width="0" stroke="none" font-size="15" font-family="Arial" y="122.75" x="955" text-anchor="start">John</text></g><rect fill="#109618" stroke-width="0" stroke="none" height="15" width="15" y="110" x="934"></rect></g></g><g><path fill="#3366cc" stroke-width="1" stroke="#ffffff" d="M525,100L525,38A62,62,0,0,1,584.6331898767148,116.96710538446915L525,100A0,0,0,0,0,525,100"></path></g><g><path fill="#109618" stroke-width="1" stroke="#ffffff" d="M525,100L483.23087009391344,54.181447132319164A62,62,0,0,1,525,38L525,100A0,0,0,0,0,525,100"></path></g><g><path fill="#ff9900" stroke-width="1" stroke="#ffffff" d="M525,100L465.36681012328523,116.96710538446915A62,62,0,0,1,483.2308700939135,54.18144713231911L525,100A0,0,0,0,0,525,100"></path></g><g><path fill="#dc3912" stroke-width="1" stroke="#ffffff" d="M525,100L584.6331898767148,116.96710538446915A62,62,0,0,1,465.36681012328523,116.96710538446918L525,100A0,0,0,0,0,525,100"></path><text fill="#ffffff" stroke-width="0" stroke="none" font-size="15" font-family="Arial" y="140.04361653961504" x="504.5" text-anchor="start">41.2%</text></g><g></g></svg></div></div><div style="display: none; position: absolute; top: 210px; left: 1535px; white-space: nowrap; font-family: Arial; font-size: 15px;">John</div><div></div></div></div></div></div></div> Now as you can see, for some reason is set to "hidden"....any idea why???? Going nuts with this! Thanks, Alex A: Try setting an explicit width and height to your HTMLPanel and to your SimpleLayoutPanel. Since HTMLPanel does not implement RequiresResize and ProvidesResize, you need to set an explicit size. For resizing to work properly, you must have "an unbroken hierarchy between all widgets that implement RequiresResize and the RootLayoutPanel, which listens for any changes (such as the browser window resizing) that could affect the size of widgets in the hierarchy". For more info see: http://www.gwtproject.org/doc/latest/DevGuideUiPanels.html#Resize
2024-04-02T01:26:36.242652
https://example.com/article/2671
Q: Are weak (Sobolev) solutions to a linear ODE a classical ones? Let $\Omega$ be an open subset of $\mathbb{R}$ and let $L$ be the differential operator $$ Lf = \sum_{k=0}^{n-1} a_k f^{(k)} + f^{(n)}, $$ where $a_k$ are reals. I would like to show that every weak (in a Sobolev space $W^{1,1}(\Omega)$) solution to $Lf = 0$ is a classical one. It is quite easy if $n = 1$: $$ af + f' = 0. $$ We rewrite the equation in the form $$ \int_\Omega (af + f')\phi = 0, $$ where $\phi \in C_c^\infty(\Omega)$ is a test function. Then, by the definition of the weak derivative this means $$ \int_\Omega f(a\phi - \phi') = \int_\Omega f(x) e^{-ax}(e^{ax}\phi(x))' = 0. $$ Since $e^{ax} \phi(x)$ could be any test function, we get $(f(x) e^{-ax})' = 0$, which means that $f(x) e^{-ax}$ is constant, hence $f(x) = c e^{ax}$. But how should I proceed in case $n > 1$? A: Definition: a distribution $T$ is of order $r$ if $r$ is the smallest integer such that $$|T(\phi)| \le C\sum_{j=0}^{r} \sup_\Omega |\phi^{(j)}|$$ holds with $C$ independent of $\phi$. Example: if $f\in W^{1,1}(\Omega)$, then both $f$ and $f'$ are of order $0$. Property 1: if $T$ is of order $r$, then $T'$ is of order $\le r+1$. This follows directly from $T'(\phi) = -T(\phi')$. Property 2: if $T'$ is of order $r$, then $T$ is of order $\le \max(0,r-1)$. To prove this, fix a test function $\phi_0$ with nonzero integral. Every test function $\phi$ can be written as $c\phi_0+\psi'$ where $c=\int \phi/\int\phi_0$ is a constant and $\psi$ is another test function. Indeed, the difference $\phi-c\phi_0$ has zero integral, and therefore its indefinite integral is also a test function. Since $T(\phi) = cT(\phi_0) - T'(\psi)$, the result follows (note that $c$ is bounded by $\sup|\phi|$ and $T(\phi_0)$ is a constant independent of $\phi$). After these preparations, proceed to the proof. Let $r$ be the order of $f^{(n)}$ (which is $\le n-1$ by assumption $f\in W^{1,1}$). By Property 2, the sum $\sum_{k=0}^{n-1} a_k f^{(k)}$ has order at most $\max(0, r-1)$. So, $r\le \max(0,r-1)$, which implies $r=0$. Moreover, since any derivative of $f$ satisfies the same ODE, all derivatives of $f$ have order $0$. By the Riesz Representation theorem, a distribution of order $0$ is a signed measure. Integrating a signed measure once, we get a bounded function; integrating it twice, we get a continuous function. Hence, all derivatives are continuous: $f\in C^\infty(\Omega)$. Remark: the proof does not really use the assumption $f\in W^{1,1}$: it works for any distribution.
2023-11-13T01:26:36.242652
https://example.com/article/5110
/** * Licensed to the Apache Software Foundation (ASF) under one * or more contributor license agreements. See the NOTICE file * distributed with this work for additional information * regarding copyright ownership. The ASF licenses this file * to you under the Apache License, Version 2.0 (the * "License"); you may not use this file except in compliance * with the License. You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ package org.apache.hadoop.hdfs; import org.apache.hadoop.classification.InterfaceAudience; import org.apache.hadoop.conf.Configuration; import org.apache.hadoop.fs.CommonConfigurationKeysPublic; import org.apache.hadoop.hdfs.client.HdfsClientConfigKeys; import static org.apache.hadoop.hdfs.client.HdfsClientConfigKeys.DeprecatedKeys; /** * Adds deprecated keys into the configuration. */ @InterfaceAudience.Private public class HdfsConfiguration extends Configuration { static { addDeprecatedKeys(); // adds the default resources Configuration.addDefaultResource("hdfs-default.xml"); Configuration.addDefaultResource("hdfs-rbf-default.xml"); Configuration.addDefaultResource("hdfs-site.xml"); Configuration.addDefaultResource("hdfs-rbf-site.xml"); } public HdfsConfiguration() { super(); } public HdfsConfiguration(boolean loadDefaults) { super(loadDefaults); } public HdfsConfiguration(Configuration conf) { super(conf); } /** * This method is here so that when invoked, HdfsConfiguration is class-loaded * if it hasn't already been previously loaded. Upon loading the class, the * static initializer block above will be executed to add the deprecated keys * and to add the default resources. It is safe for this method to be called * multiple times as the static initializer block will only get invoked once. * * This replaces the previously, dangerous practice of other classes calling * Configuration.addDefaultResource("hdfs-default.xml") directly without * loading this class first, thereby skipping the key deprecation. */ public static void init() { } private static void addDeprecatedKeys() { Configuration.addDeprecations(new DeprecationDelta[]{ new DeprecationDelta("dfs.backup.address", DeprecatedKeys.DFS_NAMENODE_BACKUP_ADDRESS_KEY), new DeprecationDelta("dfs.backup.http.address", DeprecatedKeys.DFS_NAMENODE_BACKUP_HTTP_ADDRESS_KEY), new DeprecationDelta("dfs.balance.bandwidthPerSec", DeprecatedKeys.DFS_DATANODE_BALANCE_BANDWIDTHPERSEC_KEY), new DeprecationDelta("dfs.data.dir", DeprecatedKeys.DFS_DATANODE_DATA_DIR_KEY), new DeprecationDelta("dfs.http.address", HdfsClientConfigKeys.DFS_NAMENODE_HTTP_ADDRESS_KEY), new DeprecationDelta("dfs.https.address", HdfsClientConfigKeys.DFS_NAMENODE_HTTPS_ADDRESS_KEY), new DeprecationDelta("dfs.max.objects", DeprecatedKeys.DFS_NAMENODE_MAX_OBJECTS_KEY), new DeprecationDelta("dfs.name.dir", DeprecatedKeys.DFS_NAMENODE_NAME_DIR_KEY), new DeprecationDelta("dfs.name.dir.restore", DeprecatedKeys.DFS_NAMENODE_NAME_DIR_RESTORE_KEY), new DeprecationDelta("dfs.name.edits.dir", DeprecatedKeys.DFS_NAMENODE_EDITS_DIR_KEY), new DeprecationDelta("dfs.read.prefetch.size", HdfsClientConfigKeys.Read.PREFETCH_SIZE_KEY), new DeprecationDelta("dfs.safemode.extension", DeprecatedKeys.DFS_NAMENODE_SAFEMODE_EXTENSION_KEY), new DeprecationDelta("dfs.safemode.threshold.pct", DeprecatedKeys.DFS_NAMENODE_SAFEMODE_THRESHOLD_PCT_KEY), new DeprecationDelta("dfs.secondary.http.address", DeprecatedKeys.DFS_NAMENODE_SECONDARY_HTTP_ADDRESS_KEY), new DeprecationDelta("dfs.socket.timeout", HdfsClientConfigKeys.DFS_CLIENT_SOCKET_TIMEOUT_KEY), new DeprecationDelta("fs.checkpoint.dir", DeprecatedKeys.DFS_NAMENODE_CHECKPOINT_DIR_KEY), new DeprecationDelta("fs.checkpoint.edits.dir", DeprecatedKeys.DFS_NAMENODE_CHECKPOINT_EDITS_DIR_KEY), new DeprecationDelta("fs.checkpoint.period", DeprecatedKeys.DFS_NAMENODE_CHECKPOINT_PERIOD_KEY), new DeprecationDelta("heartbeat.recheck.interval", DeprecatedKeys.DFS_NAMENODE_HEARTBEAT_RECHECK_INTERVAL_KEY), new DeprecationDelta("dfs.https.client.keystore.resource", DeprecatedKeys.DFS_CLIENT_HTTPS_KEYSTORE_RESOURCE_KEY), new DeprecationDelta("dfs.https.need.client.auth", DeprecatedKeys.DFS_CLIENT_HTTPS_NEED_AUTH_KEY), new DeprecationDelta("slave.host.name", DeprecatedKeys.DFS_DATANODE_HOST_NAME_KEY), new DeprecationDelta("session.id", DeprecatedKeys.DFS_METRICS_SESSION_ID_KEY), new DeprecationDelta("dfs.access.time.precision", DeprecatedKeys.DFS_NAMENODE_ACCESSTIME_PRECISION_KEY), new DeprecationDelta("dfs.replication.considerLoad", DeprecatedKeys.DFS_NAMENODE_REDUNDANCY_CONSIDERLOAD_KEY), new DeprecationDelta("dfs.namenode.replication.considerLoad", DeprecatedKeys.DFS_NAMENODE_REDUNDANCY_CONSIDERLOAD_KEY), new DeprecationDelta("dfs.namenode.replication.considerLoad.factor", DeprecatedKeys.DFS_NAMENODE_REDUNDANCY_CONSIDERLOAD_FACTOR), new DeprecationDelta("dfs.replication.interval", DeprecatedKeys.DFS_NAMENODE_REDUNDANCY_INTERVAL_SECONDS_KEY), new DeprecationDelta("dfs.namenode.replication.interval", DeprecatedKeys.DFS_NAMENODE_REDUNDANCY_INTERVAL_SECONDS_KEY), new DeprecationDelta("dfs.replication.min", DeprecatedKeys.DFS_NAMENODE_REPLICATION_MIN_KEY), new DeprecationDelta("dfs.replication.pending.timeout.sec", DeprecatedKeys.DFS_NAMENODE_RECONSTRUCTION_PENDING_TIMEOUT_SEC_KEY), new DeprecationDelta("dfs.namenode.replication.pending.timeout-sec", DeprecatedKeys.DFS_NAMENODE_RECONSTRUCTION_PENDING_TIMEOUT_SEC_KEY), new DeprecationDelta("dfs.max-repl-streams", DeprecatedKeys.DFS_NAMENODE_REPLICATION_MAX_STREAMS_KEY), new DeprecationDelta("dfs.permissions", DeprecatedKeys.DFS_PERMISSIONS_ENABLED_KEY), new DeprecationDelta("dfs.permissions.supergroup", DeprecatedKeys.DFS_PERMISSIONS_SUPERUSERGROUP_KEY), new DeprecationDelta("dfs.write.packet.size", HdfsClientConfigKeys.DFS_CLIENT_WRITE_PACKET_SIZE_KEY), new DeprecationDelta("dfs.block.size", HdfsClientConfigKeys.DFS_BLOCK_SIZE_KEY), new DeprecationDelta("dfs.datanode.max.xcievers", DeprecatedKeys.DFS_DATANODE_MAX_RECEIVER_THREADS_KEY), new DeprecationDelta("io.bytes.per.checksum", HdfsClientConfigKeys.DFS_BYTES_PER_CHECKSUM_KEY), new DeprecationDelta("dfs.federation.nameservices", HdfsClientConfigKeys.DFS_NAMESERVICES), new DeprecationDelta("dfs.federation.nameservice.id", DeprecatedKeys.DFS_NAMESERVICE_ID), new DeprecationDelta("dfs.encryption.key.provider.uri", CommonConfigurationKeysPublic.HADOOP_SECURITY_KEY_PROVIDER_PATH), }); } public static void main(String[] args) { init(); Configuration.dumpDeprecatedKeys(); } }
2024-01-08T01:26:36.242652
https://example.com/article/1521
Incompatibility in vitro and in vivo demonstrated only with saline-suspended red cells. An unusual IgG complement-binding antibody was observed in a 64-year-old man prior to surgery. This antibody was detectable by the indirect antiglobulin test when the red cells were suspended in saline, but not when they were suspended in acid citrate dextrose or albumin solutions. Positive reactions were obtained with the patient's own red cells and with the cells of all donors tested. In vivo chromium survival studies showed that donor cells and patient cells, when suspended in saline, had 1-hour survivals of 32 and 46%, respectively. In contrast, donor and patient cells suspended in ACD solution had 1-hour survivals of 77 and 93%, respectively. We concluded that this phenomenon may casue accelerated destruction of saline-suspended cells and should be suspected whenever in vitro incompatibility is noted with red cells suspended in saline.
2023-08-13T01:26:36.242652
https://example.com/article/2988
Horohoro Horohoro may refer to: Horohoro, a fictional character in the anime and manga series Shaman King Horohoro, New Zealand, a farming district 15 kilometres (9.3 mi) south-west of Rotorua. Mount Horohoro, a mountain in Hokkaidō, Japan.
2023-08-23T01:26:36.242652
https://example.com/article/1901
On Friday, an intergovernmental organization hosted a hearing in Boulder, Colorado on the ongoing crisis of missing and murdered Indigenous women in the U.S. That group faces some of the highest violence and sexual assault rates in the nation. “We are assaulted and murdered by outsiders, by oil workers, by our neighbors, by our partners, and even through the complicity of our federal government due to its laws and enforcement measures,” Lucy Simpson, a citizen of the Navajo Nation and executive director of the National Indigenous Women’s Resource Center, told commissioners from the Organization of American States. The OAS is a United Nations-like body representing countries in North and South America. It helps mediate grievances on everything from immigration to drug policy and the political crisis in Venezuela. Simpson and other speakers also said the U.S. government isn’t doing enough to address the crisis. No one, for example, knows the total number of missing and murdered Indigenous women in the U.S. because federal agencies aren’t really tracking it. But U.S. Ambassador Carlos Trujillo argued the federal government is doing a lot. Last year, he said the U.S. Department of Justice doubled the amount of grant funding devoted to public safety and victim services across Indian Country. “The increase in resources together with aggressive investigation and prosecution of crimes shows how seriously the United States takes these issues,” Trujillo said. Commissioners overseeing the hearing urged the U.S. to work harder on jurisdiction issues between the federal government and tribes. This story was produced by the Mountain West News Bureau, a collaboration between Wyoming Public Media, Boise State Public Radio in Idaho, Yellowstone Public Radio in Montana, KUER in Salt Lake City and KRCC and KUNC in Colorado. It was on Thanksgiving night that Eastern Shoshone member Jean Harris’ life took a terrifying turn. She had been waiting for a text from her Northern Arapaho boyfriend of over three years, asking her to come pick him up and bring him home. He’d been staying with his parents for several weeks and she missed him. She put on her clothes, re-applied her makeup and drove from her house in Lander to his parents’ house on the reservation to get him. Marita Growing Thunder, 19, is sitting in the grass on a warm spring afternoon at the University of Montana campus in Missoula where she studies art. Growing up, she said, her mom was always talking about aunt Yvonne. The Eastern Shoshone tribe is moving to adopt the Violence Against Women Act in an effort to better prosecute sexual assaults of Native women from the Wind River Reservation. The hope is that the law will help overcome a jurisdiction gap between tribal and federal justice systems.
2024-07-04T01:26:36.242652
https://example.com/article/5361
Anna-Teresa Tymieniecka and Attila Grandpierre (eds.)Analecta HusserlianaThe Yearbook of Phenomenological ResearchAstronomy and Civilization in the New EnlightenmentPassions of the Skies10.1007/978-90-481-9748-4(C) Springer Netherlands 2011 Volume 107 Analecta HusserlianaThe Yearbook of Phenomenological Research Editors Anna-Teresa Tymieniecka and Attila Grandpierre Astronomy and Civilization in the New EnlightenmentPassions of the Skies Editors Anna-Teresa Tymieniecka World Institute for Advanced Phenomenological Research and Learning, Hanover, NH, Hanover, NH, USA Attila Grandpierre Konkoly Observatory of the Hung. Ac. of, Zebegeny, Budapest, Hungary ISBN 978-90-481-9747-7e-ISBN 978-90-481-9748-4 Springer Dordrecht Heidelberg London New York (C) Springer Netherlands 2011 No part of this work may be reproduced, stored in a retrieval system, or transmitted in any form or by any means, electronic, mechanical, photocopying, microfilming, recording or otherwise, without written permission from the Publisher, with the exception of any material supplied specifically for the purpose of being entered and executed on a computer system, for exclusive use by the purchaser of the work. Printed on acid-free paper Springer is part of Springer Science+Business Media (www.springer.com) The Theme: The Passions of the Skies ## The Geo-Cosmic Positioning of the Human Condition In the long procession of research conducted by the scholars of the World Phenomenology Institute, now published in the more than 100 volumes of the Analecta Husserliana book series, 1 we have treated extensively "the Passions of the Earth." 2 With this collection of essays, we launch out into a most significant encounter with the Cosmos. An attentive perusal of the themes of the Analecta Husserliana collections and of their intuitive concatenations will trace from the source the varied paths of transformation of the Logos of Life in its vital, intellective, and creative meanderings and reveal the horizons against which our own explorations have advanced and are advancing as our own philosophical dianoesis unfolds and human knowledge expands. And so, with this collection, we now turn from the "Passions of the Earth" to the Human "Passions of the Cosmos." In this collection of essays we will, therefore, elucidate the range of the mysteries astronomy has penetrated in the last centuries with the progress of science, ponder what it is that animates human fascination with the skies and the cosmos, and develop, what is an urgent pressing need today, our new understanding of Geo-Cosmic transcendental positioning of the Human Condition within the universe, with a particular focus on issues that throw light on the future of life and of humankind. Informing and invigorating all the branches and fresh twigs of thought in our collection are intuition and actual insight into what we as living human beings draw from the heavens for our existence. This fascination and pragmatic observation has over the millennia matured into the scientific field of astronomy. The theme of Contemporary Astronomy and Civilization unites crucial current human preoccupations and should be a theme of our philosophy. Since the Seventeenth Century, astronomy and in particular cosmology has come to assume a pivotal position in scientific inquiry; in philosophy/phenomenology it is time to duly appreciate astronomy's contributions to a complete vision of life, the world, and matters of the spirit. Achieving a comprehensive view of the human being within his existential milieu is today a neglected aim of philosophy. It is essential long since and past time for both astronomy and philosophy to seek their mutual completion, with philosophy taking the lead in the work of interpretive synthesis. ## Astronomy and Phenomenology in the New Enlightenment Questions: "Who and what are we human beings? How may we know and what can we know or not know? How are we intertwined with and intergenerated within our existential milieu? How did humans evolve and for what are they headed?" Such questions have never before in history been so pertinently asked as they are now at our phase of civilization. Life's vital force imposes them on us, breaking through the familiar constraints of technique and philosophy. These issues come forcefully together in new insights of metaphysics and creatively stir the scientific inquiries that have dramatically developed in the last century, initiating a New Enlightenment in our civilization. We see these concerns informing astronomical probing today. The dramatic transformations we have seen in scientific theory and practice dramatically cohere with and inform the primogenital insights of our own ontopoietic phenomenology. As will be more thoroughly expounded in our own contribution to this volume, phenomenology is now framing its culminating critique of reason by turning away from the priority that Kant and Husserl gave to consciousness and bringing to the fore the logos at work in life's genesis as evident in the cosmic interlinkage between the living being/man and life's earthly foundations and the whole cosmos' constitutive laws and rules and constructive unfoldings. Thus, with the stupendous development of the sciences, astronomy has come to have a cogency for us that is at once vital, psychological, social, intellectual, and creative. Understood for millennia in all civilizations as knowledge of the skies above, and sensed as well to be most intimately fused with the cycles and events of the natural world and with human destiny, astronomy has acquired a more precisely defined role in our period of world civilization. While it has lost some of the attraction of "enchantment" that it had in the past, it is a less isolated science as scientific corroboration informs it from all sides so that its pertinence to the questions posed above is ever more strikingly highlighted, questions that have prime life significance in our culture today. The scientifico-philosophic alliance not only formulates these questions more sharply, showing their crucial significance for understanding human nature and existence but it also throws new rays upon our overall vision of the world and life. We have entered into the time of a New Enlightenment shaped by and developing a new awareness of existence. And we may now consider astronomy to have an ultimate scientific significance, to be a crucial link in the unifying skeleton of and framework for the scattered pursuits of scientific inquiry. With the New Enlightenment, new light is breaking through the crevices of broken scientific frameworks (conceptual systems, methodologies, approaches, and mechanistic stringency) so that the numerous new scientific approaches to the natural world, human beings, and culture can find in astronomy foundations for a new vision of things, for a new framework for research, for fresh answers to the perennial puzzles of human existence. ## The Geo- Cosmic Architectonic We will enter now into a brief presentation of the inner bond between astronomy and philosophy by introducing the phenomenologico-ontopoietic basis for the panorama of a full scientific and metaphysical inquiry. We will first of all alert the reader that we will in what follows draw throughout upon our own development of the phenomenology of life and the Human Condition, a condition envisaged within the unity-of-everything-there-is-alive . 3 We have in this project been delving into generative beingness and gaining perspectives extending from the genesis of life's individualizing unfolding, through the imaginative-creative swing of the human mind, to our spiritual heights, social as well as sacral; now we extend our horizons further. Secondly, and most significantly for our present purpose - the philosophical presentation of our present collection--we stress that phenomenology of life and of the Human Condition constitutes a radical revision of the "transcendental" origins of phenomenology by reassessing the critical conditions for the possibility of knowledge (see my own contribution to this collection, infra, pp. 3). Both Kant and Husserl relegate the transcendental to human consciousness. In contrast, phenomenology of life through its thematic meanderings has arrived at a geo-cosmic architectonic. It departs from Kant's formal a priori by which the transcendental origins of cognition consist of the categories of human subjectivity that organize inchoate reality into something knowable. It also departs from Husserl's material a priori whereby transcendental subjectivity functions as the foundation for achievements of sense. Instead, in our vision the transcendental itself consists of a positioning of human beingness itself whereby meanings (knowledge) are constituted through the progressive development of life in its various stages of organization (transcendental conditions for knowledge) culminating in the creative achievements of human life. As there is a unity-of-everything-there-is-alive, the transcendental reference of cognition consists in the principles of that unity. Life, however, also includes the organizational level of physis, such that the principles manifest in the geo-cosmic architectonic are constituents of the transcendental function. This means that geo-cosmic principles are not simply objects of knowledge--and so they are treated throughout the natural sciences, especially in theoretical physics, astronomy, and the earth sciences--but that they function within the transcendental agency of life. As the phenomenology of life must proceed by undertaking a genetic archaeology in the human being, our methodology consists in retrogressing through the levels of organization of the human soul in order to recognize those geo-cosmic principles operative within it. This is how their transcendental function and its geo-cosmic positioning are to be apprehended and explored. Since it is at the human station of life that the logos of life manifests itself in self-awareness of the logos, apprehending the transcendental requires that this architectonic be traced through the processes and structures inherent to the individuated human being. Thus our queries go beyond the province of the mind and unfold against the horizons of life and of the cosmos (Tymieniecka, infra, p. 3). Therefore in our present investigation we face two strategic aspects of the metaphysics of beingness that encounter each other diametrically: the originary genesis of beingness (the ontopoietic route taken by the Logos of Life in its work), on one side, and life's geocentric-cosmic orientation, on the other side. Here we find an orientation that projects the design of an individualizing being not confined to any static ontological framework but sustained within the stream of the ontopoietic unfolding of the Logos of Life, and there at a distance from the constitutive absolute prerogative of consciousness (as a transcendental reference of constitution), we see life situated within the existential architectonics of its geo-cosmic networks. Thus is launched an inquiry in which the metaphysics of life encounters at essential junctures the parallel concerns and puzzlements of the scientific approach to the mysteries of the spheres of space, which - more than backdrop - are the ground of the story of life. These great questions that humanity is insistingly asking in our day call for answers that will ring true against multiple horizons. Not a unitary philosophical summary of the data but rather in-depth probing of concrete and varied issues, the enrichment of concepts in danger of being emptied of meaning, directions for the organization of insights, above all, principles of a higher, universal order, these are the projects of the New Enlightenment. Our overarching worldview is in need of a renewed foundation, one at once cogent and concrete, an order in which all the dimensions of reflection find a voice. ## Astronomy's Pivotal Role Seeing through the prisms of the specific scientific approaches and within the perspectives of the questions that the New Enlightenment raises, we aim to introduce an order into the chaotic state of science's proliferating directions, one that reflects their interlinkage and coalescence not only in cooperative inquiry but also the collateral constitution of nature, the world, the universe, and man per se that the yields the possibility of that linkage and cooperation. The very chaotic state of scientific inquiry, that is, its rapid diversification is giving to astronomy a pivotal role among the sciences. A focus on the crucial issues of existence impels us to discover the links between the sciences that will allow for their generative cohesion, and astronomy - given the sweep of her ramified universal realm with its horizons - promises us that order in the universe and coherence in thought is, indeed, to be found. The astronomical panorama simultaneously implies an order among the sciences and in the universe, one that extends from science to philosophy. ## The Order of the Universe and the Unity of the Sciences The primordial theme in our panorama of papers is the taking up of the issue of the universal order of the cosmos - which immediately informs the project of the universal foundation of the sciences. We find, to begin with (see Grandpierre, infra, p. 19), a complex and differentiated vision of the universe that integrates nature and most philosophy, one in which reality is differentiated into three levels: phenomena, laws, and first principles, which correspond to the different branches of the natural sciences - the physical, the biological, and the psychological. First principles play the decisive directive role in treating the becoming of the universe. Moreover, and most significantly, the first biological principle simultaneously entails life as it serves as the ontological basis of the universe. It also governs the origins of life, and the psychological principle accounts for unfolding intersubjective and social performance. The three principles of nature accord with ontology, metaphysics, and religion. This unity of the constitutive levels entails a comprehensive view of the universe, men, and life (Grandpierre, infra, p. 19). In this new view of the universe, the natural sciences integrate philosophy, forming together a comprehensive outline. The quest for the unity of scientific and philosophical reflection intensifies as the contemporary sciences seek out ever more minute elements of reality but cannot fathom "the deep underlying nature of the cosmos of reality" (Kafatos, infra, p. 69). Our authors offer profound scientifico-philosophical reflections on the order of the universe as well on the unity of sciences. Within the outlines of the universal order we probe the most enriching and fascinating network of ties between the cosmos and human beings and their world. Hence, within a general philosophic-theoretical perspective (Koechler, infra, p. 43), we enter into richly varied perspectives that introduce us to the breadth, depth, and intimacy of innermost personal experiences and the universal acknowledged, concrete influences of astral space on life, the human being, the world, nature, imagination, and spiritual elevation. This fabric would necessarily cover the entire spread of the existence of human beings on earth in the evolution of human groups from the elemental stirrings of culture through the history of humankind. And so we find all human, innermost concerns reflected in interpretative experience of the heavens, in imaginative reactions to the celestial experiences of humankind. To understand and grasp the human being, the universalizing tendency of philosophy seeks such concrete enrichment for the completion of our individual vision of life. With roots deep in the earth, we extend our vision to the encircling skies. This fluctuating vision of stars, planets, galaxies impresses on us the basic transformations of nature and of our own natural life. This is essential to our natural existence, to our evolving of life. Naturally, humans have felt emotionally connected in their depths to the motions of the heavens, and in their pondering and imagination have believed there to be a communication between those motions and their moods, emotions, tendencies, even searching out in them the course of events and destinies. Over the centuries the interplay between our vital, concrete groundwork in the earth and the assumed, felt, but enigmatic ties with heavens has belonged to the natural human experience of life. With the progressive growth of human knowledge, the wondrous lore of the heavens as an enigmatic cognate of our existence has developed into sober scientific exploration and intellectual theorizing matching the rest of scientific probing into nature. Whether in European, Asian, African, Mediterranean, or other cultures, human beings have found the fullness of their existential breadth expressed in the regular, moving, infinite panorama of the star-studded skies, measuring the rhythm of their own existence on earth by their revolutions. What is more natural than to seek also influences of the heavenly bodies upon our intricate, hidden personal motivations and destinies? Or to be inspired by enigmatic signs from above? Prompted by imagination, human beings exult in the experience of feeling ours destinies to be limned in concordant motions of the firmament. Numerous studies in our collection emphasize the common threads running through cultural developments in the early history of humankind as well characteristics specific to each culture. Living in our usual modes of being, we are usually unaware of how we have visceral bonds with the forces of the cosmos. Several of our authors penetrate the deepest grounds of our spheres of performance and discern how elementary terrestrial concerns such as the framing of measurements, the development of the sciences, and discoveries in the arts, etc. have been sidereally influenced (see Cook, Iwaniszeweski, Puskas, V. Raman, etc.). Others find profound links between the science of astronomy and the mysterious conditions of human life (see Davies, Seckbach, Chela-Flores, etc., infra). And several studies venture directly to show how the high inspirations of mankind partake of celestial influence, treating inspiration for spiritual elevation, religion, theology (Stoeger, Stone, and others, infra). If we follow the leads of the innumerable intuitions, reflections, and insights proceeding from the astronomic-philosophical conjunction to the culminating point, we will conclude that this ground for philosophy of geo-cosmic life augurs the "brightest and most fascinating shining path for mankind's future" (Minoo and Bathaee, infra, p. 283). ## Notes 1 Analecta Husserliana, The Yearbook of Phenomenological Research, Volumes 1--107; now published by Springer Media. 2 Analecta Husserliana, Passions of the Earth in Human Existence, Creativity, and Literature, Volume 71; Anna-Teresa Tymieniecka, Kluwer Academic Publishers, Dordrecht, 2001. 3 Analecta Husserliana, Introduction to the Phenomenology of Life and of the Human Condition, Treatise 4, Logos and Life, Impetus and Equipoise in the Life-Strategies of Reason, Volume LXX; Anna-Teresa Tymieniecka, Kluwer Academic Publishers, Dordrecht, 2000. Anna-Teresa Tymieniecka Acknowledgements We are pleased to welcome in our book series the collection of papers read at the World Congress of Astronomy and Civilization, held at Lorand Eotvos University, Budapest, Hungary on August 10-13, 2009 under the direction of Attila Grandpierre of Konkoly Observatory. After numerous interdisciplinary investigations in phenomenology of life punctuating great perspectives of Passions of the Earth concerning human being and his world, societal interlinking, and higher strivings, we have reached in this collection the counterpart of human's earth-generation, that is the cosmos. The vast panorama of perspectives and insights gathered from natural sciences, with Astronomy in their center offers a rich harvest of considerations for our philosophical panorama upon issues crucial for our today's culture about the place and future of the humans. I offer my warmest thanks to our colleague Attila Grandpierre for entrusting us these studies for publication and joining me in the task of editorship. Our authors merit our greatest appreciation. I thank as usually, Jeffrey Hurlburt and Robert J. Wise, Jr. for their faithful cooperation in editing this volume. Table of Contents Acknowledgementsix The Theme: The Passions of the Skies xi Anna-Teresa Tymieniecka Section I Astronomy, Science, Philosophy Flourishing in the New Enlightenment The New Enlightenment: Cosmo-Transcendental Positioning of the Living Being in the Universe 3 Anna-Teresa Tymieniecka On the First Principle of Biology and the Foundation of the Universal Science 19 Attila Grandpierre The Relation Between Man and World 37 Hans Kochler Observers, Freedom, and the Cosmos 47 Subhash Kak The Enchanting Heavens 61 Frances Clynes The Science of Wholeness 69 Menas Kafatos Section II Cosmos Shaping World Views Meridianae in Italy 83 Bela Kalman The Cosmological Circumstances and Results of the Anno Domini Invention: Anno Mundi 6000, Great Year, Precession, and End of the World Calculation 89 Sepp Rothwangl Coming of Age Under the Night Sky: The Importance of Astronomy in Shaping Worldviews 99 Stephen P. Cook Medieval Roots of the Modern Cosmology 111 Miklos Maroth Is There Any Fundamental Connection Between Man and the Universe? 119 Vladimir A. Lefebvre Section III Astronomy in the Origins of Culture Cultural Impacts of Astronomy 123 Stanislaw Iwaniszewski Triadic Insights in Astronomy, Art and Music 129 Norman D. Cook The Social and Spiritual Impact of Sky Lore on Prehistoric Societies in Europe 137 Emilia Pasztor Impact of Astronomy in Nepalese Civilization 145 Suresh Bhattarai Impact of Stars on Human Culture 151 Varadaraja Venkata Raman The Contribution of Musical Theory to an Ancient Chinese Concept of the Universe 167 Alice Williamson Cosmopolis: How Astronomy Affects Philosophies of Human Nature and Religion 175 Nancey Murphy Section IV Universe and Life Mind in the Quantum Universe 189 Henry P. Stapp Why is the Universe Just Right for Life? 199 Paul Davies The Compelling Case for Panspermia 211 Chandra Wickramasinghe Nanobionts and the Size Limit of Life 225 Laszlo G. Puskas The Russian Cosmism and the Modern Theory of Complexity: The Comparative Analysis 229 Helena Knyazeva Astrobiology: From Extremophiles in the Solar System to Extraterrestrial Civilizations 237 Joseph Seckbach and Julian Chela-Flores Section V The World of Life, Astronomy and the Human Spirit Astronomy and the Soul 249 Nicholas Campion Rationality and Wonder: From Scientific Cosmology to Philosophy and Theology 259 William R. Stoeger S.J Positive Contribution of Religion to Cosmology 269 Marian Ambrozy Principle of Greatest Happiness 277 Katalin Martinas Astronomy: Brightest and Most Fascinating Shining Path for Mankind Future 283 H. Minoo and S.M.T. Bathaee A Theistic Model of Physical Temporality 289 Anthony P. Stone Humanity En Route to the Glorious Unity of Our Universe 297 Ion Soteropoulos Name Index305 Subject Index311 # Part 1 ASTRONOMY, SCIENCE , PHILOSOPHY FLOURISHING IN THE NEW ENLIGHTENMENT Anna-Teresa Tymieniecka and Attila Grandpierre (eds.)Analecta HusserlianaThe Yearbook of Phenomenological ResearchAstronomy and Civilization in the New EnlightenmentPassions of the Skies10.1007/978-90-481-9748-4_1(C) Springer Science+Business Media B.V. 2011 # The New Enlightenment: Cosmo-Transcendental Positioning of the Living Being in the Universe Anna-Teresa Tymieniecka1 (1) The World Phenomenology Institute, Hanover, NH, USA Anna-Teresa Tymieniecka Email: Wphenomenology@aol.com Abstract Modern science has grown accustomed to viewing a hazy, imprecise, fleeting reality. The fact of chaotic deterministic systems, the mix of discontinuity and stability, of mutation and enduring type, presents both a challenge and opportunity to metaphysics. To pick up the challenge presented by the sciences as well as the vital concerns of humankind and to formulate a novel conception of nature-life along the lines of life's ontopoiesis is to indicate philosophy's new parameters. Although the rhythm of impetus and equipoise evident in life's ontopoiesis has come to light only recently, it brings us genuine enlightenment about the cosmos, bios, and the human being - a New Enlightenment that constitutes a critical break from the tentative searching of the philosophy of the past. The transcendental realm of the logos is revealed not as confined to human consciousness but is manifested foremost in the architectonics of the earth and the cosmos. That is to say that inchoate reality is organized not by the observing mind alone but from within itself, which organization ultimately finds expression in the mind. An archeology and/or genetics that captures the correspondences between the individual and the universe, here is the ultimate foundation that Husserl repeatedly started over again to find. The "phenomenology of phenomenology" that he sought is one that sees how human creativity chimes with the ontopoiesis operative in nature - in both the cosmos and life. ## The Modern Transformation of Science and Philosophy's Seeking Fresh Metaphysical Grounding Contemporary science has seen the shattering of the classical postulates of precision and exactitude by which objects and their mechanistic relations were to be isolated. The objective order of the universe that was once manifest is no longer there for us. This development is owing to the introduction of the once ignored vector of time into physics. Today the natural sciences begin to resemble the social sciences. The unforeseeable, the unpredictable is now allowed. Determinism and freedom, necessity and chance are no longer sharply dichotomous. We have moved to viewing a hazy, imprecise, fleeting reality. Even the geometry by which reality is modeled has changed. Benoit Mandelbrot's fractal geometry is more suited to capturing the turbulence, the dislocation and irregularity, found in nature. The traditional formalism of mathematics has been surpassed by an approach that allows human intuition to contribute to the representation of nature. This approach was pioneered by Poincare. In pondering the geometric properties of the functions of differential equations, he drew on Nikolai Lobachevsky's non-Euclidean "hyperbolic geometry," which denied Euclid's postulate that two parallel lines will remain parallel to infinity. Then, surprisingly, Poincare found that through his new visualization of differential equations he could explicate the stability of the solar system, providing a resolution of the "three-body problem" in the plotting of orbits. Poincare grasped the distribution in "phase space" of points of stability and instability that yet make up a coherent whole. He became the first person to discover a chaotic deterministic system. This has found further application in the study of all chaotic deterministic systems. Poincare thought this mix of stability and instability to be beyond visualization when it came to more complex systems. But with the power of computers, Mandelbrot's fractal geometry is now allowing that visualization. And mathematician Rene Thom built on the concept of phase space to paint a universal morphology that takes into consideration nature's relatively stable points as well as the various types of its constructive becoming in the "regular" and "irregular" ("catastrophic") occurrences that introduce discontinuity into the morphological progress and lead to some mutation within the type (see his Stabilite structurelle et morphogenese [1972]). For Poincare, Mandelbrot, and Thom visual intuition is key to our capturing reality. We may even speak of an aesthetic expansion of the discipline of mathematics. The abstract science of mathematics "humanizes" itself. Today the role of the subjective in scientific inquiry is, therefore, much appreciated. But the historical studies of phenomenologist Alexandre Koyre showed how much the element of the subjective was always there. Alexandre Kojeve, having absorbed Koyre's work and having absorbed too Niels Bohr's interpretation of Heisenberg's finding that being observed changes the state of whatever is observed rendering the apprehension of exact causality impossible, further elucidated the most significant factor of the "subject," the living concrete individual who as an inquirer envisages everything around him/herself. The role of the subject is now universally recognized in physics and the rest of science. Strikingly, in his L'Idee du determinisme dans la physique classique et dans la physique moderne (1932; Paris: 1990), Kojeve saw that we should not identify the subject with a mathematical, abstract point, uniform and unchangeable, nor with its biological corporeity, nor as a psychological agent. Here we are at the threshold of our own phenomenology of life and its ontopoiesis, which has as its focus the creative condition of the investigator, whether experimenting or observing or speculating. The Creative Human Condition provides us with the Archimedean point from which the unfolding flux around us may be probed, for there is correspondence between that unfolding and our own. Indeed, our inquiry takes us beyond correspondence to convergence. It is from the point of investigation into human creative genius that it is appropriate to enter into exploration of reality. Given that the subject is to be seen as belonging to the same ontological realm as the world and as interacting with it, we cannot continue to consider cognition to be the main factor in scientific experience. What is key is the creative virtualities subtending the mind - the creative imagination inspiring it and the creative act bringing that imagination to its unique fruition. For in our investigation we unroll and circumscribe the creative compass of all the spheres of reality/life in which the living creative subject has to participate in order to assume the role of the observer or experimenter, or discoverer, inventor, creator. I submit that only the creative mind of the human being can fulfill all the conditions set by Kojeve, first, and most significantly, by legitimating its extraordinary vantage point and second by introducing us into the hidden spheres of reality itself. Our vision accords with that of Leibniz, for whom each living being, through a monad, reflects the entire universe. The human mind is positioned to descend into the inner workings of becoming and in the disorder there confronted recognize the wealth of rationalities projected as chance and necessity conjoin in a constructive game. The human creative act may progressively penetrate into all the spheres of existence, of life, the reality in which this station is not always openly rooted but out of which it has developed, maintaining permanent ties. Thus we may connect and harmonize the elusive, discrete, seemingly worlds apart factors of becoming. That said, ours is a different type of monad. Key here is elucidating in virtue of what the creative act of the human being may penetrate into the innermost workings of nature, existentially partaking of the interaction that the living being maintains with them. Thus, there follows here the required fresh critique of reason that is launching a New Enlightenment. In essaying this project, I am countering the tendency of analytic philosophy to turn the real around without touching it. I here take a lead from Rene Thom, who stressed that in the changing reality with which scientists deal there must be assumed to be some permanent givens having "a certain generativity." Thom affirmed that "even in science ontology is necessary; metaphysics is not dead" (see his "Preface," in Jean Largeault, Systemes de la nature [1985]). Thus, I will not suppress the perennial metaphysical concerns of the mind. I will introduce my own metaphysical panorama. Awareness of the temporality of events, processes, transformations in the inorganic as well as organic spheres has provoked great puzzlement over the nature of "development," that is, of the irreversible process that carry life forward. This is now the central issue of science. For as mathematician Ivar Ekeland observes, Thom's catastrophe theory looks at the entity-in-progress only from the outside, leaving its assumed intrinsic reasons to be guessed at (see his Le calcul, l'imprevu: les figures de temps, de Kepler a Thom [1984], pp. 96-101). Addressing this issue is the grand concept of ontopoietic unfolding, which constitutes the ontologico-metaphysical axis of becoming as such as well as of becoming in its lineaments. This is the fulcrum by which the phenomenology-philosophy of life gains purchase on reality. This involves a vision of reason that breaks out of the narrow traditional framework and opens up creatively toward appreciation of the host of new rationalities now expounded to deal with the changeable currents of existence, to generate criteria of validity, predictability, prospects, measures. We present then the scientific investigator as an immersed conscious subject, immersed in the lifeworld, within the human-condition-in-the-unity-of-everything-there-is-alive. To pick up the challenge presented by the sciences as well as the vital concerns of humankind and to formulate a novel conception of nature-life along the lines of the above-outlined ontopoiesis of life is to indicate philosophy's new parameters. Although the rhythm of impetus and equipoise evident in life's ontopoiesis has come to light only recently, it brings us genuine enlightenment about the cosmos, bios, and the human being - a New Enlightenment that constitutes a crucial break from the tentative searching of the philosophy of the past. The transcendental realm of the logos is not confined to human consciousness but is manifested in the architectonics of the earth and the cosmos. That is to say that inchoate reality is organized not by the mind alone but from within, which organization ultimately finds expression in the mind. The unity-of-everything-there-is-alive has unifying principles. Hence, geocosmic principles are not simply "out there" to be discovered or mapped, but inhere in the researcher as well. An archeology and/or genetics that captures the correspondences between the individual and the universe, here is the ultimate foundation that Husserl repeatedly started over again to find. He was able to extend intentionality down to the human body, to "instinct" and "drive," which he formerly had bracketed. But the "phenomenology of phenomenology" that he sought is one that sees how human creativity chimes with the ontopoiesis operative in nature - in both the cosmos and life - and is also open to the sacral horizon that is ours to scan. ## The Ultimate Critique of Reason Whether we simply appreciate the beauty of the sky above us or observe the motions of the stars in the changing firmament through a telescope, drawing precise conclusions, it is the experiencing subject who receives the fruit of the experience and who transforms its yield into the form of an "observation." It is thus upon the experiencing subject's capacities that these results depend. In the classical approach to scientific inquiry, the observed is seen as being "neutral," to stand aloof from circumstantial conditions, to be "disinterested." This "objectivity" of observations has seemed to be the privilege of scientific inquiry. Recognition of our experience, of how it processes the form of an observed object belongs to appreciation of the conditions of human cognition. "Neutrality," "disinterestedness" meant in practice indifference to the inquirer, to the experiencing subject. Precisely, the research protocol determined the conditions of the inquiry's procedure such that the inquirer as an experiencing subject had to be ignored. "Abstracted from" life, research results were meant to be "neutral." However, this abstraction, the elimination of the inquirer in his epistemological situation, meant that the living out of the inquiry and its subject fell into a void with respect to the universal condition of human cognition. But this approach underwent significant transformation in the expansive unfolding of scientific research in the last century. I refer the reader to my previous presentation of the in-depth transformations that scientific inquiry underwent in the second part of the last century and which is continuing (see "The Ontopoiesis of Life as a New Philosophical Paradigm," Phenomenological Inquiry 22 (October 1998), pp. 12-59). Here I will directly approach the transformation in appreciation of the "scientific subject" that we owe in particular to Alexandre Koyre, Alexandre Kojeve, and the physicist Niels Bohr. To begin with, whether it be natural, naive observation of the skies, of nature around us, or sophisticated instrumental scanning of space, the observed is viewed in correlation with the physical position of and climatic conditions around the observer. There is besides his/her individual endowment or "powers of observation." And the horizon of observation shifts according to the distance we assume, advancing or receding from our objective. Whether it be by our naked senses or through instrumentally augmented capacities, that is, whether the viewer uses our natural organs directly or intermediary technical devices, it remains, first of all, the case that the horizons of the object of scrutiny change, which specifies and completes the view in which it appears. And these horizons seem to be infinite in extent. And secondly, the results of observation depend on the "powers" of the observer, not only on his/her natural endowment (keenness of sensory, experiential organs, etc.), but also on the qualities of technical devices, with how the setting up, regulating, etc. of the instrument correlates with, first of all, the actual receptive capacities of the agent. In short, both natural capacities and the most developed technical tools ultimately depend on the powers and circumstances of the living conscious observer, who, in the second instance, not only obtains the measured yield of the mechanical "intermediary" but has also to estimate and appreciate them according to his/her individual powers. As pointed out, the horizons of experience are movable and infinitely extendable, depending on viewpoint, situation in space and time, and on the powers of the experiencing subject, his/her reception and appreciation. In brief, the observer is the conscious mind of a living individual. Further, his/her powers strictly depend on (are correlative to) the entire network of the experienced object, which correlation spreads through the entire sphere of experience - of cognition. Secondly, the great question arises, "Wherefrom comes this so intimate junction of experience with its object if not from the networks of constitutive reality?" Reality, which is constitutive as such, is to be correlatively cognized. Anticipating our later argument, let us declare here that between the powers of the experiencing mind and the accessible constitutive system there lies an entire constructive system of nature, earth, and universe within which this operative complex of beingness, life/soul, and consciousness/mind unfolds. That is to say that, ultimately, we have to answer this great puzzle by surmising that cognition, experiencing, soul and mind have a hidden key to their very existence in the architecture of the universe. It is, in fact, owing to an essential transformation of science (together with contemporary sociocultural changes) that we are witnessing such an enrichment of our experiential, intellectual, and spiritual resources in our time, such an expansion of the horizons of our spirit, that I descry in it all nothing less than a New Enlightenment, one that the phenomenology of life and its ontopoiesis, heralds. Vast extensions of our experiential reach are opening our vision. But the promise of future human experience in all its spheres, whether naturally or scientifically approached, lies in the Archimedean point of the human creative subject within the entire system of our existential coordinates. As the cognizing subject stretches through the system of its linkages, coordinates, it corresponds adequately to the system of the object it is coordinated with. The key question is that of how to find what constitutes one's most intimate correlation with the object focused upon - what is the groundwork of their "congeniality"? In other terms, what is the groundwork of subject-object correlation, which is to ask, "What is the basic existential condition of cognition?" In brief, science with the modification of the observer's experience and the processing of the yield of observation is going back to the basic processes and networks of human cognition so that we might get to the crux of this enigmatic correlation between the subject and object, between the life of the human mind and the ultimate cosmic horizon. ### Cosmic-Transcendental Cognition and Consciousness within the Universal Network and the All The great question raised by modernity was formulated by Kant, and by Husserl after him, as the question of the possibility of knowledge/cognition. Both of these thinkers attribute the power to structure the import of empiria, of experience, to a specifically human consciousness that is understood as being "transcendental" and to exercise a dominion over the world of life that it establishes. And yet if we do not limit our cognition to the realm of the manifested world of life - the structured realm of the human mind - but consider also the vaster and more inclusive region of life enveloping it, we have to ask, "To what may we ultimately refer the possibility of cognition/constitution of reality?" Then, we would further ask, "What bounds of the transcendentally projected dimensions - planes or extensions - of the gradated evidences of the cognitive horizons may we consider to be accessible to experience, what limits may we reach beyond, and in virtue of what factors?" Here we have to put on trial the great answer given to these questions by Kant and Husserl in their focusing on the transcendental role of human consciousness. We will treat these questions anew upon the ground of our phenomenology/ontopoiesis of life. However, what we should consider first is that ultimately - and within the perspective of our first phenomenology of the ontopoiesis of life - we have to unravel the "positioning" of the living being in its existential functions, in which come together all the forces, linkages of its generation and becoming in articulations with its circumambient conditions, all of which together make up the great network of life. That is to say, we have to discover the subject's positioning in life's appropriately focusing forces, as well as its participating in their outlay, within the circumambient conditions - which extend to geo-cosmic, spiritual, and sacral horizons. To be the centralizing logos that is an individual is to express this positioning of life's functional existence along the byways of becoming. After we have perused in fragments the ontopoietic conditioning of the universe by the logos of life in its intrinsic projection of life so as to glimpse the vision of the All, we have first to further pursue the question of the "positioning" of the self-individualizing beingness within the conundrum of the logos of life - the arteries of the All - and then to pursue the existential roles of the innermost powers, forces, and dynamic evolutionary perspectives that our individualizing resources contain in a virtual state, ready to be actualized. We will proceed on the territory of the survival-oriented as well as creative metamorphoses worked by the logos of life. Yet, before we enter into this further exfoliation that will in turn reveal the root of the logos in its creative imaginative metamorphosis, something we have already provisorily sketched, we will raise some essential questions concerning our already outlined inquiry. First of all, we will turn to the "positioning" of the living agent within the unity-of-everything-there-is-alive and within the orbit of life. We have to ponder our human cognitive situation, for it plays an essential role, one in which it has to ascertain itself existentially, to orient itself within the current of life with its logocentric compass. That means appreciating the laws, the generative rules, the logoic network of life, which allows us to posit that the self-individualizing beingness is its own "center" standing in the "light" as well as within the circumambient horizons retrieved from the "darkness." To handle these questions we will return to the classic inquiry into the transcendental situation of conscious beingness so forcefully maintained by Kant and Husserl. We see that although we may consider the horizons of experience to be transcendental, those horizons are also to be seen in a special existential sense that contrasts with the understanding of the philosophers. We emphatically will still see the crucial role of transcendental horizons, but "transcendentality" and its operation now emerge in a different setting and with respect to further existential conditions in our full experience and vision of life, which goes beyond human intentional consciousness. Secondly, and in relation to this first inquiry, we have to peer into the innermost resources of this individualizing beingness, which in their virtual state may grow, unfold along with the constructive evolving of the individualizing self and which may throw into relief higher experiential/evidential horizons that correspond to the innermost congenital yearnings of the sentient soul. To distinguish these experiential evidences I will use a traditional term, "transcendentalia," and will speak more particularly of existential transcendentalia. These carry evidential forces of the soul that correspond experientially to the expansions of the transcendental horizons of existential beingness, which they now maintain. While we clear the ground, we will aim at an outline of the generative existential positioning of our key notion of self-individualization within the unity-of-everything-there-is-alive, one encompassing the existential orbit of the logos. ### The Positioning of the Self-Individualizing Beingness within the Purview of Cognition Vis-À-Vis the Generative Construction of Becoming For Kant and Husserl, philosophy's basic question is that of the possibility of knowledge, a question that concerns the ultimate condition of the subject-object correlation upon which they see knowledge relying, which question goes further, therefore, to the origins of constitutive subjectivity in the world. In their terms, put into question is the ultimate transcendental origin that constitutes subjectivity. Ours, in contrast, is a primordial concern with the transcendental existential horizons that open up to subjectivity, as well as with the surging forth and range of the existential transcendentalia, that is, of the virtual resources accompanying evolving beingness in its growth and available in its experiential spheres. This positioning of the living agent as the central agency of processing life follows first from its receiving (passio) and responding (actio). Going back to Husserl and his predecessor Kant, we may agree that their conception of the transcendental possibility of knowledge/cognition relies on the basic principle of the correlation between the subject performing cognition and constituting reality, thus presenting and manifesting it, and the object on which the act of cognition-constitution is focused and the content of which that act aims to grasp. In other words, there cannot be an act of cognition without an object at which it is directed, as there cannot be a subject without its having an aim, a focal point, an object it holds in view. This is the subject-object correlation, which is codeterminant. This is the case for all possible functions of cognition: from ongoing empirical experience through all the levels of the genesis of consciousness up to the highest functioning of the creative mind and of judgment. The experiential genesis advances while offering the basis for a twofold perspective: first, constitution (construction) of the existential progress, and second, the objectification of a stepwise advancing constitution of content - with the logos being distilled stepwise in fragments and then synthesized, that is, advancing in a manifestation of reality, with cognition of it by the subject then occurring in a presentified objective form. The second perspective - that of existential constitution - makes the steps of the logoic functional constructive advance, while the first perspective takes note them as a synthesizing constructive logos evident in the completion of their sense, manifesting it as "real." One perspectival side seemingly differentiates the other, therefore, completing it in life's functioning; simultaneously the other side is enlarged in the manifestation of its progress. The experiential side of the logoic performance - the subjective side - makes the cognitive objective side expand by manifesting reality in its objective panorama, and vice versa. ### The Crossing The crossing from the performing attention of the subject to the figurative coalescence of the experiential objectifying of elements into a sui generis universalized "object" freed from subjective ties is of special significance. The question of the figurative reference of this moment is decisive. Does the figurative complex of a distinctive object as seen by Kant and Husserl depend on its ordination by the self-regulative mind and its assumed a priori categorial forms - that is, on "pure" consciousness independent of empiria and distinctly belonging to the conscious apparatus of constitution? Does this ordination hang upon the supremacy of the constitutive mind, with experiential material being directly subsumed under the intellect, even as it brings experiential cognition toward the presentation and manifestation of reality, of the common world? Does it directly subsume experiential material under the unconditioned mind or does it accompany the functional life of the genesis unfolding in the empirical material? All these questions indicate a passage from the modality of logoic constructivism to another modality. Kant with his formalism and even Husserl in his differentiation of genetic constitutive synthesis overlook constitution's complete run. They have indeed overlooked two essential points. To begin with, we can say on the basis of ontopoietic analysis that the work of this synthesis is not an ordination of the genetic process by a supreme intellective mind applying its categorical models and principles (the noetic-noematic laws constituting eidoi, the categories, etc.) - which means in Kant the a priori status of pure reason and for Husserl the operations of pure consciousness. Second, as seen in our previous inquiries, the genetic process of originary becoming decisive for the form of this synthesis stands in contrast to formal transcendental constitution. The modalities of the synthesis are, in fact, the consequential outcome of the logos of life's ontopoietic genesis. ### The Originations: Consciousness-Life First of all, for Husserl, the "awakening" of consciousness is the move that constitutes its first achievement. For me the starting point is the outburst of the logos of life with its propensities and resources, which are manifest in life's virtual design. Already at this point, our perspectives are at a remove from each other. In the ontopoietic perspective, life and consciousness are interchangeable. We may consider the incipient moment of self-individualizing life as consisting in the bursting forth of the "spark of life," as the entrance into play of the logos, pregnant with its resources, endowments; here is a project of spontaneous unfolding that acts as an incipient carrier providing a sentient vehicle for a logoic outline. This spontaneous unfolding of logoic potential is, as I have numerous times emphasized, the existential manifestation of the logos of life. In it there conversely runs an outward/inward oriented press of gradated, progressively sentient/affective/fusing-diffusing, constructive genesis, which unfolds step by step with the constructive concretization of the logoic sequence while unfolding the genetic line of living beingness within this seemingly two-force line of the inward constitution of the living center. This living center, the living agent - the subject of reception from the "outside" while acting from the "inside" - designs an objective circumference of existential conditions. This subject-object differentiation intensifies with the unfolding and growth of the living being in a linea existentiae, while the existential steppingstones are laid down for the emerging progress of a conscious center of actio-passio - of experience - into a self-consciousness within which the logos brings together the conscious elements in a specific synthesis that ties a knot giving the acting agent the character of a center amid outwardly oriented involvements. Focusing on its progressively advancing objective environment, this center aims at the sense, the logos of the objective content of this experience-in-progress. This is a special device of the logos for conducting the origination and growth of the living agent from within in order to maintain the continuity of the objectified process aiming at its universalized objective manifestation. This center is the specific cognitive face of the process in which the objective content of the logos is formed. ### The Twinned Phases of the Originary Construction of Life in its Logos and the Cognitive Logos Universalized as the Intentional Objective Domain of the Mind It is at the point at which the processes of experience advance along the steps of the logos, following its constructive devices from one step to the next, timing their deployment according to its constructive completion, that these processes reach the point of tying the knot in a synthesizing objectifying act of the logos. This is, indeed, a kairic achievement of the logos. In this moment we find the accomplishment of the logos' experiential route. This achieving of the constitution of focal objective content lies at the brink between the natural endeavors of the logos' ontopoietic thread as it ties itself onward from step to step while processing experiential data, on the one side, and the kairic move of the already creative logos of the mind bringing about a novum in an objectified form, a universally objective logos detached from the subjective process of performance, on the other side. And yet this "novelty" in its autonomous complexity does not emerge independent and unconditioned, setting itself apart from nature as a separate autonomous self or self-reposing entity; it is, rather, a form of the living agent, with its decisive performance completing its present route of life and drawing on all its existential ties. It is through the radiating circuits of the agent's life route that this object reaches in its complexity its universalized grasp. ### The Turning Over of Supremacy from Mind to Life It is actually in the first "phase" - that of the pragmatic involvement of attention carried by the sentience of the logos of life as we fixate on functional tasks at hand - that the experiential genesis carrying the functional ontopoietic course of experience proceeds; it is aimed primarily at achieving its existential ontopoietic functional constructivity. It is, however, a significantly polyvalent logos that is involved in the subsequent constitutive cognitive phase. This constitution aims at the progressively figurative-"objectified" form of the ontopoietic existential construct thus being constituted. This objectified content of the experiential genesisbelongs essentially to the existential course of the ontopoietic undertaking, which plays a vital functional role. In rectifying our view on the genetic conditions of experience, we have to recognize that although the cognitive logoic perspective is indispensible, it does not preside over the construction/constitution of reality. Further, cognitive attention and cognitive figurative principles, models, rules are not ordained by an instancing distinct from nature, separate from empirical experience. The cognitive/conscious constitution of objectivity is convertible with the natural functional root of existential generation. In fact, these movements are inseparable, even if in abstraction they are distinct. That is to say, the distinctive figurative functions of consciousness - of the intellective creative mind - themselves stand under the ordination of ontopoietic empirical experience and its ontopoietic constructive logos, they being directed by a nucleus of sense embedded within its logoic network. It is there, then, that lies the field of a horizon that opens and spreads through the correlated evidences of the subject as they expand and intensify. The ontopoietically growing subject contains, indeed, resources for further evidences growing with its unfolding. These evidences extend the horizons of experience, force, and intuition, what I have called before "existential transcendentalia," to which we will return shortly. To synthesize: (i) Beginning with originary generic experience, we reach through the subject-object correlated schema a process-like thread of objectifying reality that expands as new horizons are opened with each type of act. (ii) Although the performance of the subject, in virtue of which and with the resources of which the subject is actualized, is involved in and involves further (virtually) the context of all its vital, functional engagements - its kinesthetic and wider contexts of experience, particularly those involving a rapport with other beings - nevertheless this process is oriented simultaneously toward recording and objectifying its logoic content. (iii) The line of the logos guiding the subject binds or releases according to the proximity of the aim, of the objectified intellective presencing of that aim. It is upon the point of the "maturation" of this process that all the logoic threads of experience gather into a knot, at which point the conscious apparatus actuates a further constitutive device of the logos. This is an apparatus of the logos that - in contrast to the outlook of Husserl, for whom this instance means the entrance of pure consciousness into the game - is not an independent agency of the mind unconditioned by empiria and following a presencing/objectifying intentional system whereby pure consciousness posits universalized objective contents through which the human mind brings about the spectacle of the networks of things, beings, processes, etc. that we know as reality, as the real world with its familiar rounds and its innumerable horizons. In contrast, this logoic apparatus posits itself as being existentially solidary with the vital-empirical genetic net of the logos of life. (iv) If we follow the ontopoietic unfolding of the experience of life - instead of shrinking its thread to cognitive achievement and leaving to the side the entire host of functions that carry it and without which that achievement would not be possible - we find, first of all, that cognitive achievement, as essential as it is for the course of the experience of life, is directed not by an autonomously devised, sui generis, constitutive schema of intentional consciousness in which the noesis-noema constitutive correlation plays the essential role, but by the architectonic-constitutive system of existence, that is, by the logoic project of life. We have thus far discussed and brought out, in classical phenomenological terms, the subject-object correlation as being the crucial point of reference by which to distinguish the generative vital logos from the cognitive logos, realizing that the latter is a sort of abstract skeleton that does not take into consideration the concrete experiential synthesis in which the concrete experiential process is clad and seeing how this centralizing skeleton, whether vitally or cognitively significant, is an abstraction. And, indeed, while the generative run of the vitally significant-empirical process consists in a centralizing absorption of experiential material within one's own constructive and cognitive perspective, this process proceeds precisely by distilling "essential" moments and abstracting them from others. To put it in other terms, each conscious act confronting essentially distilled content withdraws from other elements that could be focused on; with this long-range attention there moves a "horizon" with hazy contours. That is to say, we agree with Husserl that each conscious act draws upon/entails material that does not come into focus in our attention. This amounts to saying that the design of the objective content that is sketched is never complete. See Edmund Husserl, Formale und Transzendentale Logik, par. 59 (Husserliana XVII, p. 96). ### Positional Horizons and Existential Transcendentalia Our conclusion from the above is that the transcendental situation of the living being consists not in cognitive apprehension but in the vital positional situation of the living agent as the center of a band of vital attention as it pursues functional concerns - with all of its functions stemming from and oriented outwards by a "center" - a center open to receiving reactions, nourishment, etc. With this basic thrust residing within, the living agent plots its surroundings - its existential round of actio and passio - as its world. Its vistas, its psychic, intellective functioning of varying degrees of complexity all occur within the circumference of what is being focused upon, which circumference extends further our functional possibilities for actio and passio, with all being enveloped by and lying within the dim sphere of the undetermined, the agent's horizon. We have then to recognize not only the horizons of our cognitive performances - which Husserl emphasized - but also the horizons of the whole of experience of living beingness and of all its vital functions. At this point the question occurs of the central position assumed to be operative in the ambit of the functional and experiential realm of living beingness. Centrality, which is differentiated in the innumerable complexes of the dynamic operations of life, is an essential characteristic of the beingness of the entire logoic schema. As the process of individualization hangs existentially upon there being posited focusing beings within the logoic network, this network organizes itself in virtue of individual centralization of basic functions. ### Positional Horizons and the Main Spheres of the Evidentiary Forces Prompting and Sustaining them I have thus far emphasized the vitally significant horizons of the individualizing/generative/evolutionary phases of life. These horizons define the orbit of living beingness in the unity-of-everything-there-is-alive, differentiating into the innumerable spheres of human experience. And yet we cannot forget that they are not the "final" or "definitive" horizons of human life. On the contrary, as I have discussed in various contexts of sense, the logos of life in its intrinsic metamorphosis during the evolutionary course of the individualizing genesis of beingness unfolds numerous modalities that reach realms beyond those geared to survival and which culminate in the full-fledged unfolding of the human creative virtualities. Constantly advancing in its progress, the logos is ever strengthened and invigorated anew by existential or presentational acts from which surge new virtually present resources of force and direction. Having reached beyond the existential/evolutionary parameters of vitally significant (survival-oriented) horizons to the spheres of communal/societal life, the creative logos now throws up spiritual and, lastly, sacral horizons of experience that actually surpass the now narrow confines of the existential horizon. It is of great significance, indeed, to emphasize that perception, experience of any type of intentional performance of consciousness or mind, is never complete, but that in either its presentation or in its functional tie, in linking with the object it is aimed at, it extends beyond. The logoic context of this object, which the subject provides in its evidence, is always enveloped within a larger context, the hazy contours of which lie beyond the sphere that comes into focus in the given evidences. Nevertheless, this sphere, which extends further and further away from the focused on nucleus of the object, as its evidences wander further, remains within the radius of the subject's "objective" constitutive system. In the ontopoietic perspective, this holds for all acts of existential functioning as well. Following Husserl, I call this context the "horizon." ### The Overturning of the Transcendental Supremacy of Mind Over Life At each step of the experiential genesis of the linea existentiae there progressively open numerous horizons of vitally significant experience that expand the vast ontopoietic realm in the numerous perspectives of its constructive functioning. The subjects of experience carry their evidences prompted by their own functioning. Pursuing the ontopoietic current backward, we dig down into experiential/preexperiential realms of the individualizing thrust and discover the geo-generic sources of life's individualization and their intergenerative conditions. But these generative realms of the milieu of mother earth themselves lay out rules and conditions for the origination and progress of life in their intertwining, interlinking, interconditioning with cosmic laws and atmospheric and stratospheric structural coordinates. Taken together, these all constitute the enormous network of the logos of life in its dynamic strife. In brief, life in its existential spheres (as well as in its cognitive presentational realms) passes from one to another of its functional constructive phases even as it proceeds dynamically from the coordinating instrument of the logos of life, which is assumed by each living agent in its full expansion, including the highest intellective spheres of the mind. As such, life is existentially conditioned and suspended upon the cosmo-existential, geo-generic network; operating within that web, life has an ordination upon which its architectonic outline depends. Still, the sentience of the logos of life permeates its entire concrete dominion and lifts it to a unique horizon that leaves the entire orbit of the architectonics of life behind. To summarize: (i) Beneath the primordial ordination of life's praxis in its generation and evolution and its cognitive presentational coordination, there lies the pragmatic ordination of life's functions. However, this level of coordination at which the living subject/the living agent encounters its "objective" counterpart in the existential transaction relies on a constructive ordination that posits the agent as both a subject of actio and passio and the "object" of that ordination's attraction, attention, objectives within the web of the unity-of-everything-there-is-alive and ultimately within the network of the logos of life. (ii) Within the constructive outlay of the logos of life at the perceptual/experiential level, there lie individualizing generative laws that the self-individualizing sequences engaged in harnessing the flux of becoming "obey" according to their modalities. These laws coordinate their dynamic moves while dealing with the available resources, which themselves are prepared according to life's organic/functional laws. (iii) Yet this interlinkage of the elementary preeordinations of the logos hangs upon laws and rules, that is, upon an existential architectonic that indicates, determines, circumscribes their existential positioning - the conditioning of the subject/object dynamic circuit. In short, it is the geo-cosmic system of rules, interrelations, disposition of forces that ultimately governs the specific distributions of individual beingness. The features of living individuals that we recognize as being essential to them are a genetic outcome of a constructive/constitutive progression extending back to the pragmatic levels of vital functioning, to the proto-architectonic rules positioning life within the geo-cosmic system. Laws of nature, the system of life, and the geo-cosmic architectural blueprint present the network of the logos of life within which the living individual may act and receive as a center of its own but one that is itself immersed in an immense dynamic network within which it is positioned as it shares, coordinates, structures at the crossroads of the primordial logoic forces, rules, and laws of the existential web wherefrom it draws its prime directions whether pragmatic (functional) or presentational (cognitive). From our brief inquiry we may state that the human mind or pure consciousness - or the living agent - is not a self-instituted independent entity. Being an integral functional processor of life, it is modeled by the logos, it having attained this level of constructivism upon the basis of the rules, the prerequisites of the logos, the furthest architectonic of life. This so powerful mind, the center of our world, is but transcendentally positioned within this dynamic network of life preordained by the forces, laws, and flow of the logos. There is no doubt that human mind/consciousness occupies a central position within our individual world and partakes as well of the world of all living beings, but in all that it is the integral fruit of this immeasurable network, it taking ordination and positioning from that network's logos-prompted moves. The world of life that man projects around himself is indeed transcendental but not in its fundamental origins in constitutive consciousness/mind - with its specific centrality - but rather with respect to its positioning within the dynamic web of the geo-cosmic architectonics of life. It is life-transcendental. Anna-Teresa Tymieniecka and Attila Grandpierre (eds.)Analecta HusserlianaThe Yearbook of Phenomenological ResearchAstronomy and Civilization in the New EnlightenmentPassions of the Skies10.1007/978-90-481-9748-4_2(C) Springer Science+Business Media B.V. 2011 # On the First Principle of Biology and the Foundation of the Universal Science Attila Grandpierre1 (1) Konkoly Observatory, Budapest, Hungary Attila Grandpierre Email: grandp@iif.hu Abstract We propose to replace the present, 400 years-old scientific world picture with an updated, essentially complete model describing the architecture of the Universe. We show that three levels of reality, namely: phenomena, laws and first principles, together form the Universe. Moreover, on the basis of observable behaviour, phenomena, laws and principles can be classified into three fundamentally different branches of natural sciences: physical, biological and psychological. It is shown that the first principles have an ultimate role in the Universe, concentrating the governing potential of the Universe in a most elegant, comprehensive and fundamental manner. We define life and introduce the first principle of biology, i.e. the Bauer principle and show that it is the most fundamental of all the three first principles of the Universe. We consider the similarities and differences of our biological principle in comparison to the onto-poietic principle of Anna-Teresa Tymieniecka. With the help of the three first principles of natural sciences, we present arguments indicating the ultimate basis of the long awaited universal science that has a determining role for the development and perspectives of sciences, philosophy, religion, art, and the future of civilization. ## Introduction. Besides Physical Phenomena and Objects, Physical Laws and First Principles also Exist At the turn of the third millennium, we have a 400-year-old scientific world picture telling that the Universe is a thing to be described by physical cosmology. The universe is regarded as "the whole cosmic system of matter and energy of which the Earth is a part" (Enc. Brit., 2007, Ultimate Reference Suite, entry Universe). In this physical world picture everything is claimed to be physical, at least fundamentally, and, as the argument tells, everything consists from elementary particles and physical fields of force governed by physical laws. Yet we point out that the real practice of physics in problem solving demonstrates that the two most fundamental elements of physical reality are initial conditions (representing particular states, i.e., instantaneous slices of the observable phenomena, corresponding to the initial state) and physical laws (representing, approximately, the laws of Nature). Therefore, we can deduce an important conjecture, namely, that not only physical phenomena exist, but physical laws of Nature (which are only approximated by the presently known physical laws), too. Physical laws are not merely abstract entities but really exist in the Universe (in more details see Grandpierre, 2011a). Our conjecture has a fundamental significance for the fact that all the fundamental physical laws can be derived from one, deeper law of physics: from the principle of least action (Feynman, 1994; Moore, 1996, 2004; Taylor, 2003, 2010). "The action principle turns out to be universally applicable in physics. All physical theories established since Newton may be formulated in terms of an action. The action formulation is also elegantly concise. The reader should understand that the entire physical world is described by one single action" (Zee, 1986, p. 109). The least action principle is all-encompassing and universal, representing in itself the essence of physics in the most compact and elegant manner. Therefore we call it a first principle, defined as follows: > Definition of 'first principle': A fundamental law can be regarded as a 'first principle' if and only if all of the fundamental laws of the given branch of natural sciences (in physics, that of classical mechanics, hydrodynamics, electromagnetism, thermodynamics, theory of gravitation, and quantum physics, including quantum field theories and string theory) can be derived from it. The so obtained new model of the Universe tells that the real Universe is built up from (i) phenomena, (ii) laws and, ultimately, from (iii) first principles (Grandpierre, 2011a). The fundamental consequences of this new picture are illustrated here with one example. Today it is a frequent view that the origin of the idea of infinity is an unsolvable enigma, since infinity cannot arise from a finite brain. Our model offers a natural explanation: our brain consists not only from a finite number of finite atoms, but also from laws and principles of Nature. Since the laws and first principles of Nature are unconstrained regarding their domain of application, therefore our brain consists not only from finite atoms but also from infinite laws and principles. Now since the brain works by those laws and principles, it has a natural source of infinity. In this way, the origin of the idea of infinity can be explained. Our Universe does not exhaust in physical phenomena. Instead, our Universe consists basically from phenomena, laws and principles. This result is so important that it demands a fundamental revision of the present scientific world picture, and offers new perspectives to build up an exact, quantitative theoretical biology and psychology. This means that, besides the promising new perspectives, there are some apparently embarrassing difficulties, presenting some conflicts between our present-day scientific world picture and the least action principle. ## Three Difficulties with the Least Action Principle The first difficulty is that the least action principle is teleological, in a standard meaning of the word. Teleology is defined in the Encyclopedia Britannica (1998, entry: teleology) as "explanation by reference to some purpose or end". Therefore, the least action principle is teleological, because it establishes a direct connection between an end state (to be reached at the final moment of the given process) and the initial state. In physics the end state is not selected by the physical object; instead, it is given by the situation on the basis of the physical laws. It belongs to the very nature of the least action principle that it refers to an end state. Regarding this basic fact, it can be regarded as surprising that most physicists think that teleology is alien in physics. Certainly, this type of physical teleology is different from teleology that is characteristically present in biology. In biology, teleology is characterized by action in which the end state corresponds to biological needs or ends, and the living organism can contribute to the determination of its endpoints. The biological endpoints are not determined by the physical, least action principle, but by biological needs corresponding to the biological principle. Definition of the biological principle. The biological principle tells that biological processes are driven by the principle of greatest happiness. Happiness is measurable unequivocally. The empirical tests falsify all the theoretical dejections against the greatest action principle (Veenhoven, 2007; Grandpierre et al., 2011d). Happiness is not a momentary term, but has a long timescale, and, ultimately, refers to the life-long timescale. Definitely, the greatest happiness can be achieved through maintaining the largest distance from the thermodynamic equilibrium (death). Therefore, the physical aspect of the biological principle is the principle of greatest action, expressing the physical aspect of biological behavior, which means, somewhat simplifying, to maintain as much biologically useful energy above the level of equilibrium as long as possible. We will clarify this important issue later on (section "The Biological Principle as the Ontological Basis of the Universe"). At present, the important thing for us is that a living organism can participate in determining its endpoints, and such biological endpoints are characteristically different from the endpoint corresponding to a similar physical object or to the dead state of the same living organism. Certainly, biological teleology is very different from the third type of teleology, namely, human teleology, which can include a characteristically higher degree of autonomy, and a carefully planned intent or purpose. The second difficulty is that the physical meaning of action is unknown. "It is a truism that the physical meaning of each symbol contained in any principles of physics has to be specified before the theory can be applied in practice" (Yourgrau and Mandelstam, 1955, p. 139). The fact that the physical meaning of action is unknown presents a second inconsistency. Indeed, the same authors Yourgrau and Mandelstam also acknowledge - on their next page! - that The action function is rather an invaluable mathematical aid than a means of interpretation (ibid., p. 140). The third difficulty is that the actual meaning of physical action has fundamental biological meaning. "The computation of the action is similar to that done by an accountant determining the total profit of a business for any given production strategy. The businessman naturally tries to maximize the total profit by following the most advantageous history" (Zee, 1986, p. 107). Actually, the most fundamental meaning of the action principle is that the action is a cost function (Rosen, 1967, pp. 4, 155). Indeed, the action is the sum (more precisely, the integral) of the product of the time investment and the energy investment, or the product of the energy investment of all consecutive elementary time intervals in the process, summed up from the initial state until the end state. Such a cost function is plausible in biology (Lengauer, 2000) since for a living organism energy expenditure and time investment are both valuable, and in reality their product is what should be engineered to be optimal. But the presence of a cost function as a central governing factor of the behavior of physical objects, when regarded as completely independent from living organisms and humans, is very unexpected and moreover alien to present-day physics, indeed. These three difficulties are the more significant since they occur at the very core of physics, in its first principle. It is even more remarkable that all these three difficulties correspond to biology. ## Three Arguments Indicating that the Realm of Biology Lies Beyond Physics We now present three arguments indicating that the realm of biology lies beyond the basis of physics. As a first of these related arguments, we mention that the Universe is the par excellence interdisciplinary and creative entity, continually creating novelties, not only in the physical domain, but in an all-comprehensive, trans-disciplinary way. The example of the protosolar nebula shows that the initial state of the contracting nebula led to the development of the Solar System, in which Homo Sapiens is present on the Earth, developed science and philosophy in questioning the nature of the Universe. This basic fact shows that physics and biology are intimately interwoven, and in actual reality they represent two aspects of the same cosmic reality. As a second such argument, we note that in the history of philosophy, it has been recognized that Natura Naturans (i.e. creative Nature) precedes Natura Naturata (created Nature) (e.g. Aristotle, 350 BC; Augustine, 410; Aquinas, 1265-1274; Spinoza, 1677; More, 1679, p. 222). Similarly, Tymieniecka (1999, p. 27) argued that the Archimedean point that is the ground for inquiry into all existence is the creative condition, and considers the convergence between the "physical subject" of scientific experimentation (like the central role of the observer in the "reduction" of the quantum wave function into observable states) and the creative human net and the more fundamental ontopoiesis of life. This second argument is substantiated by the von Neumann interpretation of quantum physics. "nineteenth century classical physics is now known to be fundamentally incorrect: it was replaced during the twentieth century, at the fundamental level, by quantum mechanics, which denies the basic precept of "physical determinism", or "causal closure of the physical"... von Neumann's "Process 1" (the mental process formulating the question to be answered by the quantum physical experiment) is not controlled by "quantum randomness". It is, instead, the necessary logical predecessor to the entry of the element of quantum randomness. It specifies the otherwise-ill-defined (physically undetermined - GA) set of discrete possibilities between which the logically subsequent (physically - GA) random choice will be made. The entry of this physically undetermined but causally efficacious Process 1 into brain dynamics constitutes a failure within quantum mechanics of the classical precept of physical determinism; and a failure that is logically prior to the entry of quantum randomness" (Stapp, this conference). Indeed, Gregory (2004) demonstrated experimentally that cognitive phenomena violate physics-based physiology. As a third argument, we emphasize that in the practice of physics the two basic elements of reality are the initial conditions and the physical laws. Most fundamentally, in the context of the philosophy of sciences, we can claim that physics is the science working between given initial conditions that together with the physical laws define the physical problem satisfactorily. Characterizing the fundamental significance of biology we point out here that, in comparison, biology is the science which corresponds to the determination of the initial conditions within which the physical processes occur. In this way, biology can harness physics, in agreement with everyday experience. Moreover, physics is a special case of biology, valid when the systematic modifications of the initial conditions are negligible. In other words, characterizing the rate of biological modifications of the input conditions to physical laws with a parameter ɛ, physics arises from biology when ɛ converges to zero. From this last argument it is evident that biology is the science beyond physics, and physics in actual reality is based on biology (Grandpierre, 2011b). ## Physical Processes are the Short-Term, Narrow-Context Aspects of Biological Processes Looking at reality from this vantage point, physics shows up as a necessary part of reality: its surface. Everything that is already realized is physical, corresponding to the realized aspects of Nature, Natura Naturata. Yet there is a physically not realized, yet in itself real factor beyond physics, the biological principle, corresponding to the creative aspects of Nature, Natura Naturans. Of course, Natura Naturans in itself cannot be measured, since all what we can measure is Natura Naturata, i.e. the already realized processes. It seems to be general to think that therefore Natura Naturans cannot be regarded as scientifically provable. We point out that, in contrast, Natura Naturans has fundamental aspects that are scientifically proved, and thus are in this way similar to the physical laws. Physical laws are not directly observable things, since they are immaterial; yet their existence is scientifically proven by the most careful, thorough and extensive process of verification. Similarly, we can deduce also the biological laws from the observed behavior of living organisms. All biologically initiated and realized processes can be described by physics in a short enough timescale, in a narrow context. This occurs when the modifications of the conditions within which physical laws act are negligible. Therefore, for a viewpoint committed to see only the surface of reality, it may seem that the only reality is the physical reality. In actual reality the conditions within which the physical laws act can arise from a deeper and subtler biological activity. Nowadays, the nature of this biological activity may seem to be mysterious because it lies well outside the scope of the conceptual framework of the present-day natural sciences. But it is easy to illustrate it by an example. The trajectory of a bird dropped from the Pisa Tower from point A can be described by physics in each and every millisecond, from one moment to the next one on the basis of the initial conditions at the beginning of the time interval. Yet the actual trajectory of the living bird, from the initial point to the endpoint, cannot be determined from the initial conditions at point A of the process, on the basis of the physical laws. The prediction of physics is that A leads to the endpoint A', according to the least action principle - to the law of free fall. Yet the bird is constantly active in changing the position of its wings and tail, in the process modifying the initial conditions of the physical laws from one moment to the next. If the dropped bird is no longer active - i.e., no longer alive - it falls to A', in the same way a physical object would. But because the dropped bird is active, it flies like a bird to the endpoint B. Therefore, the biologically decided and consecutively physically realized and observable process of the flight of the bird dropped from the Pisa Tower leads to a physically observable trajectory which cannot be calculated from the initial conditions plus the physical laws. The related problem is: What are the processes controlling the initial conditions? We only mention here that, within the realm of physical phenomena, spontaneous processes, fluctuations, instabilities, and quantum indeterminacy are physically not (completely) determined processes that nonetheless contribute to the physical behavior, occasionally, randomly or sporadically. Still the behavior between the initial and end states corresponds to the physical principle in that the object manifests a physical behavior. The physical laws predict that initial conditions at A lead to the trajectory that culminates at endpoint A'. If the endpoint turns out to be B instead - as in the biological case of our living bird - then the physical laws as presently constituted cannot account for this. Thus we conclude that living organisms autonomously contribute to the determination of their behavior by constantly modifying the input conditions of physical laws, by controlling the spontaneous processes and physically not completely determined other processes, and so they manifest characteristically biological behavior, corresponding to - to use analogous physical language - the principle of greatest action; or, in the biological context, to the principle of greatest happiness (see in more details below). ## Defining Life and Introducing the First Principle of Biology The twenty-first century has been declared the century of the science of biology. We have entered to a new century of biology, in which "the new frontier is the interface, wherever it remains unexplored" and "progress is based ultimately on unification" (Kafatos and Eisner, 2004). The exact biology is already founded by Bauer (1920, 1935/1967). He demonstrated that all the fundamental phenomena of life - growth, metabolism, respiration, irritability - can be derived from his fundamental principle, which he formulated mathematically. On this basis, the Bauer-principle stands out as the prime candidate for acceptance as a first principle of biology. It is usual to think that life cannot be defined exactly and exhaustively; that is, according to the laws of physics. Yet life can be understood as the universally common property of all living organisms. This understanding underscores the Bauer-principle's definition of living organisms. The Bauer-principle tells: The living and only the living systems are never in equilibrium, and, on the debit of their free energy, they continuously invest work against the realization of the equilibrium which should occur within the given outer conditions on the basis of the physical and chemical laws (Bauer, 1935/1967, pp. 19, 51). We draw one important corollary: If all the fundamental physical laws can be derived from the first principle of physics, then the least action principle characterizes all physical behavior. However, since biological behavior follows the Bauer principle, requiring a systematic self-initiated work against the realization of the process that would occur within the given initial conditions on the basis of physico-chemical laws, it is evident that biological behavior as such is different from physical behavior, and thus cannot be explained on an exclusively physical basis. Therefore, biology is an autonomous science, because it has a first principle that cannot be derived from the physical principle. At the same time, theoretical biology on the Bauerean basis is surprisingly close to theoretical physics: For the first principles of both are action principles. Bauer formulated his insights into the biological principle in elegant mathematical form (Bauer, 1935/1967, p. 53), thus making his ideas universally accessible. Recently, his principle has been re-formulated as the principle of greatest action (Grandpierre, 2007). The principle of greatest action is not simply the biological counterpart of the least action principle. It would be a misunderstanding to think that the greatest action principle acts between initial and end states in exactly the same way as the physical principle. There's a vast difference: While the least action principle prescribes the least action trajectory, the greatest action principle would prescribe the greatest action trajectory. Actually, the greatest action principle does not act on the physical level, since it acts continuously on the input conditions of physical laws; its target is the end state; it corresponds to the selection of the biologically optimal end state. For example, while the stone dropped from the top of the Pisa tower A falls down vertically to point A', the living bird dropped from the Pisa tower A selects the endpoint B, which corresponds to the bird's finding a trajectory that spares it from being dashed to pieces when it hits the ground, which is what the physical laws unaided predict it will do. Only a living bird can do that. The endpoint of the bird's trajectory, B (Grandpierre, 2007), is selected by the biological principle. Nonetheless, different directions are possible from A to B, for instance, east, west, south or north; it is the bird that selects the actual endpoint to be realized. Once the end state B is selected, then the actual trajectory of the bird can correspond to the least action principle as applied to the trajectory between A and B. The greatest action principle corresponds to the selection of the end state favoring maximum survival period and maximum height above, or distance from, the level of equilibrium or death. We point out that the relation between the least action principle and the greatest action principle is not completely symmetrical. A company that builds bridges can produce the maximum number of bridges in a given year only if the cost to build a particular bridge is minimized. Similarly, the principle of greatest action can be carried out only with the help of the least action principle. This example indicates that the physical principle is suited to be the ideal tool of the biological principle. ## The Biological Principle as the Ontological Basis of the Universe In this way, the recognition of the significance of the greatest action principle sheds new light to the ontological structure of the Universe. By our result, biology in an ontological sense "precedes" physics. In other words, instead of common expectations, it is not the case that biology is a special branch of physics. Instead, these novel fundamental arguments indicate that, in an ontological sense, physics is based on biology. Our theory suggests that the physical principle is "created", "supervised" and "harnessed" by the biological principle. Biology acts on the input conditions of physical laws, and varies these inputs in order to achieve a biologically optimal output. At the same time, our argument also indicates that the biological principle cannot be realized in the absence of the physical principle. Our results shed light on new perspectives for the development of biology. For example, it is possible to work out in detail an exact theoretical biology, similarly exact and mature as physics. It is possible to obtain general equations for the energy transfer processes of biology, as well as general equations (Grandpierre, 2007) corresponding to spontaneous targeting (Grandpierre, 1997) or biological homing (Meggs, 1998). Regarding the paramount importance of our corollary that the biological principle precedes the physical one, we can realize that biological processes ultimately can precede and determine virtual quantum processes occurring in the vacuum. Therefore, biological processes represent a level of reality beyond quantum physics. Beyond the level of quanta we find: the biological principle at work. The next step after quantum physics will be biology. ## How can Biology Act Beyond Physics? By our theory (Grandpierre, 2008b, 2011b) the initial conditions are modified first by virtual interactions governed by the biological principle. The jump between the nonmaterial biological principle and its physical effects is through spontaneous processes and the vacuum's virtual interactions. These virtual interactions, within suitable conditions, can generate biological couplings between different possible physical processes. As a result of these subtle virtual interactions and coupling processes, physically spontaneous processes arise; for instance, spontaneous emission, absorption, spontaneous energy transfer; and, due to the freshly generated biological couplings between energy-liberating exergonic and energy-requiring endergonic processes, active transport processes set up, such as the recharging of electric- and concentration-gradients, etc. These biological couplings between endergonic and exergonic processes generate biocurrents from virtual interactions, and these bioelectric phenomena can elicit, e.g., muscle responsivity, which leads to modifications of the physical conditions of the bird dropped from the Pisa Tower. ## A Short Note on Consciousness, Self-Consciousness and the Psychological Principle The recognition of the greatest action principle can also shed light on the nature of consciousness and self-consciousness. Consciousness can be conceived as the practical aspect of sensible life. The idea that consciousness corresponds to the material aspect of sensible life has already appeared in the work of Clifford (1886, p. 274). In contrast, self-consciousness appears to be of a different order, as a highly developed aspect of consciousness that can deliberately control an aspect of behavior. Now let us propose a few thoughts regarding the nature of the psychological principle. First of all, a short note may be necessary to distinguish natural psychological behavior and putatively unnatural ones. The former is meant as interpreting the principle of greatest happiness in a concrete situation, selecting its context, its communal sphere or domain of application and the corresponding time-scales. The fundamental communal spheres of the actions of the self include the sphere of our cells, of our individual organism, of our family, nation, of mankind, of the terrestrial biosphere, of the cosmic biosphere (Grandpierre, 2004, 2011c). This means that natural psychological behavior is that which selects contexts that correspond to the principle of greatest happiness for all these scales and communal spheres: cell, individual, family, nation, race, biosphere, and the cosmic communion of all living beings. In contrast, unnatural psychological behavior is that which acts adversely against the biological interests, against the "greatest happiness," of one or more of these communal spheres. Definition of the psychological principle. The psychological principle tells the self-conscious beings to select and interpret the context of applying the biological principle, weighing the corresponding viewpoints and time-scales. Definition of the fundamental communal contexts of the psychological principle. The fundamental communal spheres of the psychological principle are the sphere of our cells, the individual, the family, the nation, the biological race (mankind), the biosphere, and, last but not least, the cosmic kingdom of all livings. We found that the basic task of the psychological principle is to interpret the biological principle in the given situation; to select the social context of action (individual, communal, racial, biospheric, or cosmic); and then to select the suitable time scale that optimizes the corresponding processes (Grandpierre, 2004, 2011c). Moreover, the principle of greatest action is only the physical aspect of the biological principle, since the first principle of biology acts first of all on biological properties and not merely on physical properties like energy and time. Indeed, the principle of greatest action is expressed in the language of physics - that is, in terms of energy, time and their integrated quantity, which is action. In the actual life of a living organism, the biological principle is richer than this, and applies to the most fundamental biological property, which is happiness. Happiness is ultimate, because it stands on its own basis. We seek happiness for its own sake; the quest of money, power, success, etc., is derivative, not primary; for all such things are sought for the sake of happiness. Therefore, happiness is something like the substances we find mentioned in Aristotle, and like God as the theologians understand him: It stands on its own foot, in se, self-validating and self-containing; it contains its own final cause which is its own fulfillment. This means that in biological terms the greatest action principle is the principle of greatest happiness. The principle of greatest happiness is the first principle of biology, which we call the biological principle. Its physical aspect will be referred to as the principle of greatest action. ## Some Consequences of our New Scientific World Picture for Philosophy Interestingly, our picture offers a scientific basis to the claim of More, who speaks of a spirit of Nature as an incorporeal substance that is the source of life and the physical laws of motion (More, 1679, p. 222). Indeed, we found that the biological principle has an immaterial, principal nature, and it is the source of life. Moreover, we found that the physical principle is the source of the physical laws of motion. Regarding a consequence of our new world picture for philosophy, we note that on this basis philosophy can be re-united with the natural sciences; and so, natural philosophy becomes possible on a scientific basis. Husserl considered that the main problem of philosophy is that it is not scientific, and regarded the reassessment and reestablishment of philosophy on more scientific grounds as his main task. Our result offers an unexpectedly elegant and rigorous example of the fruitfulness of such a procedure: The first principles represent the most general aspects of physical, biological and psychological existence. Another consequence of our new world picture which affects philosophy corresponds to a fundamental integration of metaphysics. In the Encylopedia Britannica ("Metaphysics" entry, 2007), four views on the nature of metaphysics are outlined. Metaphysics is: (1) an inquiry into what exists, or what really exists; (2) the science of reality, as opposed to appearance; (3) the study of the world as a whole; (4) a theory of first principles. We note that our new model of the Universe offers scientific answers unifying all these different approaches of metaphysics. Our approach tells that what really exist are phenomena, laws and principles, and there are three fundamental types of them, physical, biological and psychological, putting (1) into a scientific context. The science of first principles, laws and phenomena is itself the science of reality, offering a strict scientific interpretation for (2). Phenomena, laws and first principles together are suitable tools for the study of the world as a whole, corresponding to (3). Moreover, our approach is the theory of first principles, offering to (4) a more precise, scientific basis. In this way, our substantially complete approach to the Universe has a fundamental significance, elevating metaphysics to a strict scientific basis, thereby offering unforeseen, wide perspectives of potentially enormous value to the development of natural sciences. Let us now consider how our approach can shed new light on one of the, most realistic version of philosophy, the Husserlian phenomenology. Our model tells us that the Universe does not consist only from perceptual phenomena, but also from laws and principles. On that basis, we have to rephrase Husserl's famous phrase "back to the things themselves" into "back to the phenomena, laws of Nature and, ultimately, to the first principles themselves". The evolution of philosophy also points to the central significance of the biological principle in our scientific world picture. In the twentieth century, one of the most significant schools of philosophy was the Husserlian phenomenology. Husserl seriously hoped to supersede all the limitations of the contemporary philosophical schools and to attain the goal of a rigorous scientific philosophy by means of phenomenology. Today a leading exponent of Husserlian phenomenology, Anna-Teresa Tymieniecka, has worked out the idea that the central element of philosophy is the phenomenology of life based on the Logos of Life, on the ontopoietic principle interconnecting self-individualization and the working of Nature (Tymieniecka, 2000). The logos of life is "the first and last ontopoietic fact of beingness at large", "life's prompting force and the shaper of its course" (Tymieniecka, 2009, p. xix), the "prompting force (that) carries becoming onward" (ibid., p. xx). We point out that, apparently, there is a significant overlapping between the concepts of the logos of life and the biological principle. Indeed, since biology is the ultimate foundation of physics, generating the initial conditions within which physical laws act, as well as the final cause of living beings and the Universe, therefore the biological principle can be regarded as the first and last ontological fact. Actually, it is the biological principle that organizes the virtual interactions, the spontaneous processes and the biological couplings (Grandpierre, 2007, 2008a, b). Therefore the biological principle is "life's prompting force and shaper of its course". The biological principle acts without being a physical force, since it acts by virtual interactions organizing micro-and macroscopic spontaneous processes, such that biological couplings seem to happen "by themselves"; i.e., their occurrences do not require the imposition of physical forces, and elude all explanation as the result of physical forces. Acting through virtual interactions is not an unusual thing for a first principle, since the first principle of physics acts also through virtual interactions. At present, the best interpretation of the least action principle is Feynman's, who worked out the idea that the action of the least action principle on matter can be conceived of as virtual interaction. In the double-slit experiment, before the quanta start on their course, they map the whole experimental situation by virtual interactions, and select their path by summing up all the quantum probabilities of each possible trajectory. Feynman's path integral approach indicates that quanta explore all possible paths between the initial and end states by virtual interactions (Feynman, 1942; Taylor, 2003; Moore, 2004), and the resulting path is the integrated sum of all these paths. Similarly, the biological principle also acts by virtual interactions; yet in biology the quantum probabilities are weighted on the basis of biological needs. In this way, it is the biological principle that determines the timing and localization of biological processes, carrying out the "penultimate coordination" and the "spontaneous unfolding plan" (ibid., p. 67) of biological phenomena. ## On the Animating Nature of Laws and First Principles It is important to point out that all laws and principles of Nature have the strange ability to initiate processes. Physical laws are able to initiate physical processes in a given situation. Physical objects do not contribute to the determination of their behavior, because it is determined by physical conditions and physical laws. We call physical objects "inanimate", yet, in a restricted sense, it is possible to regard them as "animated", since their actions are due to the laws of physics, and their behavior is initiated and governed by the physical laws. Initiating and activating processes reach a characteristically higher eminence and autonomy in biology. Now regarding our corollary that the first principle of physics arises from the biological principle, the animating capability of the physical laws rests on a natural basis. The biological principle represents in itself animation; and since the physical principle is derivable from it (by omitting the ability to select endpoints different from the physical one), therefore even the physical principle can be regarded as an animating principle. Thus we find the first principles are in this respect similar to the instincts of living organisms. In the depths of our inner world natural principles are in action. We can experience these natural powers through our inner perception. All processes, unconscious or conscious, occur due to these internal cosmic powers. These physical, biological and psychological principles animate the bodies of living organisms. These are the first principles that initiate the motions of physical, biological and psychological behavior. Actually, we do live with these natural, cosmic principles; we think and create with their assistance. This fundamental circumstance offers an explanation of the great enigma of how the human mind within is capable to understand natural processes outside. This is why the laws of our thoughts can represent the cosmic laws of physics, biology and psychology. We obtain also an explanation of the fact that really creative thinking is based on intuitions. Indeed, we intuitively perceive these natural principles continuously acting within our inner universe. Yet while we observe these natural laws and principles in our inner world in their animated, alive state as intimate, as active processes, as animating principles; in the external world we are faced rather with the external aspects of processes occurring in the outer world, observing phenomena - which are the results of the activity of the natural laws and principles - through our outer senses. Not only our internal world can be regarded as subjective, but also the external world as well, since this latter arises as external only for us, human observers having external senses, which are late products of evolution of the Cosmos. In reality, the external and the internal worlds are only two aspects of one and the same reality. The cosmic creative powers when experienced in our inner worlds do not show up as external, physical, biological or psychological laws, but, instead, as intimate, logical necessities, innate emotional conditions, lawful relations and instincts. Although we experience these creative, life-animating cosmic powers as natural laws and principles when they act in the - for us - outer world, and as lawful patterns of thoughts, emotions and instincts in our internal world, these represent only two fundamental aspects of one and the same cosmic creative powers. This means that in actual reality our inner worlds are animated by cosmic creative powers, since all natural laws and principles penetrate the whole of the Universe. Definitely, the conditions within our internal world are plastic and receptive to our personal attitudes. Thus the working conditions of one and the same cosmic powers are very different when compared to behavior manifested in the laboratories. In our inner world, most of the input conditions of the physical laws are accessible to our conscious or self-conscious interventions. The animating, internal cosmic powers, which we can experience by inner perception, manifest behavior from the depths of our inner world that is frequently different from the behavior manifested within laboratory conditions. Let us now approach the nature of first principles from another angle. How does the wind know how to blow? How does a dropped stone know that it must fall in a straight vertical line to the ground? In a certain sense, we know the answer: because they obey the physical laws. Since all the fundamental laws of physics can be derived from the least action principle, therefore, ultimately all physical objects behave in accordance to the least action principle. The question is: how are the physical objects able to behave in accordance with the physical principle? One answer is offered by the regularity theories (Swartz, 2001, 2009); another is that physical phenomena are governed by the physical laws (Roberts, 2008, p. 23). Here we would like to recall that physical phenomena and physical laws are both existing entities and they cannot exist separately from each other. Indeed, in reality, both of them are only aspects of Nature. It belongs to the nature of stones to know how to fall, and of winds to know how to blow. We can answer our question, when conceiving that natural objects as consisting from phenomena, laws and first principles. If so, then our answer to the question above is: The wind knows how to blow, because wind consists not only from atoms and molecules, but also from laws of Nature telling it how to behave in its phenomenal aspects. Not only phenomena, laws and principles form an organic unit, but also the physical, biological and psychological aspects of behavior. How can we conceive this unity? Approaching this unity within the conceptual framework of physics, we found that while physics corresponds to fixed initial conditions plus physical laws, biology corresponds to a more general case, the case of variable initial and boundary conditions. We suggest that biology is the control theory of physics. We can approach the unity of physics, biology and psychology also from the other end of this spectrum, from psychology. Conceiving humans as the most autonomous beings, we can regard that humans have the most flexible, less developed instincts; the more developed intellect coexists with less developed instincts. On that basis, one can regard animals as having stronger and more rigid instincts than humans, and plants still stronger and more rigid instincts than animals. In the spectrum, descending from humans to plants, corresponding to the spectrum extending from psychology to biology, we find more and more inclusive and more and more rigid instincts. It is only one step more to reach physical objects. Making this step, it is plausible to allow that physical objects have still more rigid and coercive instincts than plants. Once we regard the instincts of living organisms as corresponding to the biological principle, we reach a picture in which the physical principle corresponds to an even more inclusive and rigid form of instincts, one which can be regarded as "physical instinct", i.e. the "instinct" of physical objects. In this way, we obtained independent arguments indicating a remarkably close relation between instincts of living organisms and the physical principle. These approaches offer to interpret the laws of Nature as being sensible, life-carrying, self-initiating powers. Indeed, instincts can be regarded as life-prompting, life-shaping factors, and, as such, as similar to the "logos of life" introduced by Tymieniecka (2009). Tymieniecka (1999, p. 43) calls the generating cornerstones of action and order as "ontopoietic". This notion can be conceived in our scientific context as corresponding to the biological principle prescribing the end states of presently occurring biological processes, determining the corresponding initial and boundary conditions that are input elements to physical laws through virtual and spontaneous processes and the time sequence of the biological couplings of endergonic and exergonic biochemical processes leading to the prescribed biological state as the endpoint of the action principle (Grandpierre, 2007). In a sense, our biological principle concretizes the ontopoietic principle of Tymieniecka, prescribing the biologically optimal endpoints to the actual biophysical processes occurring in the organism. Moreover, the importance of individuation and the individual unfolding of living beingness in a linea entis frequently emphasized by Tymieniecka can correspond to the cosmic context inventing the individual for its own cosmic purposes, to realize cosmic sentience in a new, important aspect represented by the individual. ## A Short Note on the Place of Logic in the Universe Actually, regarding the place of logic and non-manifest possibilities in our model, we can form the following expanded picture about the structure of the Universe. Logic represents the precondition of any actual existence. Therefore, logic represents an attitude towards realization of possibilities, i.e., towards the material manifestation of possibilities. Material manifestation can correspond to physical, biological or psychological phenomena. Yet we saw that beyond phenomena, the level of laws and principles is found. In this picture of possibilities and logic, we can say that laws and principles exist within the realm of possibilities. The realm of possibilities, together with logical conditions and manifested phenomena, forms a unified whole. This unified whole must be alive in order to be able to be active, self-governed and changeable. Therefore, at the most ultimate basis beyond logic (when conceived as the condition of all manifested reality) we find the possibilities representing the ultimate reality of the life principle. We can see that life and cosmic logic are intimately intertwined. Moreover, Endre K. Grandpierre has pointed out (Grandpierre, 2000) that the Universe is a gigantic thread of physical, biological and psychological interactions, including all known and yet unknown kinds of interactions. He also demonstrated that these cosmic interactions represent actual perceptive interactivity, and so a kind of cosmic sentience. All these results may be conceived as consistent with Tymieniecka's result that the quintessential core of life is logoic sentience. ## The Significance of the Scientific World Picture for the Future of Civilization Not only the evolution of the natural sciences, but also of the social sciences indicates the significance of biology and its first principles. The increasing rate of alienation, the problem of climatic change, and the threats to civilization all urge the formation of a world picture in which, instead of inanimate matter, life is in the very center (see e.g. Korten, 1999; Grandpierre, 2003a, b). Indeed, Korten (1999, pp. 13, 274) suggested that the problems of mankind can be solved only on the basis of a new world picture of the living Universe. What we are proposing here is a new shift in our scientific world picture, one that complements the present physicalistic world picture by an essentially complete, biofriendly one, to serve as the basis of a universal science that integrates physics, biology and psychology in an elegant and exact manner, on the basis of first principles. Perhaps surprisingly, this integrated natural science proves to be the universal science that has fundamental applications for the human sciences, including sociology as well. The proposed shift of our scientific world picture can have an enormous effect for future human societies. The significance of the previous shift in our world picture can be illustrated by the following thoughts: "Those men who created the upheaval which we now call the 'Scientific Revolution' called it by a quite different name: the "New Philosophy". The revolution in technology which their discoveries triggered off was an unexpected by-product; their aim was not the conquest of Nature, but the understanding of Nature. Yet their cosmic quest destroyed the mediaeval vision of an immutable social order in a walled-in universe together with its fixed hierarchy of moral values, and transformed the European landscape, society, culture, habits and general outlook, as thoroughly as if a new species had arisen on this planet" (Koestler, 1959, p. 13). The scientific-industrial revolution of the seventeenth century transformed society and led to unprecedented technical developments. But it gave rise to an incomplete picture of the world, for it had little to say about humans and life. The physical world picture led inevitably to the rise of the consumption-centered society, which, in spite of its material wealth leads to an alienation of people. The completion of the scientific world picture with biology will lead to the unshackling of life's genuine values, and open new vistas different than the present focus on consumption, vistas that open towards a more compassionate and uplifting civilization. The biological view will transform our civilization into a life-completing direction with a healthier future in which humans have a deeper relationship with the Universe. The safeguarding of the future of mankind requires a wider, more complex and deeper understanding of the Universe. We are facing a new Copernican turn; at that time the direction was not against morality; rather it uplifted morality and provided it with a valid and robust basis. Obtaining an essentially complete picture of the world, in the process founding a universal science, is a vital task of science and philosophy, because an essentially incomplete world picture, as history teaches us, leads to an unbalanced, unhealthy society. In the same way as the materialist world picture led necessarily to materialist, consuming societies, to money-centered capitalism developing material technologies, the new, biofriendly world picture will lead to life-uplifting societies developing mankind's life-enriching, emotionally uplifting ability, developing mankind's moral, aesthetic, social technologies, scientific and philosophical methods, increasing the width and depth of our understanding of ourselves. A healthy world picture leads to healthy societies. The world picture serves as guideline to science, to philosophy, to religion, to art; it shapes our communal life. All knowledge must serve mankind's common good. It seems that aggression arises from the lack of knowing, appreciating and developing our best human values. Therefore, recognizing life's central value for mankind's future societies offers a new perspective to transform our history from "history of wars" (Machiavelli: "War and preparation for war is the normal condition of mankind") into the history of life-building societies. Biofriendly societies are natural societies building harmony with living, sensible Nature within, between and around us. The present-day mechanical societies can be replaced by natural societies, respecting natural feelings. We can learn that it is not reasonable to charge ahead for a success if, on the way to reach it, we create bad feelings. People can learn to respect feelings, and learn to avoid hurting anybody. Aggression is not based on humans' assumed "killing instincts", since aggression between human individuals and groups become widespread only a few thousand years ago. If mankind can find the essentially complete world picture, it will be essentially true. The present-day dominating materialistic world picture has been making an invaluable contribution to the development of sciences, yet its validity must be questioned at least in the most fundamental aspects of biology, psychology and sociology. All the essentially incomplete world pictures - when used beyond their limited domain of application, i.e., when used as actual pictures of the world as a whole - are misleading and false. It is a well-known saying that the best lie is the partial truth, because its (partial) truth lends the appearance of credibility to the part of the statement that is untrue. False world pictures lead necessarily to false societies. The birth of the first essentially true picture of the Universe, founding the universal science, indicates the possibility of a shift to a healthier society. Our perception of the world, of life, of man, of each other, of ourselves, of our cells can become more rich and complete. We can see the Sun and the stars with a more complete attention, recognizing them as our fellow beings. There is a direct connection between the development of modern civilization and civilization-related illnesses: physical diseases like cancer, heart-attacks etc; biological like depression, panic etc; and illnesses of reason like crimes, corruption, wars, money-cult, tension between different nations, ethnics, religions etc. An ill world picture, as we noted, leads to ill societies. In the essentially complete world picture, the cure of illnesses and harms of civilization receive new perspectives. On the scientific basis to which we shed some light here, we think that the first principle of natural societies is to respect life and the emotional integrity of individuals, groups, nations, mankind as a whole, the biosphere and the cosmic living kingdom, the Living Universe, the ancient Mother Nature. The fundamental laws of natural society are in harmony with the completion-seeking natural, human, empathic, natural and cosmic feelings. We think that music expressing natural feelings can play a much more uplifting and significant role in the natural, biofriendly societies than in the present materialist, warring and consuming society. Acknowledgment The author wishes to express his gratitude to his friend, Jean F. Drew, for continuous, decade-long inspiration, encouragement, for exchanging many exciting ideas, and lecturing the English. References Aquinas,T. 1265-1274. Summa theologiae, 1-2, q. 85, a. 6. Aristotle. 350 BC. Metaphysics, Book V, Chapter 4. Augustine, 410, Epistolae 18, Sec. 2 Bauer, E. 1920. Die Grundprinzipen der rein naturwissenschaftlichen Biologie. Roux Vortrage und Aufsatze uber Entwicklungsmechanik der Organismen. Heft 26. Berlin: Springer. Bauer, E. 1935/1967. Theoretical biology(1935: in Russian; 1967: in Hungarian) Budapest: Akademiai Kiado, 51. Clifford, W.K. 1886. On the nature of things-in-themselves. In Lectures and essays, 2nd ed. London: Macmillan and Co., 274 Feynman, R.P. 1942. The principle of least action in quantum mechanics. PhD thesis, Princeton University, Princeton. Source: Dissertation Abstracts International, vol. 12-03, page: 0320. Feynman, R.P. 1994. The character of physical law. New York: Random House, Inc., Chapter 4, 97-100 Grandpierre, A. 1997. The physics of collective consciousness. World Futures 48: 23-56. Grandpierre, K.E. 2000. Collective fields of consciousness in the golden age. World futures. The Journal of General Evolution 55: 357-379. Grandpierre, A. 2003a, b. On the fundamental worldview of the integral culture integrating science, religion, and art. Parts 1-2. World Futures. 59: 463-483; 535-556. Grandpierre, A. 2004. Conceptual steps towards exploring the fundamental lifelike nature of the sun. Interdisciplinary Description of Complex Systems 2(1): 12-28, http://indecs.znanost.org/2004/indecs2004-pp12-28.pdf Grandpierre, A. 2007. Biological extension of the action principle: Endpoint determination beyond the quantum level and the ultimate physical roots of consciousness. Neuroquantology 5(4): 346-362, http://arxiv.org/abs/0802.0601 Grandpierre, A. 2008a. Fundamental complexity measures of life. In Divine action and natural selection: Questions of science and faith in biological evolution, eds. J. Seckbach, and R. Gordon, 566-615. Singapore: World Scientific, http://www.konkoly.hu/staff/grandpierre/Complex.htm. Grandpierre, A. 2008b. Cosmic life forms. Published as a chapter in From Fossils to Astrobiology. eds. Joseph Seckbach and Maud Walsh. 369-385. Dordrecht: Springer, http://www.konkoly.hu/staff/grandpierre/Cosmic.pdf Grandpierre, A. 2011a. A natural method of explanation of reality- from phenomena to first principles in two steps (to be submitted) Grandpierre, A. 2011b. The book of the living universe. (in English, to be published) Grandpierre, A. 2011c. On the first principle of psychology. (to be submitted) Grandpierre, A., Martinas, K. and Medve, N. 2011d. On the theory of human decisions. in: Complex Societal Dynamics. eds. K. Martinas, D. Matika, and A. Srbljinović, NATO Science for Peace, Series IOP, Amsterdam (in print). Gregory, R.L. 2004. Perception beyond physics? Perception 33: 895-896, Editorial.CrossRef Kafatos, F.C., and T. Eisner. 2004. Unification in the century of biology. Science 303: 1257. Koestler, A. 1959. Sleepwalkers: A history of man's changing vision of the universe. London: Hutchinson, 13. Korten, D. 1999. The post-corporate world: Life after capitalism. Berrett Koehler 13: 274. Lengauer, T. 2000. Computational biology at the beginning of the post-genomic Era. In Lecture notes for computer science, ed. Reinhard Wilhelm, vol. 2000, 341-355. "Informatics: 10 Years Back - 10 Years Ahead". Berlin: Springer. Meggs, W.J. 1998. Biological homing: Hypothesis for a quantum effect that leads to the existence of life. Medical Hypothesis 51: 503-506.CrossRef90073-1) "Metaphysics", Encyclopaedia Britannica. Encyclopaedia Britannica. 2007. Ultimate reference suite. Chicago: Encyclopaedia Britannica, 2010. Moore, T.A. 1996. Least-action principle. In Macmillan encyclopedia of physics, ed. John Rigden, vol. 2, 840. New York: Simon & Schuster Macmillan. Moore, T.A. 2004. Getting the most action out of least action: A proposal. American Journal of Physics 72: 522-527.CrossRef More, H. 1679. Opera Omnia. London, 1: 222. Roberts, J.T. 2008. The law-governed universe. Oxford: Oxford University Press.CrossRef Rosen, R. 1967. Optimality principles in biology. London: Butterworths, 4, 155. Spinoza: Ethics. 1677. Trans. from the Latin by R.H.M. Elwes (1883). New York: Dover Publications, 1951. Proposition 29, Note. Swartz, N. 2001. Beyond experience. Metaphysical theories and philosophical constraints, 2nd ed., Chapter 9, Properties, 256. Toronto: Toronto University Press, http://www.sfu.ca/philosophy/beyond_experience/ (available for downloading, free of charge). Swartz, N. 2009. Laws of nature. Internet encyclopedia of philosophy, http://www.utm.edu/research/iep/l/lawofnat.htm Taylor, E.F. 2003. A call to action. Guest editorial. American Journal of Physics 71: 423-425.CrossRef Taylor, E.F. 2010. Principle of least action. Retrieved February 03, 2010, from http://www.eftaylor.com/leastaction.html Tymieniecka, A.-T. 1999. The new paradigm. The ontopoiesis of life as a new philosophical paradigm. Phenomenological Inquiry 22: 12-59. Tymieniecka, A.-T. 2000. Impetus and Equipose in the life-strategies of reason: Logos and life, Book 4, Analecta Husserliana, LXX, Dordrecht: Kluwer. Tymieniecka, A.-T. 2009. The fullness of the logos as a key of life. Analecta Husserliana, vol. 100. Dordrecht: Springer. "Universe." Encyclopaedia Britannica. Encyclopaedia Britannica 2007 ultimate reference_suite. Chicago: Encyclopaedia Britannica, 2010. Veenhoven, R. 2007. Measures of Gross National Happiness, in: OECD Statistics, Knowledge, and Policy. Paris, 231-253. Yourgrau, W., and S. Mandelstam. 1955. Variational principles in dynamics and quantum theory. London: Sir Isaac Pitman and Sons. Zee, A. 1986. Fearful symmetry. The search for beauty in modern physics. New York: Macmillan, 107-109, 143. Anna-Teresa Tymieniecka and Attila Grandpierre (eds.)Analecta HusserlianaThe Yearbook of Phenomenological ResearchAstronomy and Civilization in the New EnlightenmentPassions of the Skies10.1007/978-90-481-9748-4_3(C) Springer Science+Business Media B.V. 2011 # The Relation Between Man and World Hans Kochler1 (1) University of Innsbruck, Innsbruck, Austria Hans Kochler Email: hans.koechler@uibk.ac.at Abstract Human identity has traditionally been defined by way of juxtaposing man and world in a static and substantialist manner. This approach implies a false idealism in terms of ontology and creates a misleading sense of exclusivism in terms of anthropology. The relation between man and world can only be properly understood on the basis of transcendental realism, a position that acknowledges the interdependence of self-experience and world-experience in the sense of Realdialektik. Anthropology and ontology are indeed two sides of the same coin. Referring to discourses of phenomenology and transcendental philosophy, the paper analyzes the ontological dialectic of man and world, including the cosmological dimension, offers a critique of the traditional "anthropocentric" approach, and reflects on the civilizational impact of a comprehensive "ontological anthropology." Lecture delivered at the International Conference "Astronomy and Civilization" organized by Konkoly Observatory of the Hungarian Academy of Sciences, Department of Astronomy, Eotvos Lorand University, Eotvos Lorand Physical Society, Budapest, Hungary, 13 August 2009 (C) Hans Kochler, 2009. All rights reserved. V4/18-VIII-2009 ## The Ontological Dialectic of Man and World In the Western philosophical tradition, the question as to the essence of man has mostly been asked as if the human being existed in a kind of philosophical version of "splendid isolation." Man was set apart from "nature" as the realm of mere "objects" of his reflection and volition. The entirety of material objects and living creatures was perceived as "the other" from which the human being was considered "shielded" - in a rather abstract manner - by virtue of his consciousness in which, according to this conception, the "outside world" is mirrored and which alone provided its raison d'etre. This false anthropomorphism, and the voluntarism attached to it, is based on the erroneous ontological assumptions of philosophical idealism 1 and on a peculiar - and literal - interpretation of the Genesis. This position is at the roots of Western anthropocentrism with its artificial, almost "synthetic," teleology that subordinates everything natural, in fact the entire κόσμος, to the human being's will. It is also an assumption that is totally ignorant of the basic logical error of teleological thinking, which reverses the chain of natural causality (as Nicolai Hartmann has convincingly demonstrated long ago) (Hartmann, 1966), and that also leads to a utilitarian position in terms of ethics. As we have explained elsewhere in more detail, the question about the "essence" of man cannot be answered within a conceptual framework that is based on the assumption of an abstract hiatus between man and world, which presupposes a false (or artificial) idealism in ontological terms.2 The human being, with its unique form of self-reflection - though this is not the only such capacity among living beings -, cannot be perceived as existing independently from the real (physical) world. Not only is its identity being shaped through constant interaction with a specific natural environment (Umwelt)3; it is itself the product of evolution not merely in a biological sense, related to the history of planet earth, but in connection with the development of the universe. Adequately addressing the issue requires an awareness of the essentially dialectical relation4 between "self-experience" and "world-experience" that results from the interdependence between the ego (subject) and the world. In a certain sense, transcendental philosophy - in a first systematic approach towards a critical epistemology,5 if not for the first time in the history of Western philosophy - has taken into account that the "object" (of perception) cannot be defined in abstract (and artificial) distinction from the "subject," thus paving the way for an analysis of the human being in the comprehensive meaning of In-der-Welt-sein (being-in-the-world) such as the one advanced in Husserl's conception of the life-world (Lebenswelt)6 and, preceding it, in Heidegger's "existential ontology" (Heidegger, 1993). Transcendental philosophy, however, eventually proved to be ignorant of the material world and could not adequately interpret its ontological status. In the context of modern phenomenological thinking, this has become particularly obvious in Husserl's "idealistic" adaptation of the transcendental paradigm.7 On the basis of this approach, "nature" was reduced to the status of a mere "object of perception" and the apriori structures of the human mind (consciousness) were analyzed in isolation from the "real" world that was essentially defined as "ideal" reality, structured by the human mind (which in turn was perceived as the "transcendental synthesis of apperception").8 German idealism has, at least initially, continued on this path of "hypostatization" of consciousness - until Hegel's "absolute" idealism has brought about a paradigm change that meant an interpretation of the subject (mind) in the sense of an universal ontological reality and a reading of the evolution of the κόσμος as "appearance," indeed self-realization, of the mind (or "spirit") (Phanomenologie des Geistes) (Hegel, 1980). In twentieth century thinking, Husserlian transcendental phenomenology - the legacy of the later Husserl - had, as referred to earlier, again made a turn towards the ontological idealism of the "pure transcendental subject" (reines transzendentales Subjekt), which does absorb virtually all aspects of reality in a kind of nuclear self-reflexion (self-consciousness) which Husserl considered as the absolute source of reality,9 claiming that even if the outside world would disappear this would in no way affect the transcendental subject.10 However, the phenomenologically inspired idealism of the twentieth century was not the only way in which the transcendental paradigm was interpreted. This school of thought, in its exclusive emphasis on the "purity" of the mind (with apriori structures that make of space and time mere modes of perception and locate them in the "ideal realm"), could not appreciate what we call the Realdialektik ("real dialectics") of consciousness, something which implies that awareness of ourselves and the reality of our subjectivity is not achieved through soliloquia, or by means of mere self-encounters of an ego that is interpreted as epiphany of the absolute transcendental subject, but only through the subject's distinguishing itself from a real object as the "other" which is not the self. Furthermore, modern "evolutionary epistemology" has made us aware of the "real" behind the "ideal," when claiming to have undertaken a new - indeed a second, after Kant's initial one - "Copernican Revolution," this time back towards natural reality. In a far-reaching effort to reevaluate the precepts of Kant's transcendental epistemology and make them compatible with modern biology, Konrad Lorenz11 had tried to look "behind the mirror" of ideality and understand the natural origin of the (ideal) transcendental forms of perception (Anschauungsformen) and of the categories (Lorenz, 1987). This rather ambitious epistemological effort, combining philosophical and biological concepts, has resulted in a form of "realistic idealism" or "idealistic realism" which, so the evolutionary epistemologists claimed, does enable transcendental philosophy to properly explain the interdependent relationship between man and world. This approach, according to their "naturalistic" interpretation, brings transcendental philosophy in line with an understanding of the world that is informed by modern science, in particular by the theory of evolution, which places the human being not apart from the universe - or vis-a-vis the world in a strange kind of mirror-like setting -, but defines it in the midst of it, not as a "counter-pole" to it.12 As we have explained elsewhere,13 the interpretation of the Kantian subject's "transcendental structures" as part of the real (i.e. natural) world14 has serious implications for all positions of ontological - as distinct from epistemological - idealism that uphold the "purity" of consciousness and insist on its irreducibility to the "real" world15: (a) "What appears as absolute (in the sense of not being subjected to change in space and time, thus: a priori) is in actual fact relative to a phase of the biological evolution (a process that, by definition, is open-ended).16 (b) What appears as structure of the subject (as irreducible element of our immaterial mind [consciousness]) is in fact the property of an object, i.e. an objective structure of nature. (Lorenz interprets the Kantian apriori in the sense of a biological organ, referring to the physiological reality of the human brain. He very distinctly speaks of the 'Organfunktion' of the apriori and relates it to the preservation of the species.)17 (c) The Kantian claim as to the validity of knowledge is declared without foundation; his non-relativistic program is considered [as] the futile effort of a philosopher unaware of the biological facts. Thus, Kant's idealism is transformed into a new version of realism ('hypothetical realism')18 according to which the logical operating mechanisms of the human brain reflect the very structure of (natural) reality to which the brain as a biological organ has been adapted in the evolutionary process."19 This approach allows philosophy to transform what has been described as mere Reflexionsdialektik (the dialectic within an abstract consciousness that is set apart from the world) into a genuine ontological dialectic, which alone lets us comprehend the nature of reflexivity against the background of a cosmological "other" of which the subject itself is a part, namely an aspect of its "appearance" or self-realization (in the sense of Hegel's Phenomenology of Spirit). This reflective structure, in turn, creates what we earlier have called an "open horizon of unending existential self-development,"20 which is situated in a virtually infinite realm of space and time that must not be perceived as a mere product of the transcendental subject. What we have described as "irreducible interdependence" of man and world21 can indeed only be understood in view of a "cosmological horizon" on the background of which "subject" and "object," consciousness and matter, mutually define each other. In such a context, philosophical anthropology essentially becomes part of a larger ontological project - and vice-versa.22 What we have characterized as mankind's "deeply rooted and emotional striving toward self-constitution and self-realization in an 'intelligible' world,"23 cannot be seen in isolation from the "ontological reality" which modern physics and astronomy have increasingly made us aware of. Looking inward - in order to understand the nature of the human being - can only be a meaningful undertaking (particularly in terms of epistemology) if it is part of an outward-looking project of locating consciousness ("spirit") in the evolutionary context of virtually infinite space and time. This opens a radically new - as compared to earlier anthropocentric paradigms - existential dimension of human self-reflection, because it makes the members of the human race aware of their "absolute" nature in terms of a cosmological process that unfolds before an "endless horizon"24; this process represents a "chain of events" of which the emergence of consciousness in different planetary systems is an integral part, and not simply a "metaphysical" end-point or a singular event brought about by a deus ex machina according to a belief system which Martin Heidegger, in his philosophy of Being (Sein), had characterized as "onto-theo-logical."25 In this sense, one can say that every human being represents in itself a "cosmic" dimension. The virtual infinity of the universe is incorporated in the concrete psychophysical reality of every individual. Human self-reflection is thus to be understood as one, and definitely not the final, stage of the "unfolding" of the universe. In this transcendental-ontological framework, the "absolute" nature of the human being is not merely conceived of in the sense of an abstract - or artificial - "pure" consciousness that is perceived as ab-solutum in the Latin sense of the word (namely as separated from the real world and, therefore, not affected by any developments within that world). In contrast, ontological idealism that isolates the subject from "objective" reality nurtures a false sense of exceptionalism that always goes along with an anthropocentric, and effectively anthropomorphist, worldview. As an unintended consequence, the "integrative" understanding of the reality of the human being - outlined here on the basis of the transcendental-ontological paradigm - may inform an entirely novel "cosmological" perception of civilization. ## Overcoming the Anthropocentric Approach Anthropology and ontology are intrinsically connected, they are indeed interdependent systems of reflection on one and the same philosophical problem, namely that of reality as such (or Sein). In terms of human self-comprehension, what Immanuel Kant had envisaged as "the escape of men from their self-imposed immaturity"26 can only be achieved against the background of an "ontological redefinition" of the relationship between man and world. Such an approach will eventually do away with the anthropocentric paradigm and with the related illusion of a mind that came "out of nowhere," but nonetheless can supposedly provide to the material realm (materia or ὕλη) a chance to become form (μορϕή) - as "object of reflection" - and thus to exist, while, in actual fact, the mind (consciousness, spirit) cannot be defined by way of "abstraction" from the real world. As Martin Heidegger has aptly explained in Sein und Zeit, the question as to the real (actual) existence of the "outside world" makes no sense because the conditio humana is tantamount to, and can only be understood as, In-der-Welt-sein (being-in-the-world).27 Heidegger is eager "to point out why Dasein, as Being-in-the-world, has the tendency to bury the 'external world' in nullity 'epistemologically' before going on to prove it. [...] After the primordial phenomenon of Being-in-the-world has been shattered, the isolated subject is all that remains, and this becomes the basis on which it gets joined together with a 'world'."28 It is along these lines that, for Heidegger, the question about the nature of the human existence is identical with the question as to Being as such. What, by many, had been misunderstood as a "subjectivist" project of existential anthropology was, from the very beginning, designed as Fundamentalontologie (fundamental ontology). In Heidegger's own words: "ontological analysis of existence [Dasein] as such constitutes fundamental ontology and, therefore, actual existence fulfills the function of a mode of being [Seinsweise] that will have to be questioned... as to the inert quality of its being [Sein]."29 It follows from this existential-ontological positioning of the human being in the context of the "life-world" (which, in our analysis, ultimately includes the universe) that "anthropology and ontology - when comprehended in their metaphysical implications - are... nothing but two aspects of one and the same philosophical approach."30 The dialectical relationship between man and world is to be extended beyond a mere "inner-worldly" (or even "planetary") perception and towards a truly global - or cosmological - understanding that goes beyond the horizon of human history. The hermeneutics of the "life-world," as elaborated by the later Husserl in particular, has to be transcended towards an approach that interprets the human being against the background of a virtually infinite - or open - horizon of perceptions that are attributed to "reality as such" - what Kant had referred to as Ding an sich 31 and what Heidegger had described as Sein (Being). In structural terms, the subject-object dialectic, which is at the roots of human self-awareness (or reflection), also applies to man's positioning himself against the infinite horizon of the universe. In order to adequately understand the relation of man and world, we thus have to transcend the idealistic confines of traditional "transcendental" philosophy and perceive the "other" - in distinction from which man constitutes himself as a subject (an animal that is aware of itself, a ζῷον λoόγον ἔχον) - as the world as such, namely the universe, thereby integrating the subject with its object of perception in analogy to the dialectical structure of self-reflection.32 This unfolds a virtually unlimited spatial and temporal dimension of self-perception through which man should be able to emancipate himself from the "anthropocentric constraints" of traditional belief systems and "metaphysical" objectivizations, indeed from all those futile efforts at "reducing" reality as such to a system of abstract notions that especially Martin Heidegger had criticized as Onto-theo-logie (which tries to subordinate the totality of beings, indeed Being as such, to the human subject).33 The universal hermeneutics we envisage opens up a horizon of world perception beyond the history of the human race and beyond the confines of the planetary system where the human race has originated; it, thus, creates the basis for a new conceptual framework that integrates human sciences and cosmology and locates man - human civilization - in a realm beyond the traditional geocentric-heliocentric dichotomy. The historical departure from dogmatic geocentrism in terms of astronomy has to be complemented by a departure from anthropocentrism in regard to our Weltanschauung, a paradigm shift that is necessitated not only in the field of philosophical ontology, but of anthropology proper, but that has met with strong resistance over the centuries (due to the almost irresistible human tendency towards objectivization in the sense of explaining the world as mere object of the "superior" human mind and volition). Through the earlier paradigm shift in the sixteenth century, astronomy has contributed to the widening of the spatial and temporal horizon of man's understanding of the universe and has helped the human race to emancipate itself from doctrinary positions that, to a large extent, were rooted in "vested interests" of the guardians of the traditional, institutionally entrenched, metaphysical messages. Transcendental philosophy, if it develops towards a comprehensive analysis of the "conditions of possibility" (Moglichkeitsbedingungen) not only of cognition (as in Kant's Critique of Pure Reason), but also of the ontological identity of the subject, will make the classical mind-body distinction34 - namely their juxtaposition as two distinct entities (in the sense of ὑποκɛiμɛνον, substance) - obsolete (which is, among others, the basic insight of evolutionary epistemology).35 The comprehensive approach we have outlined here, applying the subject-object dialectic to the interdependent relationship of man and world,36 teaches us that human consciousness is itself an aspect of the universe's self-realization. ### The Civilizational Impact of A Comprehensive Ontological Approach An unintended consequence of man's identity being "taken out" of a system of reference exclusively defined by a "geocentric life-world" (the parameters of which for many centuries had been set by the advocates of an ontological dualism of body and soul, matter and spirit) and redefined in relation to the universe, may be what can be characterized as the domestic unifying aspect of a cosmological understanding of man. This perception is rooted in what we have tried to describe here as "ontological anthropology" or "anthropological ontology." Inter-civilizational conflicts would thus be perceived as mere intra-civilizational differences in a wider (cosmological) context. One practical consequence of this unifying effect, and an important contribution to global peace, could be mankind's commitment to the exploration of space as part of the civilizational bonum commune, uniting all civilizations on planet earth in a common undertaking that subsequently may also reduce the potential for armed (intra-civilizational) conflict. Transcending the traditional "exclusivist" understanding of the human race opens up an entirely new dimension for genuine dialogue among the different civilizations existing on planet earth, an approach that may finally do away with Samuel Huntington's famous paradigm of the "clash of civilizations."37 In the context of the awareness of the universe, mankind may eventually be able to overcome the antagonisms that are inherent in a worldview that puts "man" in opposition to the "world" and imposes upon him the duty to shape the world according to his own image. This sense of "cosmic exclusivism," indeed an ontological "denial of reality," has all too often been mirrored in a kind of "civilizational exceptionalism" that juxtaposed one civilization against another and mobilized energies for conflicts that will appear futile as soon as human beings realize their "real" ontological identity. The ontological broadening of man's self-awareness along the lines of an essentially transcendental-philosophical approach may indeed give a new lease of life to a "dialogue among civilizations" insofar as it is based on a common understanding (self-perception) of mankind in its relation to reality as such,38 bearing in mind the common fate of all civilizations on this planet not vis-a-vis, but within, the universe, including other "civilizations" as yet unknown "self-reflections" of reality in a virtually infinite continuum of space and time. The interdependent (or dialectical) relationship of man and world, which we tried to explain here, necessarily implies a "cosmological redefinition," or "reinvention," of civilization. Contribution to this awareness can be considered, at least in philosophical terms, as the lasting civilizational impact of cosmology and astronomy. ## Notes 1 In this context, "idealism" is not understood in the sense of moral philosophy, but as an ontological position. 2 Kochler (1985, pp. 275-286), esp. Chapter 2: "The dialectic relationship of self-experience and world-experience." See also the author's paper: "The Relation between Man and World: A Transcendental-Anthropological Problem," in: Analecta Husserliana, Vol. 14 (1983), pp. 181-186. 3 For a detailed analysis of the interdependent relationship of man and world in the biological context see Jakob von Uexkull und Georg Kriszat, Streifzuge durch die Umwelten von Tieren und Menschen. Ein. Bilderbuch unsichtbarer Welten. Bedeutungslehre. (Mit einem Vorwort von Adolf Portmann und einer Einleitung von Thure von Uexkull.) (Series Conditio humana.) Frankfurt a. M.: Fischer, 1970. 4 The terms "dialectical" and "dialectics" are not used here in an idealistic context, but in the meaning of "Realdialektik" which the author has worked out in: Die Subjekt-Objekt-Dialektik in der transzendentalen Phanomenologie. Das Seinsproblem zwischen Idealismus und Realismus. Meisenheim a. G.: Anton Hain, 1974. 5 We refer here to Kant's "criticism" as expressed in what he himself had characterized as a "Copernican revolution" of epistemology. (Critique of Pure Reason, preface to the second edition of 1787.) 6 Husserl (1977). (Philosophische Bibliothek, Vol. 292.) - On the notion of "Lebenswelt" in the context of Husserlian phenomenology see, inter alia, Kern (1979, pp. 68-78). 7 For details see the author's Die Subjekt-Objekt-Dialektik in der transzendentalen Phanomenologie. 8 Critique of Pure Reason, second edition of 1787, Part II, § 16: "Von der ursprunglich-synthetischen Einheit der Apperzeption." - Kant's notion of the Ding an sich (thing-in-itself) does somehow not fit into this "transcendental" framework and - not surprisingly - was dismissed by the later idealists as a relic of "dogmatic" thinking. 9 For a critique of this version of ontological idealism see Kochler (1974, pp. 183-198). - See also the author's analyses in: Phenomenological Realism. Selected Essays. Frankfurt a. M., Bern: Peter Lang, 1986. 10 Cf., inter alia, Husserl's apodictic statement in an analysis about the "independence" of the phenomenological judgment from natural judgment: "... dass es ein reines Bewußtsein gibt und dass reines Bewußtsein, wenn auch modifiziert, ubrig bleibt als mein ego cogito, auch wenn die Welt nicht existierte." (Husserl, 1992, fn. 1 on p. 57, in § 17: "Unabhangigkeit des phanomenologischen Urteils vom naturlichen Urteil.") 11 Lorenz (1941/1942, pp. 94-125). - For a comprehensive debate of Lorenz's epistemological "paradigm change" see, inter alia, Gunther Stark, Konrad Lorenz pro und kontra. Die Welt schuf den Geist nach ihrem Bilde. Baden-Baden: German University Press, 2006. (Series "Kritik der evolutionaren Vernunft.") 12 On the merits of evolutionary epistemology in terms of its supposedly having redefined the transcendental paradigm and having exposed its "idealistic" contradictions see the author's paper: "Transzendentalphilosophie als Anthropologie? (Bemerkungen zum universalen Anspruch der evolutionaren Erkenntnistheorie)," in: G. Lucke and H. Pfister (eds.), Ivo Kohler in memoriam. Arbeiten zur Psychologie, ihren Anwendungen und ihren Grenzgebieten. (Veroffentlichungen der Universitat Innsbruck, Vol. 136.) Innsbruck: Universitat Innsbruck, 1988, pp. 203-216. 13 In a lecture delivered at the Third International Conference of the International Academy of Philosophy in Glendale, Los Angeles, on 30 November 2007. 14 Georg Simmel was one of the first philosophers who had introduced this "realist" interpretation of the transcendental structures, long before the twentieth century's evolutionary epistemologists: "Über eine Beziehung der Selectionslehre zur Erkenntnistheorie," in: Archiv fur systematische Philosophie, No. 1 (1895), pp. 34-45. 15 Kant's transcendental idealism must nonetheless not be confused with ontological idealism in the sense of the real existence of the Platonic ideas. 16 See also von Bertalanffy (1955, pp. 243-263). 17 "Kants Lehre vom Apriorischen im Lichte der gegenwartigen Biologie," p. 166. 18 Konrad Lorenz, Die Ruckseite des Spiegels, p. 26. 19 Items a-c are quoted from the author's essay: "Evolutionary Epistemology as a Problem of Metaphilosophy," in: (International Academy for Philosophy, Yerevan [Armenia]/Athens [Greece]/Berkeley [USA]), News and Views, No. 18 (April 2008), pp. 26-40. 20 "The Relation of Man and World: Existential and Phenomenological Perspectives," p. 285. 21 Op. cit., p. 284. 22 See also: Kochler (1974). 23 "The Relation of Man and World: Existential and Phenomenological Perspectives," p. 278. 24 The author is aware of the paradoxical nature of the combination of these two words since the original Greek meaning of ὁρίίζων points to the very limitations of our visual field, which the adjective "endless" negates. 25 Heidegger (1957). - For a detailed analysis of Heidegger's critique of "onto-theo-logy" see the author's paper in Kochler (1977, pp. 751-773). 26 "Aufklarung ist der Ausgang des Menschen aus seiner selbstverschuldeten Unmundigkeit." Immanuel Kant, Beantwortung der Frage: Was ist Aufklarung? (Berlinische Monatsschrift Dezember 1784), in: Akademie-Ausgabe, Vol. VIII (Abhandlungen nach 1781), p. 35. 27 Sein und Zeit. Tubingen: Max Niemeyer, 11th ed. 1967, pp. 206f. 28 Quoted according to the first English edition of Sein und Zeit (1962, p. 250). 29 Sein und Zeit, p. 14. (Translated by the author). 30 Coreth (1969, p. 273, translated by the author). 31 See Adickes (1977, Reprint of the 1924 edition). 32 On the dialectical structure of consciousness see the author's analysis: "The 'A Priori' Moment of the Subject-Object Dialectic in Transcendental Phenomenology," loc. cit. 33 Identitat und Differenz. - For details see Kochler (1991, pp. 31ff). - Cf. also: Kochler (1978). 34 For an analysis of this distinction on the basis of a realist approach see Seifert (1979). 35 Cf. Konrad Lorenz, Die Ruckseite des Spiegels; Gerhard Vollmer, Evolutionare Erkenntnistheorie. Angeborene Erkenntnisstrukturen im Kontext der Biologie, Psychologie, Linguistik, Philosophie und Wissenschaftstheorie. Stuttgart etc.: Hirzel, 8th ed. 2002. 36 For details see the author's earlier analysis: "The Relation between Man and World: A Transcendental-Anthropological Problem," loc. cit. 37 Huntington (1993, pp. 22-49). - For a critique of Huntington's paradigm see Kochler (1999, pp. 15-24). 38 On the philosophical precepts of the "dialogue of civilizations" in the traditional "planetary" context see the author's paper: Philosophical Foundations of Civilizational Dialogue. The Hermeneutics of Cultural Self-comprehension versus the Paradigm of Civilizational Conflict. Occasional Papers Series, No. 3. Vienna: International Progress Organization, 1998. References Adickes, Erich. 1977. Kant und das Ding an sich. Hildesheim etc.: Olms. Coreth, Emerich. 1969. Was ist philosophische Anthropologie? Zeitschrift fur katholische Theologie 91: 252-273. Hartmann, Nicolai. 1966. Teleologisches Denken, 2nd ed. Berlin: de Gruyter. Hegel, G.W.F. 1980. Phanomenologie des Geistes. Collected works, vol. 9. ed. Wolfgang Bonsiepen. Hamburg: Meiner. Heidegger, Martin. 1957. Identitat und Differenz, 4th ed. Pfullingen: Neske. Heidegger, Martin. 1993. Sein und Zeit, 17th ed. Tubingen: Niemeyer. Huntington, S.P. 1993. The clash of civilizations? Foreign Affairs 72(3): 22-49.CrossRef Husserl, Edmund. 1977. Die Krisis der europaischen Wissenschaften und die transzendentale Phanomenologie. Eine Einleitung in die phanomenologische Philosophie. ed. Elisabeth Stroker. Hamburg: Meiner.CrossRef Husserl, Edmund. 1992. Grundprobleme der Phanomenologie 1910/11. [Husserliana, vol. XIII.], 2nd ed. Hamburg: Meiner. Kern, Iso. 1979. Die Lebenswelt als Grundlagenproblem der objektiven Wissenschaften und als universales Wahrheits- und Seinsproblem. In Lebenswelt und Wissenschaft in der Philosophie Edmund Husserls,ed. Elisabeth Stroker, 68-78. Frankfurt a. M.: Klostermann. Kochler, Hans. 1974. The 'a priori' moment of the subject-object-dialectic in transcendental phenomenology: The relationship between 'a priori' and 'ideality' Analecta Husserliana 3: 183-198. Kochler, Hans. 1974. Der innere Bezug von Anthropologie und Ontologie. Das Problem der Anthropologie im Denken Martin Heideggers. (Beihefte zur Zeitschrift fur philosophische Forschung, Issue 30.) Meisenheim a. G.: Anton Hain. Kochler, Hans. 1977. God in the thought of Martin Heidegger. In God in contemporary thought. A philosophical perspective. A Collective Study, ed. S.A. Matczak (Philosophical Questions Series, No. 10.), 751-773. New York: Learned Publications; Louvain: Editions Nauwelaerts; Paris: Beatrice-Nauwelaerts. Kochler, Hans. 1978. Skepsis und Gesellschaftskritik im Denken Martin Heideggers. Meisenheim a. G.: Anton Hain. Kochler, Hans. 1985. The relation of man and world: Existential and phenomenological perspectives. Philosophy of the Social Sciences 15: 275-286.CrossRef Kochler, Hans. 1991. Politik und Theologie bei Heidegger. Politischer Aktionismus und theologische Mystik nach "Sein und Zeit." (Veroffentlichungen der Arbeitsgemeinschaft fur Wissenschaft und Politik an der Universitat Innsbruck, vol. VII.) Innsbruck: Arbeitsgemeinschaft fur Wissenschaft und Politik. Kochler, Hans. 1999. The clash of civilizations revisited. In Civilizations: Conflict or dialogue? Eds. Hans Kochler and Gudrun Grabher (Studies in International Relations, XXIV.), 15-24. Vienna: International Progress Organization. Lorenz, Konrad. 1941/1942. Kants Lehre vom Apriorischen im Lichte der gegenwartigen Biologie. Blatter fur deutsche Philosophie 15: 94-125. Lorenz, Konrad. 1987. Die Ruckseite des Spiegels. Versuch einer Naturgeschichte menschlichen Erkennens,9th ed. Munich: Deutscher Taschenbuchverlag. Seifert, Josef. 1979. Das Leib-Seele-Problem und die gegenwartige philosophische Diskussion. Eine systematisch-kritische Analyse, 2nd rev. ed. Darmstadt: Wissenschaftliche Buchgesellschaft. von Bertalanffy, Ludwig. 1955. An essay on the relativity of categories. Philosophy of Science 22: 243-263.CrossRef Anna-Teresa Tymieniecka and Attila Grandpierre (eds.)Analecta HusserlianaThe Yearbook of Phenomenological ResearchAstronomy and Civilization in the New EnlightenmentPassions of the Skies10.1007/978-90-481-9748-4_4(C) Springer Science+Business Media B.V. 2011 # Observers, Freedom, and the Cosmos Subhash Kak1 (1) Oklahoma State University, Stillwater, Oklahoma, USA Subhash Kak Email: subhashk@cs.okstate.edu Abstract Science provides partial explanations for the place of observers in the universe and the process by which the conception of the cosmos is obtained. But it uses two irreconcilable paradigms: one based on a machine-view of the material world, and the other postulating freedom and agency for the observer. These paradigms lead to problems such as why is it that the brain-machine has awareness whereas the computer does not, or what is the basis of the information paradox related to the increase in the information in the universe since the Big Bang. Recent ideas on "consciousness science" as an approach complementing that of astronomy are presented. It is shown how the astronomy of its times and specific ideas on the nature of the mind led to certain cosmological ideas of ancient India. The central role played by cosmology, relating both to the outer and the inner reality, in defining the world-view of a culture is examined. A summary of the larger issues confronting astronomy and cosmology in the contemporary world is presented. ## Introduction Science does not fully explain the place of observers in the universe. It uses two irreconcilable paradigms: one based on a machine-view of the material world, and the other postulating freedom and agency for the observer. Either freedom is illusory or the machine paradigm is incomplete in describing the world. Since science can only deal with objective associations, it can do no better than see each system as a mechanism of some kind. The brain must be viewed as a machine, but why is it that the brain-machine has awareness whereas the computer does not? Our deepest theory, namely quantum mechanics, is associated with paradoxes such as those implying propagation of effects instantaneously across space (for entangled particles) and time (as in the Wheeler's delayed choice experiment) if one uses ordinary language to describe phenomena (Moore, 1989; Penrose, 1994). This indicates that reality has aspects that are not captured by consistent linguistic narratives. Physics deals with space, time and matter. But as observers we are more than matter at a specific location in space and time; we also have consciousness. Although it is logical to see consciousness as emergent on matter it is also tempting to see it having a more fundamental existence. Since evolution of observers is inherent in scientific law, one could see consciousness as inherent in this law. If we view quantum theory as a theory of wholes, then it should apply to large aggregation of objects. More specifically, since biological organisms are entities, their behavior should be governed at some level by quantum laws. The anthropic principle has been invoked to explain the nature of laws. In one formulation of the principle, the physical laws are restricted by the requirement that they should lead to intelligent life at some stage in the evolution of the universe. Since life on earth would cease when the sun exhausts its fuel, and since evolution of consciousness cannot be in vain, the proponents of the principle argue that man will create silicon-based "conscious machines" that will seed the universe and the entire universe will become a conscious machine (Barrow and Tipler, 1986). In the archaic view, the universe is conscious. In more sophisticated versions of this archaic view, consciousness itself is the ground stuff of reality and on this ground the complex of space, time and matter is seeded. In this paper, we consider the problem of observers in the cosmos and the origin of freedom of the observers. We argue that while improbable coincidences corroborated in literature could support the view that non-material entities have independent existence they cannot establish it conclusively. The recursive nature of knowledge, which is grounded on the physical structure of the universe, is outlined. The relationship of the visions of the cosmos in the arts and sciences, which arise from the equivalence between the outer and the inner realities of a culture, are discussed. ## The Problem of Consciousness The question of human freedom is connected to the problem of consciousness. The reason why consciousness is not accessible to science is that it is not objective. It is the light that the observer uses to throw on objects but this light cannot be turned upon itself. Rational science is related to associations and it must, therefore, be material and reductionist. Consciousness cannot thus be fitted in the framework of rational science. But there are indirect ways to study consciousness. Thus neurophysiological experiments have shown that the mind orders events in order to provide consistent picture and that there is a small time lag between initiation of neurophysiological function and its conscious awareness. The mind is an active participant in the creation of models of the universe (Melzack, 1989; Gazzaniga, 1995; Kak, 2004). It is argued by some that once machine become sufficiently complex they would become conscious. But since machines only follow instructions, it is not credible that they should suddenly, just on account of the number of connections between certain computing units, become endowed with self-awareness. To speak of consciousness in the machine paradigm is a contradiction in terms. If a machine could make true choices (that is not governed by a random picking between different alternatives), then it has transcended the paradigm because its behavior cannot be described by any mathematical function. One might ascribe awareness of the brain to the fact that the brain is a self-organizing system which responds to the nature and quality of its interaction with the environment, whereas computers can't do that. But other ecological systems, which are biological communities that have complex interrelationship amongst their parts, are self-organizing, without being self-aware. This suggests that while self-organization is a necessary pre-requisite for consciousness, it is not sufficient. Yet another possibility is that current science, even when it considers self-organization and special structures of the brain, does not capture the essence of consciousness. Our scientific framework may be incomplete in a variety of ways. For example, we may not yet have discovered all the laws of nature, and our current theories need major revision that has implications for our understanding of consciousness. In truth, objective knowledge comes with many paradoxes. Accumulation of knowledge often amounts to making ad hoc choices in the underlying formal framework to conform to experience. Formal knowledge can at best be compared to a patchwork. Cognitive scientists and biologists have considered evolutionary aspects related to cognitive capacity, where consciousness is viewed as emerging out of language. Linguistic research on chimpanzees and bonobos has revealed that although they can be taught basic vocabulary of several hundred words, this linguistic ability does not extend to syntax. By contrast, small children acquire much larger vocabularies - and use the words far more creatively - with no overt training, indicating that language is an innate capacity. It is theorized that human language capacities arose out of biological natural selection because they fulfill two clear criteria: an extremely complex and rich design and the absence of alternative processes capable of explaining such complexity. Other theories look at music and language arising out of sexual selection. But, howsoever imaginative and suggestive these models might be, they do not address the question of how the capacity to visualize models of world that are essential to language and consciousness first arose. According to the nativist view, language ability is rooted in the biology of the brain, and our ability to use grammar and syntax is an instinct, dependent on specific modules of the brain. Therefore, we learn language as a consequence of a unique biological adaptation, and not because it is an emergent response to the problem of communication confronted by ourselves and our ancestors. Deaf children provide us a context in which the creative development of a language may be seen. When such children are not taught to sign a language, they spontaneously create their personal signs, slowly adding grammatical rules, complete with inflection, case marking, and other forms of syntax. ## Brain and Mind The question of consciousness is connected to the relationship between brain and mind. Reductionism considers them to be identical - with mind representing the sum total of the activity in the brain - at a suitable higher level of representation. Opposed to this is the viewpoint that although mind requires a physical structure, it ends up transcending that structure. The mind processes signals coming into the brain to obtain its understandings in the domains of seeing, hearing, touching, and tasting using its store of memories. But a cognitive act is an active process where the selectivity of the sensors and the accompanying processing in the brain is organized based on the expectation of the cognitive task and on effort, will and intention. Intelligence is a result of the workings of numerous active cognitive agents. In the view that consciousness is complementary to space, time and matter, consciousness needs the support of matter and without observers it is meaningless to speak of a universe. The idea of the physical world is constructed out of mental experiences. Giving primacy to this mental experience implies idealism, while giving primacy to the contents of this mental experience is materialism. If both these are taken to have an independent existence that means dualism. If we take it that we have discovered the basic laws of nature and also accept that classical machines cannot be conscious, one must assume that quantum processing in the brain, given appropriate brain structures, leads to awareness. Different states of consciousness such as wakefulness, sleep, dream-sleep, coma have distinct neurochemical signatures, and these different states may be taken to be modifications caused by the neural circuitry on a basic state of consciousness. ## Anomalous Abilities, Creativity That cognitive ability cannot be viewed simply as a processing of sensory information by a central intelligence extraction system is confirmed by individuals with anomalous abilities. Idiot savants, or simply savants, who have serious developmental disability or major mental illness, perform spectacularly at certain tasks. Anomalous performance has been noted in the areas of mathematical and calendar calculations; music; art, including painting, drawing or sculpting; mechanical ability; prodigious memory (mnemonism); unusual sensory discrimination or "extrasensory" perception (Sacks, 1985). The abilities of these savants and of mnemonists cannot be understood in the framework of a monolithic mind. There are accounts by scientists who claim that their discoveries came to them accidently, in dream or suddenly when they were not consciously engaged on the problem. Jacques Hadamard in his The Psychology of Invention in the Mathematical Field surveyed 100 leading mathematicians of his time, concluding many of them seem to have obtained entire solutions spontaneously (Hadamard, 1954). For example, August Kekule claimed to have discovered the structure of benzene in a reverie or dream where he saw a snake seize its own tail suggesting to him the idea of carbon atoms in a ring. The preparation of the scientist comes in the amplification of the intuition. It is true that the creative intuition is not always correct. The scientist's judgment is essential in separating the false solution from the true one. If one were to accept Hadamard proposition at face value and concede that deliberate thought is not always behind discovery although it is essential that the scientist be prepared so as to be able to recognize it for what it is, that would leave open the possibility that the domain of ideas may be different from the causal world of physical space and time. Anomalous abilities and first person accounts of discovery that appear to be spontaneous could either indicate that consciousness is more than a phenomenon based solely on matter or that these accounts are just a listing of coincidences. Conversely, there is no way to prove the veracity of the scientist's account of discovery. It is possible that the account is one that the scientist has come to believe over time but it does not correspond to fact. ## Coincidences The mainstream scientific view on coincidences is that spatially or temporally separated events, if they happen to indicate a connection that cannot be explained by a causal chain, must be entirely by chance. Scientific cosmology cannot suppose otherwise, because doing so would imply that it is not complete. Examples of coincidences that are stronger than chance include dreams that predict the future, or the thought of a long-lost friend that is followed by a phone call from him moments later. Animals seem to have surprising foreknowledge of earthquakes or their own death although there could be yet unknown scientific explanations for this. Prophecy is a part of religious belief, since it implies an order greater than indicated by ordinary life. But one cannot accept claims of coincidence at face value. They may be a result of poor observation or recall, self-deception, or deception by others. Also, we are notoriously poor judges of probability, and by the law of large numbers meaningful coincidences are bound to happen. People also tend to classify their personal experiences as showing coincidence although they would not grant that status to the same experiences by another person. Deliberately deceptive claims are made in support of cultural or religious beliefs. Coincidence events may be across space or time. In some a person may claim to obtain information from another person without the use of the currently known senses or inference, and in precognition one may claim to have knowledge of a future event. In parapsychology experiments, volunteers guess random choices that are made at a remote location to determine if these guesses deviate from chance. The sender attempts to mentally communicate a randomly chosen "target" to the receiver. The sender and receiver are in separate acoustically shielded rooms. A computer is used to choose a target from a large selection of possible targets that may be video clips, and plays that clip repeatedly to the sender. At the same time, the receiver reports out loud any thoughts or images that come to mind, and these verbal reports are recorded. Neither the experimenter nor the receiver has any idea of what target the sender is viewing. At the end of the sending period, the sender remains in his room while the computer plays four video clips to the receiver - the target plus three decoys. The receiver's task is to compare each clip to the mentation, and to select which of the clips most closely matches it. If no information transfer is taking place, then we would expect the receiver to correctly identify the clip that was viewed by the sender 25% of the time by chance alone. Extrasensory or telepathic perception is inferred to have taken place if the target is correctly identified more often than chance expectation. The results of such experiments have not quite been supportive of the idea of extrasensory communication. According to researchers in the field, deviation from chance is limited to participants tested by believer experimenters; participants tested by skeptical experimenters obtain chance results! If it is assumed that the experiments are negative, they only rule out the idea of communication of images by some as-yet unknown process. There is also a basic weakness in the conception of the experiment. Unlike images stored in a computer, those presented to human subjects carry varying value and they are remembered in association with the prior memories, which are unique for each individual. ## Synchronicity The Swiss psychiatrist Carl Jung saw unlikely coincidence through the lens of synchronicity, which he defined as the experience of two or more non-causal events that occur together in a meaningful manner that is ruled out by chance. He based it on the concept of the collective unconscious (Jung, 1972). The idea of collective unconscious, as comprising of specific memories that belong to the community, cannot be reconciled to the normal understanding that memories are created out of sensory experience. Even if it is conceded that secondary memories arise out of the shared experience within a culture, the details in the chain of such memories are bound to be different. The assignment of the label of "meaningfulness", as defined by Jung, is arbitrary since this is a subjective judgment. Arthur Koestler, in his The Roots of Coincidence, was right to criticize Jung's idea and a separate and earlier theory by Paul Kemmerer, in the following words: "Like theologians who start from the premiss that the mind of God is beyond human understanding and then proceed to explain how the mind of God works, they postulated an a-causal principle, and then proceeded to explain it in pseudo-causal terms" (Koestler, 1972). The physicist Wolfgang Pauli, who collaborated with Jung when he was doing his work on synchronicity, proposed the extension of the principle of non-causal events from microphysics to macrophysics (Pauli and Jung, 1955). But this in itself cannot explain why such non-causal events should be "meaningful" and at the same time occur at probability that diverges from chance. To take the argument related to coincidence further, it is necessary to return to what we mean by this term. Let us first speak of events that have been generally taken to represent coincidence and see them from the point of view of the skeptic. ## Repeating Patterns The parallels surrounding the deaths of Abraham Lincoln and John Kennedy, who were elected in 1860 and 1960, respectively, are widely known. > Both were shot in the back of the head, on the Friday before a major holiday, while seated beside their wives, neither of whom was injured. > > Both were in the presence of another couple, and in each case that man was also wounded by the assassin. > > After both assassinations there were loud and insistent claims that the fatal shot must have come from a different direction. > > Each President in his thirties married a socially prominent 24 year old girl who spoke French fluently. > > While in the White House, each President had a family of three children, and both lost a child through death. > > Both Lincoln and Kennedy were second children. > > Both had been boat captains. > > Both were related to a US Senator, Attorney General, ambassador to Great Britain, and the mayor of Boston. > > Each had been elected to Congress in the year '47 and were vice-presidential runners-up in theyear '56. > > Before each was elected, a sister died. > > Both were succeeded by Southerner, ex-senator, vice-presidents named Johnson: Andrew born in 1808 and Lyndon in 1908, both of whom had two daughters. > > Booth shot Lincoln in a theatre and fled to a warehouse. Oswald shot Kennedy from a warehouse and fled to a theatre. > > Both assassins were in their turn assassinated by shooters who used a Colt revolver and fired only one, fatal shot. Although the similarities are remarkable, it is true that these items have been chosen precisely because they match up. Many other events in the lives of Lincoln and Kennedy do not match up. Some look at these similarities as proof of repeating patterns in the world. Since patterns do repeat in the physical world of inanimate and animate objects, is it not surprising that they repeat in the world of names and events? Let us consider different kinds of events. ## Events and Names in A Novel Preceding Actual Event The fictional account of cannibalism in the novel The Narrative of Arthur Gordon Pym of Nantucket by the American author Edgar Allan Poe (1809-1849) was published in 1838. It is a complicated story of adventures of Pym who, starting out from Nantucket, ends up in a shipwreck with four survivors who are in an open boat for many days without food before they draw lots to decide who should be killed so that others might live. The cabin boy Richard Parker is chosen and killed for food. Now consider the real life account of cannibalism that took place in 1884 that became a sensation in Britain. That year a 17 year old named Richard Parker ran away from home and became a cabin boy on the yacht Mignonette. The yacht with a crew of three other members was leaving Southampton on a long voyage to Australia to be delivered to the gentleman who had purchased it. The ship broke up and sank in a storm in the South Atlantic and the crew was cast adrift in an open boat 1,500 miles from land. After 19 days in that boat, with little food or water, the crew decided to kill Parker who was delirious after drinking sea water. The three men lived on Parker's remains for 35 days until they were rescued by a steamship named the Montezuma. Back in England the three survivors were tried for murder on the high seas. The seaman turned approver and was acquitted but the captain and his mate were sentenced to death that was later commuted to 6 months of hard labor. ## The Titan Before the Titanic The American novelist Morgan Robertson, in 1898, wrote Futility. It described the voyage of the 800 feet long transatlantic luxury liner, the Titan, with a passenger capacity of 3,000. Although it was believed to be unsinkable, it struck an iceberg in April and sank with much loss of life. In 1912, the Titanic, an 882.5 feet long transatlantic luxury liner with capacity of 3,000 and considered unsinkable struck an iceberg at midnight on her maiden voyage and sank on 15 April with great loss of life. The fictional and the real liners had other correspondences: Titan had three propellers, two masts, 24 lifeboats, 19 watertight compartments, and she hit the iceberg near midnight; Titanic had three propellers, two masts, 20 lifeboats, 16 watertight compartments, and she hit the iceberg at 11:40 p.m. The Titan was traveling at 25 knots; the Titanic at 22.5. ## Separated Twins The so-called "Jim twins" - Jim Lewis and Jim Springer - are described in Nancy Segal's book Entwined Lives (Segal, 2000). These twins were adopted at the age of 4 weeks. Both of the adopting couples, unknown to each other, named their son James. Upon reunion, when they were 39 years old, Jim and Jim found that each was 6 feet tall and weighed 180 pounds. More surprisingly, there were the following extraordinary coincidences: * Both twins are married twice: first was a woman named Linda, and the second was Betty. * Each twin had a son with the same name although with slightly different spelling: James Alan and James Allan. * As children, each had a pet dog named Toy. * Both had taken family vacations independently at the same three-block strip of Florida beach called Pas-Grille, without ever meeting, arriving in light-blue Chevrolets. * Each had some law-enforcement training and been a part-time sheriff. * Both smoked Salems, and both savored an occasional Miller Lite beer * Both bit their fingernails, and since age eighteen both suffered from a combined tension and migraine headache. * Both scattered love notes to their wives around the house. The twins had some differences: one was better at writing, the other at speaking; one wore his hair straight down the forehead, the other brushed at back; one remarried a third time, to a woman named Sandy. The greater similarity in personality or behavior of identical twins compared to fraternal twins shows that we are not just a product of nurture but also of nature. The story of the two Jims caught public imagination because of the implicit belief that the parallels were due to their shared genetic inheritance. But it is possible that such parallels may have nothing to do with shared genes and they may be much more frequent in life than has been supposed. If that is the case then the explanation is that reality repeats not only physical patterns across space and time but also abstract ideas. ## Two Scientific Coincidences Two moons of Mars. Jonathan Swift in Gulliver's Travels (1726), makes reference to two moons of Mars. The astronomers on the flying island of Laputia, have "... discovered two lesser stars, or satellites, which revolve around Mars, whereof the innermost is distant from the center of the primary exactly three of his diameters, and the outermost five: the former revolves in the space of 10 h, and the latter in twenty-one and a half." Mars does indeed have two natural satellites, Phobos and Deimos, which were discovered in 1877. Phobos, is about 14 miles (22 km) in diameter and orbits the planet with a period far less than Mars's period of rotation (7.66 h), causing it to rise in the west and set in the east. The outer satellite, Deimos, is about 8 miles (12.6 km) in diameter and its period of rotation is 30.35 h days. Swift's guess on the periods is not that far off from the true values. But perhaps we should not see too much into this coincidence since the astronomer Johannes Kepler (1571-1630) has predicted this number correctly, based on the logic that since Jupiter had four known moons and Earth had one, it was natural that Mars should have two. The Speed of light. There is a well-known text by the medieval scholar Sayana (1315-1387), prime minister in the court of the Vijayanagar Empire, which associates the speed of 2,202 yojanas in half a nimesha with the sun (or sunlight). The distance and time measures of yojana and nimesha are well attested in Indian astronomical and encyclopedic texts and this number corresponds closely to correct value of the speed of light! Note that until just over 200 years ago it was not even known in the Western tradition that light had a finite speed. In 1676, Rømer calculated the speed of light in terms of the speed of earth's rotation around the sun, and this value, we now know, was about 8% less than the modern value. The technical issues related to this number were dealt by me in an earlier paper (Kak, 1999) where I showed that if this number was somehow guessed, it was seen as consistent with the theory of the universe then accepted in India. For those who would like a quick confirmation, here are the units of yojana and nimesha translated into modern units: The division of time according to the medieval Vishnu Purana 1.3.3 (Wilson, 1840) is: 1 day = 30 muhūrtas 1 muhūrta = 30 kalās 1 kalā = 30 kāshthās 1 kāshthā = 15 nimesha Thus 1 day = 86,400 s = 405,000 nimesha In other words, ![ $$ 1 {\\textrm{nimesha}}\\, = \\frac{{16}}{{75}}\\, {\\textrm{s.\\, Half\\, a\\, nimesha\\, would\\, be}}\\, \\frac{8}{{75}}\\, {\\textrm{s}}.$$ ](A978-90-481-9748-4_4_Chapter_TeX2GIF_IEq1.gif) It appears that half a nimesha was used in the text because that is the thirtieth part of a kalā in the regular sequence where the larger units are greater by a factor of 30. The yojana is defined in the Arthashastra (of Kautilya who was advisor to the Mauryan emperor Chandragupa who reigned 322-298 BC) as being equal to 8,000 dhanus or "bow" which is taken to be about 6 feet (Kangle, 1986). In other words, ![ $$1\\, {\\textrm{yojana}}\\, = 48{,}000 \\,{\\textrm{feet}} \\,=\\, \\frac{{100}}{{11}} \\,{\\textrm{miles}}$$ ](A978-90-481-9748-4_4_Chapter_TeX2GIF_Equa.gif) The speed 2,202 yojana in half a nimesha is, therefore, equal to: ![ $$\\frac{{2202 \\times 100 \\times 75}}{{11 \\times 8}}\\, = \\,187{,}679.5 \\,{\\textrm{miles\\, per\\, second}}$$ ](A978-90-481-9748-4_4_Chapter_TeX2GIF_Equb.gif) The correct speed of light, which was calculated with precision only in the last couple of hundred years, is 186,000 miles per second (300,000 km per second). The unit of nimesha has no ambiguity about it since it is division of the day. But what about yojana? How can we be certain that dhanus or bow should be precisely 6 feet? This requires that we obtain independent confirmation of the dhanus unit. This is made possible by examining ancient monuments and seeing the largest unit that maps the main dimensions of the monument in meaningful integer multiples of the unit. This has been done both for the 3rd millennium BC city of Dholavira from West India as well as from monuments of medieval India (Danino, 2008; Balasubramaniam and Joshi, 2008). It has been found that there exists continuity across ages in the use of this unit. The unit of dhanus in use in Dholavira and later India is 1.904 m. The Arthashastra speaks of two dhanus: one of 96 angulams and the other of 108 angulams, the latter being used mainly for religious purposes. The unit of angulams has been validated from scales obtained in Harappa and it 1.763 cm long. The Dholavira dhanus corresponds to 108 angulams. Therefore, the speed of 2,202 yojana in half a nimesha will be: ![ $$\\frac{{2202 \\times 8000 \\times 1.904 \\times 75}}{8}\\, =\\, 314{,}445.6\\,{\\textrm{km\\, per\\, second}}$$ ](A978-90-481-9748-4_4_Chapter_TeX2GIF_Equc.gif) We find, therefore, a good fit between the speed of light in this ancient account and the actual value. Since there was no way this speed could have been measured in medieval India, it only means that it was a coincidence. And since it is related to a number, one can only consider it a very improbable coincidence. ## Recursive Nature of Knowledge One reason we are able to make sense of the world is that we are already biologically programmed to do so and we have innate capacity for it. Our conception of the cosmos is based on the nature of our brain and mind. This idea was understood by the ancients who expressed it in the slogan that the outer is mirrored in the inner. In an elaboration of this idea it was assumed that patterns seen in the outer world characterize the inner world as well. For example, the ancient Indians has concluded using elementary measurements that the relative distance to the sun and the moon from the earth is approximately 108 times their respective diameters (Figure 1). The diameter of the sun is likewise approximately 108 times the diameter of the earth, and this fact could have been established from the relative durations of the solar and lunar eclipses. Figure 1. The sun-earth-moon system (Ds ≈ 108 De) The number 108, taken as a fundamental measure of the universe, was used in ritual and sacred geometry. Each god and goddess was given 108 names; the number of dance poses in the Natya Shastra was taken to be 108, as was the number of beads in the rosary (Kak, 2008). The Hindu temple had the circumference to the measure of 180 (half of the number of days in the year) and its axis had the measure of 54 (half the number 108) (Kak, 2009). The plan of the city of Dholavira (Figure 2) also has a recursive structure. The ratios are integral and the proportions of the lower town are repeated in those of the castle. Figure 2. The proportions of the city of Dholavira (2200 BCE) ## Information in the Cosmos Information arises out of a communication game played between a sender of signals and their recipient. For physical systems, the game may be seen as being played between Nature and the scientist. The average information obtained from a quantum system is given by the von Neumann measure, which is a generalization of thermodynamic entropy and perfectly in accord with commonsense when we consider a mixed state. But this entropy for an unknown pure state is zero even though testing many copies of such a state can reveal information about the choice that was made by the sender. The idea of zero entropy for an unknown pure state is reasonable from the perspective that once the state has been identified; there is no further information to be gained from examining its copies. But it is not reasonable if the game being played between the sender and the receiver consists of the sender choosing one out of a certain number of polarization states (say, for a photon) and supplying several copies of it to the receiver. In this latter case, the measurements made on the copies do reveal information regarding the choice made. If the set of choices is infinite, then the "information" generated by the source is unbounded. From the point of view of the preparer of the states, the information in the pure state is limited by the "relationship" between the source and the receiver, and by the precision of the receiver's measurement apparatus. If the sender chose a polarization state that the receiver's measurement apparatus was already synchronized with, the receiver could recognize the state quite readily. In a recent paper, I have investigated information obtainable from an unknown pure state within the framework of communication between source and receiver (Kak, 2007). I propose a measure of entropy that covers both pure and mixed states. In general, then, entropy has two components: one informational (related to the pure components of the quantum state, which can vary from receiver to receiver), and the other that is thermodynamic (which is receiver independent). The increase of information with time is a consequence of the interplay between unitary and non-unitary evolution, which makes it possible to transform one type of information into another. This complementarity indicates that a fundamental duality is essential for information. For a two-component elementary mixed state, the most information in each measurement is one bit, and each further measurement of identically prepared states will also be one bit. For an unknown pure state, the information in it represents the choice the source has made out of the infinity of choices related to the values of the probability amplitudes with respect to the basis components of the receiver's measurement apparatus. Each measurement of a two-component pure state will provide at most one bit of information, and if the source has made available an unlimited number of identically prepared states the receiver can obtain additional information from each measurement until the probability amplitudes have been correctly estimated. Once that has occurred, unlike the case of a mixed state, no further information will be obtained from testing additional copies of this pure state. These ideas are of potential application in the field of quantum computing. The receiver can make his estimate by adjusting the basis vectors so that he gets closer to the unknown pure state. The information that can be obtained from such a state in repeated experiments is potentially infinite in the most general case. But if the observer is told what the pure state is, the information associated with the states vanishes, suggesting that a fundamental divide exists between objective and subjective information. This approach is consistent with the positivist view that one cannot speak of information associated with a system excepting in relation to an experimental arrangement together with the protocol for measurement. The experimental arrangement is thus integral to the amount of information that can be obtained. The informational measure discussed above resolves the puzzle of entropy increase. We can suppose that the universe had immensely large informational entropy associated with a pure state in the beginning, a portion of which has, during the physical evolution of the universe, transformed into thermodynamic entropy. ## Concluding Remarks The universe may be viewed from the complementary points of view of physical structure and observers. The acknowledgement of this complementarity resolves the problem of freedom or agency in a world ordered by scientific law. We argued that improbable coincidences corroborated in literature support the view that non-material entities have independent existence. The most compelling of these is the speed of light in medieval literature that could not have been obtained from measurement because the science and technology to do so did not exist at that time. But such evidence, just like first person accounts of spontaneous scientific discovery, cannot be conclusive for establishing that the world of ideas has independent existence. Nevertheless, such accounts should spur research in investigating the relationship between the nature of our minds and our conceptions of the universe. References Balasubramaniam, R., and J.P. Joshi. 2008. Analysis of terracotta scale of Harappan civilization from Kalibangan. Current Science 95: 588-589. Barrow, J.D., and F.J. Tipler. 1986. The anthropic cosmological principle. Oxford: Oxford University Press. Danino, M. 2008. New insights into Harappan town-planning, proportions, and units, with special reference to Dholavia. Man and Environment 33: 66-79. Gazzaniga, M.S. 1995. The cognitive neurosciences. Cambridge: The MIT Press. Hadamard, Jacques. 1954. The psychology of invention in the mathematical field. New York: Dover. Jung, C.G. 1972. Synchronicity - an acausal connecting principle. London: Routledge and Kegan Paul. Kak, S. 1999. The speed of light and Puranic cosmology. Annals Bhandarkar Oriental Research Institute 80: 113-123. Kak, S. 2004. The architecture of knowledge. Delhi: Motilal Banarsidass. Kak, S. 2007. Quantum information and entropy. International Journal of Theoretical Physics 46: 860-876.CrossRef Kak, S. 2008. The wishing tree. New York: iUniverse. Kak, S. 2009. Time, space and structure in ancient India. Presented at the Conference on Sindhu-Sarasvati Valley Civilization: A Reappraisal, Loyola Marymount University, Los Angeles, February 21 & 22. Kangle, R.P. 1986. The kautiliya arthasastra. Delhi: Motilal Banarsidass. Koestler, A. 1972. The roots of coincidence. New York: Random House. Melzack, R. 1989. Phantom limbs, the self and the brain. Canadian Psychology 30: 1-16. Moore, W. 1989. Schrodinger: Life and thought. Cambridge: Cambridge University Press. Pauli, W., and C.G. Jung. 1955. The interpretation of nature and the psyche. New York: Random House. Penrose, R. 1994. Shadows of the mind. New York: Oxford University Press. Sacks, O. 1985. The man who mistook his wife for a hat. New York: HarperCollins. Segal, N.L. 2000. Entwined lives. New York: Penguin Putnam. Wilson, H.H. (trans.) 1840. The Vishnu Purana. London: John Murray. Anna-Teresa Tymieniecka and Attila Grandpierre (eds.)Analecta HusserlianaThe Yearbook of Phenomenological ResearchAstronomy and Civilization in the New EnlightenmentPassions of the Skies10.1007/978-90-481-9748-4_5(C) Springer Science+Business Media B.V. 2011 # The Enchanting Heavens Frances Clynes1, 2 (1) Institute of Technology, Tallaght, Ireland (2) University of Wales, Lampeter, UK Frances Clynes Email: frances.clynes@gmail.com Abstract According to Max Weber, the development of a rational worldview led to what he termed the "disenchantment of the world". In the pre-modern world up to the scientific revolution, the heavens were seen as enchanted in a Weberian way. From the astral theology of Mesopotamia to Medieveal Christianity, the celestial realm had been associated with the divine. According to both Berman and Wertheim, the work of Newton and Kepler, which included the suggestion that the heavens followed the same mathematical laws as Earth, allowed people to view the celestial realm as an extension of the terrestrial realm, and it became a dis-enchanted place. The heavens ceased to be divine and became progressively more and more disenchanted. However in the twentieth century the human race sought to actually ascend into the heavens. Noble writes that the enchantment of space flight is fundamentally tied to the other-worldly prospect of heavenly ascent. In the 1950s Jung wrote that the thousands of sightings of UFOs showed the Western World, in an era of collective stress, looking to the heavens for a saviour as they always had. According to Weber, a rational world view is incompatible with an enchanted universe. Using the above examples and others, this paper asks if the heavens have become disenchanted in the way Weber used the term or if they continue to enchant as they have always done. According to Max Weber, the pre-modern world was enchanted. He described the pre-modern individual as being at one with his or her environment rather than a detached observer. To them the world was alive, divine, polytheistic and magical, and their relationship with it, was one of participation. This enchanted world, of which the celestial realm was part, was not something to be known and understood or to be mastered. But Weber believed that the world has become progressively disenchanted over the millennia. He wrote: > There are no mysterious incalculable forces that come into play, but rather that one can, in principle, master all things by calculation. This means that the world is disenchanted. One need no longer have recourse to magical means in order to master or implore the spirits, as did the savage, for whom such mysterious powers existed. Technical means and calculations perform the service (Weber, 1920, p. 139). In the pre-modern world the heavens were seen as were alive and filled with divine beings. What this paper is asking is if the heavens have also become disenchanted in the way Weber used the term or if they continue to enchant as they always have. The sacredness of the celestial realm has been a feature of cultures as far back as the third millennium BCE, in Mesopotamia, where, as described by Rochberg, astral phenomena were seen as manifestations of certain gods (Rochberg, 2004, p. 46). This association of celestial bodies with the divine was incorporated into Greek culture where the Athenian philosopher Plato (428-348 BCE) was sympathetic to Mesopotamian beliefs, and supported the introduction of their pantheon to Greece (Timaeus, pp. 40A-41A, 47B-C). In the Myth of Er, Plato describes heaven as beyond concentric spheres, of which Earth is at the centre. Each sphere was associated with a celestial body (Republic, pp. 10.614-10.621). In the second century, the astronomer and astrologer Ptolemy believed that the spheres grew progressively more pure as they ascended. The further away from Earth they were, the purer and more different to the imperfect Earth they became (Almagest, p. 1.1). This system was adopted by Christianity and used by Dante in his Divine Comedy. In Dante's description of the Medieveal view of the cosmos, heaven is in the Empyrean or tenth sphere. It is beyond time, space and matter. Each of the seven inner spheres relates to a planet and becomes progressively more perfect as Dante moves out from earth towards heaven (Paradiso, pp. 1-21). At the eighth sphere of the fixed stars he sees visions of Christ, the Virgin Mary and the saints. He believes that the power of the constellations is drawn from God. At the ninth sphere, the Primum Mobile, the abode of the angels, Dante sees God as a point of light surrounded by nine rings of angels (Paradiso, pp. 22-23) For Dante, God is at the Empyrean or tenth sphere. Just as with Plato, God is beyond the solar system, in outer space. It was into a world with a still divine cosmos that Isaac Newton was born in 1642. Newton associated space with the divine. To him it was God's sensorium, and proved the existence of God. Space was imbued with divine spirit. Since God is everywhere, space must also be everywhere, therefore space was infinite. In his words, "This most beautiful system of the Sun, Planets and Comets, could only proceed from the counsel and dominion of an intelligent and powerful being", and "Since every particle of space is always, and every indivisible moment of Duration is everywhere, certainly the Maker and the Lord of all things cannot be never and nowhere" (Newton, 1729, pp. 387-393). However it would be the work of Newton, along with that of Kepler that ended the perception of the heavens as qualitatively different from earth, and thus more god-like. A 100 years before Newton wrote this, in the 1st decade of the seventeenth century, Kepler's laws of planetary motion resulted in the celestial realm being seen as a concrete physical domain. He treated the celestial bodies as material bodies that function according to physical laws (The Harmony of the World, pp. 403-598). They were no longer qualitatively different from the imperfect Earth, and therefore no longer divine. That the work of Newton and Kepler unified terrestrial and celestial space, and thereby resulted in its disenchantment, has been argued by both Wertheim and Berman. According to Wertheim, since gravity applied to both terrestrial and celestial realms, the celestial realm ceased to be qualitatively different from the terrestrial realm so ceased to be divine. If gravity, the force that causes an apple to fall to the ground, also causes the planets to orbit the Sun, then planets must be physical matter like the Earth. She cites Kepler's science fantasy, Somnium, in which he imagined a trip to the Moon, which is now concrete. It is an earthly place that contains mountains, rivers, oceans and animals. It is populated by creatures of a Serpentine nature who build boats (Somnium, p. 28) The heaven had lost their angels and gained more earth-like creatures or as Margaret Wertheim put it: "the celestial realm cannot sustain angels and boat-building serpents". She continued, "From here on, celestial space will ring not with the songs of cherubim and seraphim, but with the roar of rockets and the woosh of warp drives" (Wertheim, 1999, p. 142). Here can be heard echoes of Weber's "technical means" performing services once performed by spirits. Similarly Berman argued that as people begin to understand how the heavens operate, they lose their magic and mystery. Commenting on the impact of the work of Newton and Kepler, he wrote, "the heavens that confront us on a starry night held no more secrets than a few grains of sand running through our fingers" (Berman, 1981, p. 42). While as Wertheim and Berman have argued, the work of Newton and Kepler resulted in the heavens losing their enchanting magic and mystery, the twentieth century would see them apparently portrayed as devoid of any life whatsoever. The term "Cyberspace", was defined in William Gibson's 1984 novel, Neuromancer. In Neuromancer's opening line, "The sky above the port was the color of a TV tuned to a dead channel", Gibson announces two things - the death of the sky and the birth of Cyberspace (Gibson, 1984, p. 9). With this line, the sacred sky appears to have hit rock bottom. Not only has it lost its divine spirits, but now it's lost any claim to life whatsoever. In what is arguably one of the most influential books of the last 50 years, it is being proclaimed dead. But in this line Gibson is deliberately linking the sky and technology. He is suggesting that the sky is about to be reborn in a technological disguise. The term Cyberspace was coined long before the introduction of the Internet as it is known today. With Cyberspace, Gibson created a new world that has become identified with the world entered when a person logs onto the Internet. The terms Internet and Cyberspace have become synonomous, but Karaflogka has differentiated between them. She described the network and its associated hardware as the Internet, but the place a person enters when they log on is Cyberspace, or as she calls it, "where the act of connectivity takes place" (Karaflogka, 2006, p. 17). The Internet has spread at a phenomenal rate. In June 2009 there were estimated to be over 1,668 million users, mainly in the developed world (World Internet Statistics). The question WHY is too big for a single paper and outside of the scope of this one, but the human relationship with Cyberspace appears to be imitating the human relationship with the sky. What people once sought in the sky, they appear to be seeking in Cyberspace. If this is an attempt to re-connect with the sky using technology, then perhaps as suggested by Partridge, through Cyberspace, the Western World is seeking re-enchantment. Partridge believes that, "In cultures thirsty for re-enchantment, it (Cyberspace) provides a doorway to digitized sacred space from a materialism that many people find increasingly unsatisfying" (Partridge, 2005, p. 154). Gibson's much quoted definition of Cyberspace is as follows: > Cyberspace. A consensual hallucination experienced daily by billions of legitimate operators...A graphic representation of data abstracted from the banks of every computer in the human system. Unthinkable complexity. Lines of light ranged in the nonspace of the mind, clusters and constellations of data. Like city lights, receding... (Gibson, 1984, p. 67) In this definition he uses the terms "clusters and constellations". At its birth, and now in the twenty-first century, Internet terminology abounds with celestial terms. Groups of network nodes are known as clusters (Aggelou, 2005, p. 120). The symbol for the Internet is a cloud, and Cloud Computing, a separate term from the cloud symbol, is the current buzzword (PC Magazine). Descriptions of the Dark Internet or Deep Internet appear similar to those of dark matter and deep space (Bergman, 2001). For example, according to NASA 96% of the universe is composed of the invisible dark energy and dark matter (NASA). Similarly, the Dark Internet, so called because it is invisible on the surface, is estimated to be at least 500 times greater than the surface accessible Internet (Bergman, 2001). The tendency to give Internet technology names already associated with the sky, suggests that in some way the Internet appears, at least to some people, to share some common characteristics with the celestial realm. This in turn suggests that humanity's relationship with the sky and space is being repeated, consciously or unconsciously, in its relationship with the Internet or Cyberspace. In the above quote Partridge refers to Cyberspace as "digitized sacred space". Other writers have likened it to the Christian Heaven, the Gnostic Heaven, the Heavenly City, the New Jerusalem, the Garden of Eden and Utopia (Benedikt, 1991, pp. 120-124). It has been claimed that it fits the description of religious theorist Mircea Eliade's sacred space, in that it meets the conditions necessary for a "hierophany" or eruption of the sacred that results in the territory, in this case Cyberspace, becoming detached from its surroundings and becoming qualitatively different, as once were the heavens (Stenger, 1991, p. 55). The following quote from Nicole Stenger describing a person logged into Cyberspace, bears a certain resemblance to Weber's description of the pre-modern individual in their enchanted world: > On the other side of our data gloves we become creatures of coloured light in motion, pulsing with golden particles... We will all become angels, and for eternity... Cyberspace will feel like Paradise, a space for collective restoration of the habit of perfection (Stenger, 1991, p. 52). The twentieth century and technology brought new developments in humanity's relationship with the sky. Before that, while the heavens may have been seen as the abode of the gods, to human beings they were inaccessible. Technology has changed this. Noble argued that with space flight, humanity is now seeking to physically go into the realm of the sacred, in search of enchantment. He wrote, "What today we call space used to be known as heaven. From its earliest expressions, the enchantment of spaceflight was fundamentally tied to the other-worldly prospect of heavenly ascent" (Noble, 1999, p. 115). This also appears to be what people are seeking from Cyberspace. Only a few elite will ever go into space, but Cyberspace is much more accessible. From its earliest days Cyberspace has also offered the opportunity to transcend the mundane. Michael Benedikt, one of the first and most influential Cyberspace theorists wrote in 1991 that Cyberspace is, > Another world, a parallel universe, offering the intoxicating prospect of actually fulfilling a dream thousands of years old: the dream of transcending the physical world, fully alive, at will, to dwell in some Beyond, and to be empowered or enlightened there, alone or with others, and to return (Benedikt, 1991, p. 131). An earlier example of this mix of the heavens, the divine and technology can be found in the work of Carl Gustav Jung. In Civilisation in Transition Jung wrote that the thousands of individual sightings of UFOs in the 1940s were based on emotional tension caused by collective distress and danger and a vital psychic need in the threatening situation of the post-war world. Humanity wanted to escape from the prison of an Earth that was growing too small and threatened by the hydrogen bomb so looked for help from extra-terrestrial sources since it could not be found on Earth. He wrote "Hence there appears Signs in the heavens", superior beings in the kind of space ships devised by our technological fantasy (Jung, 1964, p. 616). He believed that it was characteristic of the time that "the archetype of the saviour should take the form of a technological construction in order to avoid the odiousness of mythological personification" (Jung, 1964, p. 624). People wanted to escape from the prison of the Earth so "looked to the heavens for salvation as they always had", "beyond the realm of earthly organisations and powers into the heavens, into interstellar space, where the rulers of human fate, the gods, once had their abode in the planets" (Jung, 1964, p. 610). However this time when they looked to the sky for a saviour, they found technology. According to Jung "Anything that looks technological goes down without difficulty with modern man" (Jung, 1964, p. 624). Fifty years later Partridge wrote that the continued fascination with extraterrestrial life was a sign of re-enchantment (Partridge, 2005, p. 169). Extra-Terrestrials, often portrayed in fiction and film as glowing, technologically superior and with superhuman powers, bear a resemblance to the angels last met in Medieveal Christianity. So once more the heavens are populated with divine creatures. And once more people are seeking to communicate with them as their ancestors did in Mesopotamia. Weber writing about what would be termed re-enchantment, said, > Many old gods ascend from the grave; they are disenchanted and hence take the form of impersonal forces. They strive to gain power over our lives and again they resume their eternal struggle with one another (Weber, 1920, p. 149). Weber might not have agreed with the theory that space exploration, extra-terrestrial life or Cyberspace are examples of re-enchantment. He referred to new forms of enchantment as impersonal forces and considered them disenchanting. He didn't believe true re-enchantment will take place. However he argued that the process of progressive disenchantment is linear rather than either an enchantment/disenchantment polarity that exists at all times or a cycle of enchantment, disenchantment, and re-enchantment. The re-enchantment theory such as that proposed by Patridge and others, is less pessimistic and sees the urge for enchantment in the individual as signs of re-enchantment. But if we accept Weber's premise that disenchantment is a linear process, then re-enchantment is not possible in the modern technological world. However this can be disputed. Nick Campion challenged Weber's view that enchantment is necessarily antithetical to technology. He stated, > To make this condition is to deny the evidence that technology can be enchanting, or an aid to enchantment. It is to elevate technology to the position of some spirit-denying role. To dismiss experiences obtained with the aid of technology as not genuine enchantment, is to adopt a position as elitist and dogmatic as that which, in the opposite direction, denies the reality of experiences of the paranormal (Campion, 2009). According to Weber, enchantment requires magic and mystery - it must be incalculable. He argued that in a world where it is believed everything is knowable, disenchantment is inevitable. To know one must observe, to observe one must detach. It is not possible to be at one with the natural world. Therefore disenchantment is incompatible with the scientific approach. Therefore, following Weber, astronomy today seeking to understand the heavens is incompatible with enchantment. In Weberian terms you cannot have an enchanted astronomer. The following quote by astronomer David Levy, challenges that theory. Writing about a Mercury transit of the Sun, he wrote, > I was filled with the sense of the solar system in motion...Instead of watching Mercury meander across a silent backdrop, we watched it move gracefully from one solar feature to another...the closest planet to the Sun is capable of putting up a marvellous show (Levy, 2007). "I was filled with a sense of the solar system", suggests involvement and participation with the cosmos, not detachment. This is enchantment in the Weberian sense and using technology. That people are seeking re-enchantment has been argued by Berman, Partridge and others. Cyberspace can be considered an expression of this, as it appears to be an attempt to recreate the human relationship with the sky, in a way that can be physically accessed by all. This suggests that, as argued by Campion and demonstrated by Levy, the sky continues to be a source of enchantment in the modern world. References Aggelou, George. 2005. Mobile ad-hoc networks. New York: McGraw-Hill. Anon. PC Magazine encyclopedia. http://www.pcmag.com/encyclopedia_term/0,2542,t=cloud&i=39847,00.asp. Accessed 7 July 2009; http://www.pcmag.com/encyclopedia_term/0,2542,t=cloud+computing&i=57964,00.asp. Accessed 7 July 2009. Anon. World internet statistics. http://www.internetworldstats.com/stats.htm. Accessed 4 Oct 2009. Benedikt, Michael. 1991. Cyberspace: Some proposals. In Cyberspace: First steps, ed. Michael Benedikt. Cambridge: MIT. Bergman, Michael K. 2001. The Deep Web: Surfacing Hidden Value. The Journal of Electronic Publishing 7(1). Issue title: Taking License: Recognizing a Need to Change. Berman, Morris. 1981. The re-enchantment of the world. London: Cornell University Press. Campion, Nick. 2009. 'Enchantment and the awe of the heavens'. Proceedings of the INSAP VI Conference, Venice, (ed. Enrico Maria Corsini). San Francisco: ASP Conference Series, October 2010. Dante, Alighieri. 2009. The divine comedy, paradiso (trans. Henry Francis Cary). London: Wordsworth Editions Ltd. Gibson, William. 1984. Neuromancer. London: Voyager, 1995 [Victor Gollancz, 1984]. Isaac Newton, Isaac. 1729. 'General Scholium', The Mathematical principles of natural philosophy (trans. Andrew Motte) (London, 1729) Jung, Carl Gustav. 1964. The collected works of C. G. Jung. In Civilisation in transition (trans: R.F.C. Hull), vol. 10. London and Henley: Routledge and Kegan Paul Ltd. Karaflogka, Anastasia. 2006. E-religion: A critical appraisal of religious discourse on the world wide web. London: Equinox. Kepler, Johannes. 1967. Somnium: The dream (trans. Edward Rosen). Madison: University of Wisconsin Press. Levy, David. 2007. Our memorable mercury transit. Sky and Telescope, May. Noble, David F. 1999. The religion of technology: The divinity of man and the spirit of invention, 2nd ed. New York: Penguin Books [1997]. Partridge, Christopher. 2005. The re-enchantment of the west. London: T&T Clarke International. Plain, Charlie. A dim light shines on dark matter. NASA website, http://www.nasa.gov/missions/deepspace/chandra_dark_matter_halo.html. Accessed 7 July 2009. Plato. 1997a. Epinomiss. In Plato: Complete works, eds. John M. Cooper, and D.S. Hutchinson (trans. Richard D. McKirahan, Jr.). Indiana: Hackett Publishing Company. Plato. 1997b. Republic. In Plato: Complete works, eds. John M. Cooper, and D.S. Hutchinson (trans: Richard D. McKirahan, Jr.). Indiana: Hackett Publishing Company. Plato. 1997c. Timaeus. In Plato: Complete works, eds. John M. Cooper, and D.S. Hutchinson (trans. Donald J. Zeyl). Indiana: Hackett Publishing Company. Ptolemy, Claudius. 1984. Almagest (trans. G. J. Toomer). London: Duckworth. Rochberg, Francesca. 2004. The heavenly writing: Divination, horoscopy and astronomy in mesopotamian culture. Cambridge: Cambridge University Press.CrossRef Stenger, Nicole. 1991. 'Mind is a leaking rainbow'. In Cyberspace: First steps, ed. Michael Benedikt. Cambridge: MIT. Weber, Max. 1920. Science as a vocation. In From max weber: Essays in sociology, eds H.H. Gerth, and C. Wright Mills (trans. and ed.), 129-156. London: Routledge & Kegan Paul Ltd, 1947. Wertheim, Margaret. 1999. The pearly gates of cyberspace. London: W.W. Norton & Co. Ltd. Anna-Teresa Tymieniecka and Attila Grandpierre (eds.)Analecta HusserlianaThe Yearbook of Phenomenological ResearchAstronomy and Civilization in the New EnlightenmentPassions of the Skies10.1007/978-90-481-9748-4_6(C) Springer Science+Business Media B.V. 2011 # The Science Of Wholeness Menas Kafatos1 (1) Schmid College of Science, Chapman University, Orange, CA, USA Menas Kafatos Email: mkafatos@gmail.com Abstract Astronomy has played a key role in the development of science and in humanity's view of the universe and our place in it. The view of the cosmos has always held a special place in the minds and hearts of cultures throughout the history of the world. In some sense, looking at the night sky reminds us of the depths of our own existence. It is not surprising then that as we attempt to search for the holy grail of science, the unification of diverse fields, that astronomy would find itself central. The universal diagrams provide glimpses of such unification and astronomical objects play a very important role. However, the future science of wholeness will need to go much further than any physical theory has gone so far and provide bold steps to unify everything in the human experience. We are referring to an approach that starts from a set of foundational principles that are universally applicable and can form the very roots of the science of wholeness. The first such steps are outlined in the present paper. ## Introduction Astronomy dates back to antiquity as the most ancient of what we would call today physical sciences. It was developed along with mathematics and impacted philosophical ideas in the ancient world, most notably Greece. There is no doubt that watching with awe the starry sky, our ancestors wondered what we are, where we came from and how we fit in the universe. Watching the regularity of the heavens, the distant and mysterious Milky Way, the arrangements of constellations, how they fit in the picture of the cosmos in ancient cultures, one cannot but notice that as we fix our gaze on the dark sky, we are experiencing a profound wholeness. It is this wholeness which is central to human experience. Mathematics was developed as order was paramount to what we observe. Music and the arts are steeped in that order and it is not an accident that mathematics, art (particularly music) and astronomy were closely related and developed: The music of the spheres of the Pythagoreans epitomizes that relationship: Music, Geometry (Mathematics) and the Heavens. To the ancients, they were all closely related, a wholeness of experience. Unlike our modern world where divisions are worshipped as fundamental, and even necessary, the alternative view of wholeness in human experience has affected the rise of civilization and formed the main tenets of ancient Egypt, ancient India, ancient China, and particularly ancient Greece. It is likely that similar tenets existed in all great ancient civilizations. Since we recognize our roots in these ancient civilizations, particularly in the Greco-Roman traditions, we must accept that we are rooted in wholeness. It is important to again emphasize that astronomy may have played a central, unifying role: Watching the sky, leads to a silence which in turn gives rise to the experience of being part of something much greater, a whole beyond our limited existence and lifetime of mere years. The vastness of space points to the vastness of wholeness, to the vastness of inner experience, to the infinity of time. It is perhaps because the human mind itself is rooted in wholeness: By mind we refer to more the ancient concepts of Nous (Greek) or Manas (Hindu), rather than the modern version of limited mind. The mind is vast and unlimited, it perhaps remains in awe in front of the cosmos because it recognizes that itself is unlimited and whole. Science itself is rooted in the cosmos, it is rooted in astronomy as Henry Stapp (chapter "Mind in the Quantum Universe", present volume) observes. It is no wonder that quantum theory, which has produced a radically different view of the universe from classical physics has both ushered non-locality and the role of the observer. Today's science has achieved remarkable successes and is an indispensable aspect of humanity. Without science, there can be no progress. Yet, science cannot explain, it is not equipped to explain anything that is not subject to algorithmic rules, to ordinary mathematical descriptions, or in the case of physical systems, partial differential equations. It cannot explain the qualitative aspects of reality. Present science cannot completely explain not only living processes in large aggregates of cells, organisms, etc., or what we may term holistic organizations (it certainly has great success to account for molecular biochemical processes), but also noetic aspects of reality, mind and consciousness. It cannot explain or even account for the experiences of art, for the entire experience of human life, driven by the emotional levels of the psyche. And certainly it has little to say about the deep underlying nature of the cosmos, or reality, in general. We believe that present-day science needs to be extended beyond its present limits and it needs a new ontological model of reality, what we term here the science of wholeness. A revised methodology, which derives from the above ontological model will have to follow. The methodology in laying the foundations of science of wholeness would indicate that rather than pursuing distinct but separate paths in trying to understand the universe and human experience, that these realities ought to be considered together, an undivided whole. As Kafatos and Draganescu (2003) have pointed out, we may not be able to account for the whole levels of life and explain noetic aspects without knowing the nature of the underlying reality. We should compare our approach to the seminal work of Bohm (1980), who perhaps more than any other physicist explored the underlying levels of reality, giving rise to wholeness, what he termed the implicate order. As such, what are the principles of this underlying reality? If such principles are to be explored, they need to be related to phenomena in the physical universe. And the principles themselves may be telling us many intricacies of the phenomenal world, as they would shine through phenomenal experience. In pursuing these principles, one would understand that the whole procedure is similar to building the foundations of mathematics, say geometry, from fundamental axioms. Such an axiomatic approach would ultimately be tied to specific theories such as quantum theory, general relativity, etc. But it would extend beyond them. We expect that fundamental mathematics such as category theory (Kato and Struppa, 1999; Draganescu et al. 2001) will provide the requisite framework for developing the right language and methodology of the science of wholeness. These are the first "shy" steps in developing the science of wholeness. Such an endeavor would require many thinkers to join forces across different disciplines, presently not in dialogue with science. Creative processes in art and in science will have to be studied to identify common elements. The present albeit brief essay is an exercise in exploration. Much of what is here has been discussed in previous works, most notably Kafatos and Draganescu (2003) and I am indebted to the many developments of these ideas by Mihai Draganescu. Additional material has been added, including the challenge of survival of humanity. ## Foundational Principles and Physical Theories The astronomical observation of Tycho led to Kepler's three laws of planetary motion, coupled to Galileo's association of gravity with acceleration, led directly to Newton's law of gravitational attraction; in turn, this led to the idea of physical determinism. The idea of universal physical determinism is a basic precept of what is now called "classical physics" (chapter "Mind in the Quantum Universe" by Henry Stapp, present volume). We conclude that the foundational principle of determinism forms the main foundational principle of classical physics. We can now begin to explore the foundational principles of the new science of wholeness. Foundational principles are more fundamental than physical theories (Kafatos, 1998a). Still the foundational principles have to rely on a general model of existence and need to be developed in a systematic way. The entire existence has two main parts or components: a deep underlying reality (Kafatos and Nadeau, 1990; Draganescu 1985, 1997/1979) and the universe (or even many universes, not connected to each other). These two components are not separable because the universe is born from the deep underlying reality and maintains contact with it. "The deep underlying reality is a matrix on which a universe develops and the substrate of a universe is also a part of this deep underlying reality" (Draganescu and Kafatos, 1999). Seen from inside a specific universe the physical laws are structural. The physical laws of the deep underlying reality are, on the other hand, mainly semantic in character (Rosen, 1988; Draganescu, 1990, 1993, 1996). The deep underlying reality, as part of a universe, introduces in turn the influence of its semantic laws to supplement the structural physical laws of the universe. Mental phenomena (noetic) of experience form an objective reality in itself, beyond its subjective way of manifestation in the human consciousness. Draganescu (1985, using the concept of mental phenomenological sense), Chalmers (1995b, 1996), Stapp (1997), Kafatos (1998a) etc. all recognize the objective existence of the experiential phenomenon and consider that it can not anymore be neglected by science. The experiential phenomenon is one of the most fundamental phenomena of nature according to Draganescu. He, in considering its semantic character of several phenomena, named them phenomenological, as they must be aspects of a general phenomenon existing in the deep existence and manifested in physical processes. The proposed model of the science of wholeness, as a basis of forming foundational principles in the philosophy of science, assumes the existence of a deep underlying reality and the recognition of the primacy of phenomenological sense (which in the specific case of mental phenomena can be termed as experience ), at both the physical and informational levels of reality. And a model of reality which recognizes the primacy of the phenomenological sense is a structural-phenomenological model of reality (for more discussion, see Kafatos and Draganescu, 2003). In what follows, we examine a set of proposed foundational principles for the entire existence, for the deep underlying reality and for the corresponding universe(s) which are based on the above. This proposal follows the work of Kafatos and Draganescu (2003, and several articles by same authors) and points the direction to be followed to develop a true science of wholeness. ## Principles Concerning Existence Following an axiomatic approach, the following foundational principles which apply to the entire existence or reality as defined above are assumed: * complementarity (Principle 1 or P1); * the physical and informational nature of existence (P2); * semantic laws (P3); * self-organization (P4); and * fundamental consciousness of existence (P5). The specifics of the above principles are summarized here: ### Complementarity A generalization of complementarity beyond the quantum levels yields the assertion (Kafatos and Nadeau, 2000) that Complementarity is a foundational principle of existence (P1), applying at all levels, from the level of deep existence to the physical quantum and cosmological realms. Complementarity manifests itself in the whole/part behavior of reality, in the energetic/informational properties of deep reality, in the wave/particle duality in the universe, in the structural/phenomenological aspects of consciousness, in the local/non-local properties of the universe, and in the continuous/discontinuous phenomena, to just name a few (Kafatos and Draganescu 2003). Applying the ontological principle of complementarity may be very useful for resolving some situations of current impasse in science in moving forward. In the description of the universe there are observational and theoretical horizons of knowledge (Kafatos and Nadeau, 1990, 2000; Kafatos, 1989). Approaching a specific horizon of knowledge, the observational data available "prevent us from deciding unequivocally how these tests confirm or reject particular theoretical models" (Kafatos 1989). These models represent complementary constructs, and the new concept of the universe, at that horizon of knowledge, is emerging as the boundary between these constructs. As such, horizons of knowledge are present not only in cosmology, but in other fields as well. Such generalization of complementarity was proposed early on by Bohr (1958). ### The Nature of Existence This principle has the following subcomponents: The nature of existence is both physical and informational (P2), and The actual manifestation of nature of existence is mainly physical (P2') Principle (P2) may be considered as a principle of an informational materialism in philosophy. Also, an important aspect of the entire existence is its "energy" (which for a physical aspect is ordinary energy). There is energy in the deep existence with specific properties and according to Draganescu (1990, 1993, 1996), Energy is a universal ontological principle of existence (P2a). Also, Draganescu (1990; 1993; 1996) proposed that Information is a universal ontological principle of existence (P2b). In examining the nature of existence, one concludes that matter by its nature includes both energy and information; it also contains or forms an underlying fundamental consciousness. In a particular universe (such as ours), the information is also structural (like digital information) or structural-phenomenological (as found in mind processes). Information is, therefore, a fundamental reality of all existence, and physics will be able to accommodate it only after the recognition of the existence of actual phenomenological (experiential) information. In this sense, quantum theory, more than any other scientific theory, has opened the door to the mental phenomena and the underlying structure of the cosmos, it has recognized the primacy of such phenomena (Stapp, 1997; chapter "Mind in the Quantum Universe" by Henry Stapp, present volume). But it has not resolved the fundamental issue of how to account for them, how to build a comprehensive theory of noetic processes. ### Semantic Laws and Tendencies of Becoming According to the works of Draganescu and Kafatos, the phenomenological aspects of the underlying deep reality, are by their nature equivalent to semantic laws because they give the tendencies of evolution (cf. Draganescu, 1990, 1993, 1996). These are the most fundamental laws of existence and the principle of the semantic laws and associated tendencies of becoming (P3) is a foundational principle. The work of Stapp over the years has brought out similar ideas when quantum theory is applied to mental phenomena. The semantic laws of nature are phenomenological and have tendencies to evolve (see also Stapp, summarized in present volume). Because these laws are at the origin of the formal laws of the universe, the more recent ones are carriers of the tendencies of the previous ones (we emphasize here that there is an interesting analogy with the quantum mind ideas of Stapp). Therefore, tendencies of becoming are a general property of existence, and principle (P3) is ontologically universal. In our view, determinism (including the statistical determinism) and non-determinism are complementary. Perminov (1988/1979) considers that this is a generalization of the principle of complementarity of Niels Bohr. Finally, the sources of the semantic laws are the infra-consciousness of existence and fundamental consciousness (for more details see Kafatos and Draganescu, 2003). ### Self-Organization If the semantic laws of existence and the thought processes of consciousness are establishing tendencies of becoming and of evolution, they are realized in: The ontological principle of self-organization (P4). Self-organization is encountered in the structural domains of reality, and in the structural-phenomenological realms, in deep underlying reality and in the associated universe emerging from such reality. In the structural domain of the physical world, self-organization is produced due to the specific formal laws which are governing this domain or sub-domains of it. For example, gravity leads to self-organized objects like planets, stars, galaxies, clusters of galaxies. Also, atoms and molecules are formed by self-organization. Nuclei are self-organized objects from quarks, etc. It has been recognized in the development of non-linear dynamics that non-linearity and processes governed by non-linear dynamics are essential for a rich range of self-organized structures. As such, self-organization is acting in structures with cellular automata, complex adaptive systems, artificial life systems, deterministic chaos processes, etc., all these forming the newest domains of the structural science. They are all important contributions to science, but are still within the realm of structural science. Phenomena of self-organization are also present at the social levels, Draganescu and Kafatos (2003) (for example social insects and human society). The rapid rise of the Internet is an example of self-organization at global levels and one can only appreciate the influence that it has yielded in transforming modern society. The emergence of life in the universe is itself a process of self-organization. Life self-organizes itself. The process of self-organization once understood may be used by humans in advancing the state of societies. At deep levels of reality, the Fundamental Consciousness Itself uses the processes of self-organization to give rise to the myriad of phenomena. Self-organization builds more complex things from simpler things. Kafatos (1998b) proposed that self-organization, as well as simplicity and complexity, should be examined as candidates for foundational principles in the philosophy of (ordinary) science. The principle of self-organization is indeed as important as the other foundational principles. Self-organization is present at all levels in existence and it may be said that it is scale-invariant. In the structural (or realm governed by ordinary science) realm of the universe, it is known that complex structures and phenomena manifest, in many cases, on the basis of very simple mathematical equations. Chaos phenomena and fractals are apparently complex, but are simple at their roots in the basic equations. Perhaps, higher complexity is present in the Complex Adaptive Systems (CAS), a concept introduced at the Santa Fe Institute (cf. Kaufmann 1995; Coveney and High-field, 1995; etc.). Contemporary science tries to explain a great part of reality through the complexity of structural processes. A complex system must thus have non-computable models (Rosen, 1997). For example, organisms are complex entities, human consciousness is complex, deep reality is complex, and the Fundamental Consciousness of Existence is Complex. The existence in its totality is, therefore, complex. If the deep existence, which is complex, gives rise to structural domains based on simplicity, as mentioned above for the case of elementary particles, and the evolution of these structures develops complex objects with phenomenological parts, then there is a movement or flow from, to: It may also be the case that in the deep reality, the infra-consciousness of existence, which is the most fundamental phenomenological sense of existence, or what one may term the feeling of existence itself, is very simple, like the deep energy, but at the same time all-encompassing, to generate vast numbers of complexities. In such a case, the mentioned movement or flow would be ### The Fundamental Consciousness of Existence The idea of a conscious universe (Kafatos and Nadeau, 1990, 2000) has recently gained momentum (see e.g. Draganescu, 1997), and has been amplified through the concept of the fundamental consciousness of existence (Draganescu, 1998a, b) and through the proposition that this is a foundational principle (Kafatos 1998b). As such, The Fundamental Consciousness of Existence (P5) is itself a fundamental principle. Consciousness is of two general types: (a) human consciousness in a social environment, as well as forms of consciousness of other organisms, and (b) the fundamental consciousness of existence. Human consciousness is today an intense object of study. However, the problem is to identify which parts are the main principles of consciousness valid for both types, and which ones are different between them. Human consciousness is not as encompassing as fundamental consciousness and the very usage of the term "consciousness" often introduces confusion. In other words, fundamental consciousness is not anthropomorphic (Kafatos and Nadeau, 1990, 2000). Its existence depends mainly on the nature of the deep underlying reality, using the elements and properties of this reality, co-existing with it, and involving a plethora of possible emerging universes as structures for intelligence (Draganescu, 1998a, b). The actual possibility of fundamental consciousness depends on the phenomenological manifestations of the deep reality. A phenomenological sense which assures the unity of deep reality and with it the unity of the whole existence, is one which manifests itself as the feeling of existing, or as we said above, an infra-consciousness of existence. Around this infra-consciousness, an emerging consciousness develops by using the deep levels of energy to form emerging structures (in order "to know", to become reflexive, it must use structures to obtain intelligence). These structures cannot be anything but universes created with the help of phenomenological attributes and energy. The universes are involved in the fundamental consciousness of existence (Draganescu, 1998a), under the direction or "command" of the semantic laws of reality and the command of consciousness itself. Fundamental consciousness is, therefore, phenomenological-structural, implying the entire existence, and for this reason it is a foundational principle. Human consciousness is structural-phenomenological. This is one important difference between these two types of consciousness, the order and emphasis of emergence. However, it is also the case that consciousness is fundamental in general, and is not an evolutionary accident of biology. Does it mean that existence is "alive" if it has a conscious whole? (as Kafatos and Nadeau, 2000; and Nadeau and Kafatos, 1999 have affirmed). Perhaps the attributes of life, which fundamentally also imply the inevitable mortality of every organism in a universe, are not appropriate for understanding or more appropriately experiencing the fundamental consciousness. Being immortal, outside of space and time, we might instead use the old philosophical term of Being for It, as developed in all perennial philosophies (Kafatos and Kafatou, 1991). It may be that consciousness is complementary to physical existence, and it may be said that "the Universe and Consciousness are related to each other the same way that body and mind are related to each other" (Kafatos, 1998b). ## The Nature of Underlying Deep Reality and the Universe The underlying deep reality is the first and the ultimate reality, existing outside of space and time (Kafatos and Nadeau, 1990, 2000; Draganescu 1990, 1993, 1996). The underlying deep reality (P6) is a foundational principle in the proposed science of wholeness, and should be accepted before all else as the fundamental principle on which all other principles are based. An important phenomenon of the deep reality is the coupling, under specific circumstances, between the phenomenological information and the deep energy, which is a coupling of these components of the deep matter. P6 gives the possibility to speculate on possible models of the deep underlying reality, and to propose, in the future, specific foundational principles for this part of reality (for more details see Kafatos and Draganescu, 2003). Finally, if a universe is generated by the deep reality and is connected to it, the principles governing this particular universe, it must be a reflection of this condition. As such, the first of these principles (Kafatos and Nadeau, 1990, 2000; Kafatos 1998b) is: Nonlocality/wholeness (P7). Non-locality manifests in the universe due to the fact that the elementary particles are wave-like in the deep reality which allows for wholeness. Non-locality is presently firmly established (Kafatos, 1998a; see the rich phenomena such as the Aharonov-Bohm effect). In the frame of the standard model of quantum mechanics (Kafatos and Nadeau, 2000), a spatial or Type I non-locality produces an entanglement of elementary particles (for instance, photons) across space-like separated regions, even over astronomical scales; a temporal, or type II non-locality, which states that a path followed by a particle (e.g. a photon) is not determined until a delayed experimental choice (per J. Wheeler or Y. Aharonov) is made, as if the past is brought together with the present. In the frame of a unified field theory, a type III non-locality (Kafatos and Nadeau, 2000) would be expected, implying the unified whole of space-time converging to the wholeness unity of the deep underlying reality. Type I and Type II non-locality are, in fact, facets of the Type III non-locality. Today it is accepted that the structural universe is fundamentally a quantum system. However, the complete universe (at least ours) is not only quantum, it is also phenomenological. Therefore, the following foundational principle (Draganescu, 1998a) holds, The Universe is quantum-phenomenological (P8), which is a stronger statement than the ordinary statement "the structural universe is a quantum system" (although of course this statement is also true, but it has not the character of a foundational principle applying at all levels). In a first approximation the universe is structural, and the structural science has worked quite well with this approximation, which is otherwise very useful. As an example, an interesting feature of the structure and structural order of the universe is given by the Universal Diagrams (Kafatos, 1986; Kafatos and Nadeau, 1990, 2000; Kafatos 1998a) based on the structural laws of physics and the constants involved in these laws. The Universal Diagrams (UD) represent relationships between physical quantities (mass, size, luminous output, surface temperature, entropy radiated away, etc. ) for objects from elementary particles to atoms, molecules, sub-cellular organelles (chromosomes etc.), cells, other biological entities, industrial and man-made objects, cities, planets, stars, galaxies, clusters of galaxies, superclusters, etc. Principle (P8) is confirmed overall by the phenomena of experience. The way in which the universe is quantum-phenomenological is open for scientific research. However, there is a lot more work to be done to build quantum-phenomenological models of the universe. The continuous deepening of the structural quantum theory and the new efforts towards a quantum theory of the brain (chapter "Mind in the Quantum Universe" by Henry Stapp, present volume) might offer insights for a quantum phenomenological theory of the universe. Finally, The objects with life, mind and consciousness in a universe are structural-phenomenological (P9). This principle is defining the complete nature of these objects. The universe is structural-phenomenological because it is quantum-phenomenological, and also because its phenomena of life, mind, and consciousness are structural-phenomenological. Evolving or deepening the existing quantum theory, will allow phenomenological and energy-containing sources at all levels to be explored. Concerning living objects, these structures, from the underlying biosphere itself, through self-organization, emerge and form a general property of nature on the Earth. This coupling may be the basis for explaining the "explanatory gap" of the brain-mind problem (Draganescu, 1998c). This coupling is different from the coupling of energy and phenomenological information in the deep reality. It seems that there are many forms of coupling of objects and phenomena in existence. ## Conclusions: Science of Wholeness and the Survival of Human Societies The foundational principles proposed in this paper are partly rooted in scientific facts, partly based on philosophical considerations, extrapolating new scientific concepts not yet incorporated in the existing system of science as practiced today. A mixture of science and philosophy of science may be a bridge between the old and the new science of wholeness proposed here. These principles may be used as working hypothesis for extending science, and for elaborating new scientific theories. With new advances of science, they may be refined and incorporated into the next level of development. Examining the proposed list (P1)-(P9) of foundational principles, one may ask what is the paradigm suggested by the philosophy of science encompassing these principles. Candidates for the new general paradigms are (Kafatos and Draganescu 2003): * Underlying deep reality; * Phenomenological sense (experience, phenomenological information); * Fundamental Consciousness of Existence. Concerning the methodology of science, the structural science is based on theory, especially mathematical models, and measurements. Perhaps the most critical part of the scientific method today is the role of measurement in science, particularly quantum measurement theory. Today structural science is accepting indirect proofs of the theory as was the case with the theory of quarks for the structure of nucleons. These particles were not isolated and measured, but the indirect proof of their existence validated the theory. Indirect proofs became more important, even fundamental, with enlarging or deepening of the results of quantum theory, even in the structural domain. However, one has to be careful before accepting entire scientific constructs, just because they conveniently extend some observations that may be in dispute (such as the dark energy concept of empty space in an expanding universe). For the new science of wholeness, new methodological principles are needed. In any case, for the time being, to the methodology of the structural science, the following fundamental principle may be added to the list so far (Draganescu, 1990, 1993, 1996): Structural science is insufficient and incomplete to describe the entire reality (P10) or otherwise stated, structural science is insufficient to describe objects undergoing phenomenological processes, such as living objects, mind, consciousness, as well as deep existence, the Fundamental Consciousness of Existence and, finally, the overall nature of existence. The current challenges facing humanity may be pointing to the need and urgency to develop a generalized system of science of wholeness. The recent economic collapse and the looming problem of ecosystems under stress and global climate change, both point to the direction that ordinary science by itself cannot address these challenges. A science of wholeness needs to be developed that would encompass the fundamental aspects of human experience, at all levels. We believe that the way to begin is to think about and develop what would be the underlying principles in a fundamental mathematical approach (beyond just numerics). Such principles would not only form the theoretical framework, they would also provide a practical way to develop and address what issues an effective new science would resolve. What we have outlined here is just a blueprint for how this may come about. The actual work will have to involve many people and organizations. Clearly, time is of essence. On the other hand, one cannot short circuit the process, so patience is required. Acknowledgments I am indebted to my friend and colleague Mihai Draganescu for developing and working with me on many of the ideas here. Mihai unfortunately passed away this year. He is being missed. References Bohm, D. 1980. Wholeness and the implicate order. London: Routledge. Bohr, N. 1958. Atomic physics and human knowledge. New York: John Wiley. Chalmers, D. 1995a. Puzzle of conscious experience. Scientific American, December: 62-68. Chalmers, D. 1995b. Facing up the problem of consciousness. Journal of Conscious-ness Studies 2-3: 200-219. Chalmers, D. 1996. The conscious mind. New York, Oxford: Oxford University Press. Coveney, P., and R. Highfield. 1995. Frontiers of complexity. The search for order in a chaotic world. New York: Fawcett Columbine. Draganescu, M. 1985. Ortofizica (Orthophysics), Bucharest. Draganescu, M. 1990. Informatia materiei (Information of matter), Bucharest. Draganescu, M. 1993. Principes d'une science structurale-phenomenologique, Bulle-tin de la Classe des Lettres et des Sciences Morales et Politiques, Academie Royale de Belgique, 6e serie, Tome IV, 7-12: 255-311. Draganescu, M. 1996. L'universalite ontologique de l'information, preface et notes par Yves Kodratoff, Prof.,Universite de Paris-Sud, Directeur de recherche au CNRS. Bucharest: Editura Academiei Romane. Draganescu, M. 1997/1979. The depths of existence, published in English, 1997, on the Web: http://www.racai.ro/books/doe (translation of the Romanian edition "Profunzimile lumii materiale", Bucharest, 1979). Draganescu, M. 1997. Deep reality, conscious universe and complementarity. The Noetic Journal 1.1: 114-117. Draganescu, M. 1998a. Structural-phenomenological theories in Europe and USA. Paper presented at the workshop Convergences, Workshop on Convergent Ideas in the Philosophy of Science in USA and Europe, George Mason University, July 21, Fairfax. Draganescu, M. 1998b. Constiinta fundamentala a existentei (The fundamental consciousness of existence), Academica, ianuarie 1998, 20-21 (I-a), Feb. 1998, 20 (II-a), Mar 1998, III-a, 28-29. Draganescu, M. 1998c. Taylor's Bridge across the explanatory gap and its extension. Consciousness and Cognition 7: 165-168.CrossRef Draganescu, M., and M. Kafatos. 1999. Generalized foundational principles in the philosophy of science. The Noetic Journal 2(4): 341-350. Draganescu, M., and M. Kafatos. 2003. Community and social factors for the integrative science. Research paper, Institute of Research for Artificial Intelligence, Romanian Academy, Romania. Draganescu, M., M. Kafatos, and S. Roy. 2001. Main types of phenomenological categories. Proceedings of the Romanian Academy 2(3); 115-122. Kafatos, M. 1986. Astrophysics of brown dwarfs, eds. M. Kafatos, R.S. Harrington, and S.P. Maran, Cambridge: Cambridge University Press Kafatos, M. 1989. Horizons of knowledge in cosmology. In Bell's theorem, quantum theory & conceptions of the universe, ed. M. Kafatos, 195-210. Dordrecht: Kluwer Academic Publishers. Kafatos, M. 1998a. Non-locality, complementarity and cosmology. In Causality and locality in modern physics and astronomy: Open questions and possible solutions. A symposium in Honor of Jean-Pierre Vigier, eds. G. Hunter and G. Jeffers. Boston: Kluwer Academic. Kafatos, M. 1998b. Non-locality, foundational principles & consciousness, communication at the Workshop Convergences. Kafatos, M., and M. Draganescu. 2003. Principles of integrative science. Bucharest: Editura Tehnica. Kafatos, M., and T. Kafatou. 1991. Looking in, seeing out: consciousness and cosmos. Wheaton: Quest Books. Kafatos, M., and R. Nadeau. 1990. The conscious universe. New York: Springer Verlag.CrossRef Kafatos, M., and R. Nadeau. 2000 The conscious universe: Parts and wholes in physical reality. New York: Springer.CrossRef Kato, G., and D. Struppa. 1999. A sheaf theoretic approach to consciousness. The Noetic Journal 2.1: 1-3. Kaufmann, St. 1995. At home in the universe. The search for laws of self-organization and complexity. New York, Oxford: Oxford University Press. Nadeau, R., and M. Kafatos. 1999. The non-local universe: The new physics and matters of the mind. Oxford: Oxford University Press. Perminov, V. I. 1988/1979. Cauzalitate (causality), Bucharest 1988 (translated in Romanian after the Russion edition, 1979). Rosen, R. 1988. Processes and natural law. In The universal turing machine, a half-century, ed. Herken Rolf, 523-538. Oxford: Oxford University Press. Rosen, R. 1997. Are our modelling paradigms non-generic? ch. 14. In Time process and structured transformation in archeology, eds. S. van der Leeuw and J. McGlade J. London: Routledge. Stapp, H.P. 1997. Why classical mechanics cannot naturally accommodate consciousness but quantum mechanics can. Noetic Journal 1: 85-86. # Part 2 COSMOS SHAPING WORLD VIEWS Anna-Teresa Tymieniecka and Attila Grandpierre (eds.)Analecta HusserlianaThe Yearbook of Phenomenological ResearchAstronomy and Civilization in the New EnlightenmentPassions of the Skies10.1007/978-90-481-9748-4_7(C) Springer Science+Business Media B.V. 2011 # Meridianae in Italy Bela Kalman1 (1) Konkoly Observatory, Budapest, Hungary Bela Kalman Email: kalman@konkoly.hu Abstract The catholic church supported astronomical observations and gave them ample financial support for several centuries. These observations were needed for studying the movement of the Sun and establishing the date of Easter. Before the use of telescopes large cathedrals served as astronomical observatories, with openings in the walls or ceilings for the sunlight and large meridian lines on the floors for observing the transit of the Sun. The author of the present paper had the opportunity to study four of the largest meridianae in Italy, and also some other instruments connected with the calendar reform of Pope Gregory XIII, and hereby summarizes their significance. There is a widespread opinion, based mainly on the cases of Copernicus and Galilei, that the catholic church was generally hostile to astronomy, and made no contribution to the evolution of this science. But actually "the Roman Catholic Church gave more financial and social support to the study of astronomy for over six centuries,... than any other, and, probably, all other, institutions.... [although] the basis of its generosity to astronomy was not a love of science but a problem in administration. The problem was establishing and promulgating the date of Easter" (Heilbron, 1999, p. 3). Our present (pure solar) calendar system has its origins in the Roman one, which acquired its final form after the reform of Julius Caesar, with final touches fom Augustus. This Julian calendar contains 365 days, every 4th year (the number of which is divisible by 4) is being a leap year with 366 days, i.e. the average length of the year is 365.25 days. This calendar was used also by the Christians in the Roman empire. For them the greatest holiday in the year was Easter, the day of the resurrection of Jesus Christ. Jesus died on the day of Jewish Passover, after the Last Supper (14 Nisan). The Jewish day begins at sundown, but the Roman day starts at midnight or sunrise. Jesus was buried on Friday, and the Resurrection occurred on Sunday. The early Christians therefore held Easter 1 or 2 days after the Jewish 14 Nisan. The problem was, that they had to ask the rabbi what the exact date of Nisan 14 was, as the Jewish calendar is a fairly complicated luni-solar one. Therefore a Christian Nisan, named "Luna" was introduced, and calculated from various cycles, and Easter was held after 14 Luna. The main cycle was the Metonic cycle known from the Greeks, where after every 19 years minus 1 day the lunar phases occur on the same date in the calendar. The subtraction of the 1 day was called "saltus Lunae". As Christianity spread, two main lines developed for Easter. In Asia Easter was celebrated every year on 14 Nisan (Quartodecimans), but in Rome and Alexandria Easter was celebrated on the Sunday after 16 Luna or 15 Luna, respectively. In 313 Emperor Constantine converted to Christianity, and in 325 he convened the first ecumenical council in Nicea, to unify the Christian faith and suppress heresy. The quartodeciman practice was declared as heretical, and the council assigned the Alexandrians the task of computing the date of Easter, to which all Christian communities had to adhere. The 318 bishops present in Nicea observed, that the vernal equinox occurred on 21 March. In Alexandria the Metonic cycle was used, with saltus Lunae in the last year. The Alexandrians distributed their results well in advance, e.g. Bishop Cyrill for the next 95 years, 437-531. The Julian calendar had a long cycle of 532 years, a combination of the 19 year Metonic cycle and the 28 year circulus Solaris, which meant the returning of the weekdays on the same date. In Alexandria years were counted from the reign of Emperor Diocletian, the conqueror of Alexandria (Anni Diocletiani, A.D.). Thus, Cyrill's tables ended in 247 A.D. In Rome Pope John I wanted to unify practice and in 525 he asked Dionysius Exiguus, an expert in computus (computation of Easter), to make a new table of Easters. Dionysius carried on his computations based on the 19 year Metonic cycle and vernal equinox on 21 March, but he would not want to count the years according to the reign of an emperor persecuting Christians. So in his tables, which were the continuation of Cyrill's, he equated the year 248 Anni Diocletiani to the 532th year of Incarnation of Christ (Anno Domini). This beginning of the count of years became widespread in the Christian world after The Ecclesiastical History of the English People by Beda Venerabilis, which was completed in 731. It was the need for computus that helped mathematics and astronomy to survive in the Middle Ages. By the end of the XV century the slight errors of the cycles used in computus (the real mean length of the year is 365.2422 days) had come to cause very noticeable differences between computed and real astronomical events, e.g. equinoxes. So a reform of the calendar became inevitable, which was done by Pope Gregory XIII. He, in his papal bull "Inter gravissimas" ordered two changes: (1) After 4th October 1582, the next day would be 15th October 1582, so the 10-day shift of the vernal equinox was corrected, and (2) of the years, whose number is divisible by 100, only those remain leap years, whose number is also divisible by 400. This is how we arrived at our present, the Gregorian calendar. For the calendar reform observations of the Sun were needed, to establish the date of the vernal equinox, and also the obliquity of the Ecliptic, the path of the Sun on the celestial sphere. In 1574, a Dominican monk, Egnatio Danti, has fastened two instruments onto the south-looking facade of the beautiful church Sta Maria Novella in Florence; an armillary sphere and a quadrant (Figure 1). Figure 1. The armillary sphere (left) and quadrant (right) on the southern facade of S. M. Novella in Florence. The quadrant as sundial has various scales for hours counted ab occasu (from sunset), ab ortu (from sunrise), also astronomical (from noon) and transalpine (from midnight). Astronomers counted the days starting from noon until as late as 1925! With these instruments Danti determined the length of the year and the moment of the vernal equinox for 1574 (11 March, 22:24 astronomical) with slight errors. For more precise observations he needed larger instruments. One of these was already standing in Florence, in the Duomo (Sta Maria del Fiore). The meridiana was built by Paolo del Pozzo Toscanelli in 1475, its hole is in the huge dome at a height more than 90 m above the floor. Due to its large size, it is usable for only a few weeks around the summer solstice. As the doors of the Duomo look to the west, the meridiana is in the north transept, in a place usually forbidden to visitors (Figure 2). Figure 2. The short section of Toscanelli's meridiana in the Florence Duomo (just to the right from the second row of the banks), seen from near the hole in the lantern Toscanelli wanted to check with this instrument whether the inclination of the Earth's axis changes over time, but the observations were used more to control the state of Brunelleschi's large dome, the largest brick dome in the world. Danti began to construct a meridiana in the S.M. Novella, but after Cosimo Medici's death he was ordered to go to Bologna. There in 1576 he built a meridian line in the Basilica of San Petronio. Unfortunately this basilica is not east-west oriented, so the columns did not allow for a precise north-south line to be laid, also the leveling of the line was not exact. After a restoration, which removed the wall with Danti's opening, the meridiana was rebuilt (this time unobstructed and exactly north-south) by Giovanni Domenico Cassini, a French successor of Danti's chair at the University of Bologna, in 1655. With the new line San Petronio became a world-class solar observatory. The meridiana is still in use, tourists gather around it at local noon, especially near solstices (Figures 3 and 4). Figure 3. The opening in the vault of San Petronio in Bologna (left) and Cassini's meridian line running between the columns (right) Figure 4. Visitors looking at the solar image at the 2006 winter solstice in Bologna The other astronomically important and currently used meridiana in Italy is to be found in Rome, in the church of Sta Maria degli Angeli. This basilica was converted from the Baths of Diocletian by Michelangelo on the order of Pope Pius IV from 1561 on. Owing to its origins, this church is not east-west oriented either. In the years before 1700 discrepancies occurred between the Easter date computed by the church rules and astronomical facts, so new observations were needed. For this purpose Pope Clement XI commissioned Francesco Bianchini to build a meridiana in 1702. This instrument does not only have a southern opening for the Sun, but also a northern one for the Pole star, and various other stars are also noted on the meridian line (Figure 5). Figure 5. Bianchini's meridiana in the S.M. degli Angeli in Rome (left) and its southern end, with paths of the Pole star around the celestial pole for several centuries With these instruments many important measurements were made on the length of the year, obliquity of the ecliptic, refraction, and also on some stars, contributing to the science of astronomy. There were also meridianae for civil purposes, simply to show the local noon. A good example of these can be seen in the Duomo of Milan. At the end of the 1700s Lombardy, thus Milan belonged to the Austrian empire, under the reign of Maria Theresa. Count Wilczek, Governor of Lombardy, issued an order according to which from 1 December 1786 the ultramontane time was to be used in Lombardy. This meant that the days were to be counted from midnight, instead from the then used Italian time (according to which the day began half an hour after sunset). For determining the moment of the local noon, he commissioned the building of meridianae in every larger town. The one in the Duomo in Milan had been ordered a year before, and was built by Giovanni Angelo Cesaris. As the Duomo is oriented east-west, the meridian line goes across the nave, parallel to the western wall, very near to the entrance (Figure 6). With its help, the local noon could be fixed with an accuracy of 1-2 s, but unfortunately this meridiana is not working now, the opening being covered. Figure 6. The meridiana in the Duomo of Milan, running parallel to the western facade (left) and the equinoctial zodiacal signs (Libra, Aries, right) In our time quartz watches, radio controlled from an atomic clock have rendered the meridianae unnecessary for the keeping of time. Yet these spectacular instruments still remind us of the past centuries, when determining time required the knowledge of astronomy. Reference Heilbron, J.L. 1999. The sun in the church. Cambridge: Harvard University Press. Anna-Teresa Tymieniecka and Attila Grandpierre (eds.)Analecta HusserlianaThe Yearbook of Phenomenological ResearchAstronomy and Civilization in the New EnlightenmentPassions of the Skies10.1007/978-90-481-9748-4_8(C) Springer Science+Business Media B.V. 2011 # The Cosmological Circumstances and Results of the Anno Domini Invention: Anno Mundi 6000, Great Year, Precession, and End of the World Calculation Sepp Rothwangl1 (1) CALENdeRsign, Graz, Austria Sepp RothwanglPrivate scholar, member of SEAC Email: calendersign@gmx.at Abstract The Anno Domini yearly count, invented in the beginning of the sixth century, was influenced by mixture of ancient world concepts, astronomical aspects, calendrical cycles, and apocalyptic teleology. AD counts the years since a date of Christ's fictitious incarnation at the former annual vernal equinox on 25th March and was presented by Dionysius Exiguus as a new Easter computus titled "CYCLUS DECEMNOVENNALIS DIONYSII". AD was invented, because the Cosmic Year 6000 of Julius Sextus Africanus' chronicle was reached and caused end-time fever. Based on doctrines of late antiquity like the Great Year with the eternal return, millennialism, the Gospels, and the Apocalypse the AD years focused on the world's end at an alignment of all planets in year 2000 of the newly invented count. The date of Christ's incarnation was adjusted by the medieval value of precession 2000 years before that alignment. This article is a work in process of the book STARTIME (Rothwangl, soon published) and demonstrates that the dating of Christ's incarnation by the Anno Domini Years is the result of a cosmological and astrological quest for the world's end in the world view of late antiquity and early Christianity. The aim of the quest was to find a future alignment of all classical planets, which would mark the end of the world according the Great Year doctrine. After having forecast such an alignment, due to the astrological concept of the precessional ages and by the medieval constant of precession, exactly 2000 years before that alignment the date of the incarnation by the AD-Years was established. This also explains why the AD-Years, focusing on the incarnation of Jesus Christ, as established at beginning of the Sixth century by Dionysius Exiguus, diverge from historical data, such as the death of Herod the Great in 4 BC, and is not synchronized with early historiographies. If we investigate the circumstances and reasons that influenced Dionysius to invent the new Anno Domini count we find the following facts: ## The Occurrence of Africanus' Cosmic Year 6000, Which Caused a Calendric World's End at the Beginning of the Sixth Century The Cosmic Year (Anno Mundi) of Iulius Sextus Africanus is an early Christian temporal concept based upon interpretation of the Bible, according to which the Lord created the world in 6 days, which are equated to 1,000 years each. > Ps. 90:4: For a thousand years in thy sight are but as yesterday when it is past, or as a watch in the night. > > 2 Peter 3:8: One day is with the Lord as a 1,000 years, and a 1,000 years as 1 day. > > Of the Sabbath He speaketh in the beginning of the creation; and God made the works of His hands in 6 days, and He ended on the seventh day, and rested on it, and He hallowed it. Give heed, children, what this meaneth; He ended in 6 days. He meaneth this, that in 6,000 years the Lord shall bring all things to an end; for the day with Him signifieth a 1,000 years; and this He himself beareth me witness, saying, Behold, the day of the Lord shall be as a 1,000 years. Therefore, children, in 6 days, that is, in 6,000 years, everything shall come to an end. > > And He rested on the seventh day. This He meaneth; when His Son shall come, and shall abolish the time of the Lawless One, and shall judge the ungodly, and shall change the sun and the moon and the stars, then shall he truly rest on the seventh day. Barnabas 15: 3-5 To date the moment of creation the lifetime of Jesus and an end-time prophecy were drawn in comparison: > I John 2:18: Children, it is the last hour; and as you have heard that antichrist is coming, so now many antichrists have come; therefore we know that it is the last hour. Writing in the first half of the third century, Origen, in his Commentary on Matthew, employed the analogy of the 12 h of the day to divide the whole of biblical history into ages. Accordingly, he locates Noah at the third hour, Abraham at the sixth, Moses at the ninth, and, finally, Christ at the eleventh hour (Declercq, 2000) The Christian Old Testament (2. Moses 25) tells that the Ark of the Covenant was 2 1/2 cubits long, 1 1/2 cubits wide, and 1 1/2 cubits high. Irion (Hieron) of the court of Constantinople and Hippolytus both interpreted these dimensions, amounting to 5 1/2 cubits, as symbolic of the 5,500 years (Mosshammer, 2009) The first Christian Chronography of Africanus (third century) used these comparisons to date Christ's birth to the year 5500, figuring the fictitious creation in this way: * The world lasts 6,000 years. * Christ came in the 11th of 12 h * 6,000 : 12 × 11 = 5,500 * Thus Christ came in the year of the world 5500. * Thus Christ's birth was dated to year 5500 since creation (Anno Mundi) Yet the approach of the fatal Cosmic Year 6000 occurring 500 years after Christ's birth caused end-time fever among the believers. > At the turn of the fourth to fifth centuries, i.e., precisely the moment when the barbarian invasions may have stirred up apocalyptic anxieties, the North African bishop Julius Hilarianus, for instance, wrote a treatise "On the Duration of the World," in which he calculates 5,530 years from creation to the Passion of Christ, and 369 years from that event until the consulate of Caesarius and Atticus (AD 397); there remain, so he concludes, 101 years to go before the Resurrection of the dead (Declerq, 2000) To avert end time fever and to sustain religious credibility several strategies were applied by the church: 1. Shifting the era of creation to the past in order to show that the dreaded year AM 6000 had long passed, as the chronicler John Malalas did by identifying the year 6000 with the passion of Christ. 2. Rejuvenating the age of the world and shifting the year AM 6000 into the future, which was the method of the fourth century chronicler Eusebius. Influenced by Jerome, Eusebius delayed the birth date of Christ by three centuries to AM 5199. 3. Starting a new counting of the years from another fictitious point in time: Christ's incarnation. Dionysius Exiguus made the most widespread attempt at this when he created a new temporal hinge point for counting the years: Anno Domini, Year of the Lord. Dionysius created a new Easter cycle starting with AD 532 and established in this way a new yearly count, but gives no concrete hint how and why he made his invention. If we take the narrative of the Bethlehem star of the Gospel as a historical fact, we have the dilemma that Herod the Great died in 4BC, and therefore the AD years do not represent precise historical fact and in addition do not go conform with any contemporary chronologies. The Adjustment of the "anni ab incarnatione Domini nostri Iesu Christi" by Dionysius Exiguus: >... Because the blessed Cyril began his first cycle in the 153rd year of Diocletian and ended his last cycle in the 247th year of Diocletian, we have to start in the 248th year [i.e. 532 AD] of this man, who was a tyrant rather than emperor. > > However, we did not want to preserve the memory of an impious persecutor of Christians in our cycles, but chose rather to mark the times with the years from the incarnation of our Lord Jesus Christ [i.e., 532 AD], so that the commencement of our hope will appear more familiar to us and the origin of the redemption of mankind, that is the Passion of our Redeemer, will shine in a more glorious way (CYCLUS DECEMNOVENNALIS DIONYSII). ## Doctrines That Influenced Dionysius' Adjustment of AD 1. The cosmological concept of Antiquity (Great Year) 2. The idea of Jesus' return at a conjunction of all planets 3. The astrological connection of Jesus with the current new heliacal vernal equinox constellation Pisces symbolized by the acrostic ICHTHYS 4. The Apocalypse of John of Patmos and its allusion to the seven planets and precession ### The Great Year Doctrine of Antiquity There exist dozens of ancient cites of a common multiple of the planetary periods as for example Plato tells. This doctrine, called apokatastasis pantoon, was based upon the idea that, when the planets return to the same position as at the beginning, everything would repeat itself (van der Waerden, 1952, pp. 129-155), as Eudemos a pupil of Aristotle tells. From Berossos, Cicero, Seneca, Heraclitus Stoicus, Macrobius, and Nemesius we have similar citations (de Calatay, 1996) >... and hence they [humankind] can scarcely be said to know that their [i.e. the planets', ed.] wanderings, being infinite in number and admirable for their variety, make up time. And yet there is no difficulty in seeing that the perfect number of time fulfills the perfect year when all the eight revolutions, having their relative degrees of swiftness, are accomplished together and attain their completion at the same time, measured by the rotation of the same and equally moving [i.e. the equator, ed.]. > > Plato -Timaeus 39 c-d > > There is a common multiple of all orbital times, the large year; at its expiration all planets are again in the same place. > >... If one believes the Pythagoreans, then I will return also in the future, as everything after its number returns, and I will tell you here again fairy tales, holding this stick in my hand, while you will sit likewise before me. Likewise everything else will repeat itself. > > Eudemos, Aristotle's disciple at the Lykaion at Athens > > Men usually measure 1 year only by using the return of the sun, thus with only one star; but if however all stars return to the same point from which they started, and repeat in long intervals the same figure of the total sky, then this is called indeed a "turning year"; > > Marcus Tullius Cicero, Somnium Scipionis, de Rep. VI,24 > > The year that is called "mundanus" is a true turning-year since it happens by the turning of the entire universe, unfolding over the longest periods of time;... [it] is therefore the end of the Great Year, when all the constellations and all the fixed stars so return from a known place to the very same place, that not a single star is in a place other than the one in which it was when all the others were set into motion from their places; > > Macrobius, Somnium Scipionis 2,11,8-11 > > Berossos, the interpreter of Belus, states that the courses of the planets determine the time of a fire disaster and a flood. A fire on earth will rage if all planets, which move now in different courses, will gather in Cancer, standing still in the same place (of the sky), such that a straight line can pass through all their positions. A flood, however, will come if the same group of planets comes together in Capricorn. > > Seneca, Questiones naturales III 29,1 > > Some people want the conjunction of the seven planets in one zodiacal sign to be referred to by these words of Homer, and also the universal destruction, whenever this should happen. He (Homer) alludes to the confusion of the universe when he brings together Apollo, i.e. the Sun and Artemis, whom we identify with the Moon, as well as the stars of Aphrodite, Ares, Hermes, and Zeus. In such a way as not to appear to be ignorant, we have to accept this allegory more for its persuasiveness than for its veracity. > > Heraclitus Stoicus, Quaestiones homericae, 53 Also, the Christian scholar, Clement of Alexandria, writes of this periodical purification by fire and water, and accuses even Plato and the Greek philosophers of being thieves and having stolen this idea from the Bible: > Plato also states in like manner that the Earth is purified at certain times by fire and water: "There have been many destructions... the biggest ones by fire and water"...Then, (Plato) speaking of the flood: "But when the gods purify the Earth by submerging it, those who are in the mountains, cattlemen and shepherds, are saved, while the inhabitants of our cities are carried away to the sea by the rivers". I have shown in the First Stromateis that the Greek philosophers deserve to be called thieves, for they have taken their main tenets from Moses and their prophets, without any acknowledgement of debt. > > Clement of Alexandria, Stromateis, V, 1, 9-10 ### The Idea of Jesus' Return At a Conjunction of All Planets Nemesius gives a report that early Christians believed that during a Great-Year-alignment the Resurrection of Jesus was expected. > According to the Stoics the conflagration and the destruction of all beings is generated, after stated periods of time, by the planets, when they come back, both in longitude and latitude, to the same sign in which each one of them was at the beginning, when the world was first shaped. Then, from the start the world is restored anew. Since the stars are brought back similarly, everything which occurred in the previous period is accomplished, without any change. There will be again Socrates and Plato and every man, with their friend and fellow-citizen. They will suffer the same things, and every city, every village and every field will be restored similarly. This restoration of everything will not take place once, but many times, or, more exactly, the same things will be restored indefinitely and endlessly. As for gods who are not subject to destruction, by having witnessed this single period, they will know all the things that will occur in the subsequent periods. For nothing will be unexpected regarding the things which occurred previously, but everything will be the same without any change, even in the tiniest details. > > Some people state that Christians imagine the Resurrection by way of this restoration, but those are completely wrong. For Christ's words instruct that the Resurrection will take place once and not periodically (Nemesius, about 400 CE) In early Christian iconography the scene of the "Meal of the Seven," (Figure 1) found in several graffiti at the catacombs of Rome represents this cosmic moment expected by early Christians at the end of time or in the world beyond. This scene mirrors that sitting together at a common meal, which alludes to the classical Greek symposium after the creation of humankind by Prometheus. Figure 2 illustrate an alignment of the classical planet in the Ptolemaic and Copernican system. Figure 1. Graffiti in catacombs of Rome. The scene of the "Meal of the Seven" Figure 2. Graphical representations of a Great Year alignment in the Ptolemaic geocentric system (left) and in the modern heliocentric system (right) ### The Astrological Connection of Jesus with the Contemporary New Heliacal Vernal Equinox Constellation Pisces Symbolized by the Acrostic Ichthys Early Christian iconography in catacombs of Rome shows the acrostic ICHTHYS and graffiti of a fish (Figure 3), which alludes to Jesus as the releaser of the new age of Pisces due to the precession of the equinoxes. As a consequence Dionysius dated the starting point of his years to the vernal equinox at 25th March, the former feast of Incarnation (now Annunciation). Figure 3. Graffiti from catacomb St. Callixtus, Rome The letters ICHTHYS of the Latinized version of the Greek word IXOYS (fish) was interpreted as Iesous CHristos THeou HYios Soter (Jesus Christus, son of God, Savior). Early third century Christian writer Tertullianus alludes to Jesus Christ and the new age. >... we, little fishes, after the image of our ICHTHYS, are born in the water (Tertullian, De baptismo). ### The Apocalypse of John of Patmos and its Allusion to the Seven Planets and Precession As the great Franz Boll already states Revelation tells of the future cusp from one aeon to the next. Thus it tells of the shift from the Piscean age to the Aquarian age. > The material... to interpret the Revelation of John... consists of texts and images. Prophecies like Apocalypse deal with images of the future.... The Apocalypses tell of events shortly before the end of this world, or more correctly said, before or at the beginning of a new aeon or saeculum (Boll, 1914) In the introduction, the Apocalypse gives a hint on how to interpret it astrologically. If we identify the seven stars with the angels, i. e. the ancient deities of the seven communities of Asia minor, as Revelation itself says, we easily find an allusion to the seven classical planets. > [Rev 1:20] As for the mystery of the seven stars which you saw in my right hand, and the seven golden lamp stands, the seven stars are the angels of the seven churches and the seven lamp stands are the seven churches. Revelation explains that the seven stars are the angels (deities) of the seven churches and the seven letters of the Apocalypse are addressed to these seven churches: * Ephesus: Main antique sanctuary of Artemis = Moon * Pergamon: The famous alter of Zeus = Jupiter * Thyatira: The text mentions the morning star = Venus * Sardis: The text deals with merchants and thieves = Mercury * Philadelphia: Greek Delphi is the sanctuary of Apollo = Sun * Laodicea: = Mars? Thus Apocalypse addresses the seven classical planets and makes an allusion to the value of Precession: > [Rev 13:11] Then I saw another beast, which rose out of the earth; it had two horns like a lamb and it spoke like a dragon. > > [Rev 13:18] This calls for wisdom: let him who has understanding reckon the number of the beast, for it is a human number, its number is six hundred and sixty-six. In the Western hemisphere since the end of antiquity the usage of the precessional value 66,6y each 1° (equal to 666y/10° or 2000y/30°) can be found in the writings of the following astronomers: * Theon of Alexandria (4th cent.) * The tables of the Shah (Zij-i Shah) (6th cent.) * Al-Khwarizmi, al zij Sindhind (c. 800) * Tabulae probatae or az-Zig al-mumtan (c. 830) * Al-Battani, called Albategnius, al-Zij (c. 880) * al-Sufi, called Azophi (c. 965) * Al Biruni (973-1048), al Canon al Masud * Arabic fixed star catalogue of 1st Oct. 1112 CE (ed. Paul Kunitzsch) * Libros del Saber von Alfons von Kastillen (1252-1284) * Judah ben Verga of Lisbon (c. 1470) There exists a strong indication that in India the value of 1800y/27° (Bennedik, 2007) was used even before medieval times (Pingree, 1976, p. 112), which equals 2000y/30°. A transfer of knowledge from India to the occident occured at the end of antiquity, as ascertained by the ninth century patriarch Photius of Constantinople, as well as by Cedrenus in the eleventh century. During the reign of Constantine in the fourth century, Metrodorus, who created a 532-yearly Easter cycle, visited India to study philosophy with the Brahmins (Mosshammer 2009, p. 199). An eighth century illustration of Germanicus' "On the Phainomena of Aratos" in the Codex Basiliensis (Haffner, 1997) impressively confirms the mediaeval identification of the feared apocalyptical beast (Figure 4) with the upcoming age of Aquarius and shows the horned beast just between Pisces and Capricorn, where one usually expects to find Aquarius. Figure 4. Illustration of Germanicus' "On the Phainomena of Aratos". Codex Basiliensis, about 800 CE ## Conclusion Due to the arrival of the year 6000 in the Anno Mundi of Africanus in a year corresponding to about 500 AD, which caused end-time-fever, Dionysius Exiguus was searching for a future date of world's end. He searched for a future alignment of all classical planets by the hand of the commensurable planetary periods, similar to his Indian contemporary Aryabhata, who calculated backwards to such an alignment and dated there the beginning of the Indian age Kali Yuga. The same year, 3102 BCE, we find later in Persian and Arabic chronologies, such as Abu Mashar's "Book of the Conjunctions" where it is identified as the date of the Deluge (van der Waerden, 1980, pp. 117-131) and makes evident the transfer of astronomical knowledge between India and the West. Dionysius Exiguus, after having calculated a future alignment, adjusted 2,000 years before this alignment the starting point of his "anni ab incarnatione I.C." It has the effect that on May 5th, 2000 a rare close massing of the classical planets occurred (Figure 5). B. L. van der Waerden has calculated a very minimal probability (P = 0.026) that in an interval of 6,000 years, a massing of the classical planets within 30° would occur. Thus it appears that Dionysius, based on the cosmological (Great Year) and religious (Six Day Creation, Apocalypse) doctrines of his age, centered his AD years towards the alignment of the year 2000 because of an expected end time together with the return of Christ. Figure 5. Planetary massing of 5-5-2000 (Skyviewcafe) JDN 2451670. Right ascension: Moon 3 h 55 m; Sun 2 h 51 m; Mercury 2 h 34 m; Venus 2 h 14 m; Mars 3 h 55 m; Jupiter 3 h 0 m; Saturn 3 h 11 m Acknowledgment Thanks to Mrs. Joan Griffith for English corrections. References Bennedik, Susanne. 2007. Die Siebenplanetenwoche in Indien. Dissertation, Bonn, 456, URN: urn:nbn:de:hbz:5-11153, URL: http://hss.ulb.uni-bonn.de/diss_online/phil_fak/2007/bennedik_susanne Boll, Franz. 1914. Aus der Offenbarung Johannis. Hellenistische Studien zum Weltbild der Apokalypse. de Calatay, Godefroid. 1996. Annus Platonicus. A Study of World Cycles in Greek, Latin and Arabic Sources. Institut Orientaliste, Universite Catholique de Louvain. Peeters Press Louvain - Paris. Declercq, Georges. 2000. Anno Domini. The origins of the Christian Era. Belgium: Turnhout. Haffner, Mechthild. 1997. Ein antiker Sternbilderzyklus und seine Tradierung in Handschriften vom fruhen Mittelalter bis zum Humanismus. Hildesheim: Untersuchungen zu den Illustrationen der Aratea des Germanicus. Mosshammer, Alden A. 2009. The easter computus and the origins of the Christian Era. Oxford: Oxford University Press. Pingree, D.E. 1976. The recovery of early Greek astronomy from India. Journal for the History of Astronomy 7: 112. Skyviewcafe, http://www.skyviewcafe.com/skyview.php Tertullian, Ueber die Taufe (De baptismo). 1. Kap. Lob der Taufe. Bibliothek der Kirchenvaeter. http://www.unifr.ch/bkv/kapitel89.htm van der Waerden, Bartel Leendert. 1952. Das Große Jahr und seine Ewige Wiederkehr. Hermes 80, 129-155. van der Waerden, Bartel Leendert. 1980. The Conjunction of 3102 BC. Centaurus: International Magazine of the History of Science and Medicine 24: 117-131. Anna-Teresa Tymieniecka and Attila Grandpierre (eds.)Analecta HusserlianaThe Yearbook of Phenomenological ResearchAstronomy and Civilization in the New EnlightenmentPassions of the Skies10.1007/978-90-481-9748-4_9(C) Springer Science+Business Media B.V. 2011 # Coming of Age Under the Night Sky: the Importance of Astronomy in Shaping Worldviews Stephen P. Cook1 (1) Project Worldview, Weed, NM, USA Stephen P. Cook Email: scook@projectworldview.org Abstract A worldview, an individual's or whole society's conceptual framework for making sense of the world, evolves as it wrestles with such questions as "Why do I see what I see?" While telescopes and spacecraft dramatically expand worldviews in space and time, astronomy began shaping worldviews long ago. Those who watched carefully saw the universe as predictable and orderly rather than magical and chaotic - a conclusion which increased psychological security in individuals and desire for order in society. Spurred by Kepler, astronomy values humbly refining models to fit data. Spurred by Galileo urging critics to look through the telescope, astronomy promotes seeking over believing-something which unites rather than divides people. In challenging anthropocentrism, in tracing the roots of humanity to the ashes of exploding stars, in revealing an image's "pale blue dot" to be Earth, astronomy encourages a "we belong to nature" feeling, as can the beauty of the Milky Way in the night sky. Studying planets made inhospitable by runaway greenhouse effect, investigating the stability of the Sun and nearby aging stars, and monitoring hazards posed by space debris help humankind confront real threats. Complementing astronomy's concern with civilization's premature end is its search for the beginning of the universe. This has long enriched discussion of, and cosmological arguments for, what many individual worldviews are built around: belief in a Creator. Astronomy continues to inspire. Contrast what seeing a comet in the night sky once meant - fear - to what it can mean today: a cause for celebration of humanity's growing up. And someday astronomy may provide an answer to what untold generations of night sky watchers have wondered, "Are we alone?" ## Introduction: Worldviews and Astronomy By worldview, I mean the conceptual framework, beliefs and values used to make sense of reality - something difficult to define.1 To me reality is everything: all structures - actual and abstract, events and phenomena - observable or not, including feelings. With these definitions, characterizing worldviews is messy. Describing the scientific world picture used to make sense of objective reality - events and phenomena that can be recorded by devices - is easier but still involved. Once understanding or experience enables it, characterizing ultimate reality will be simpler. Physicists dream of doing this: finding the theory of everything; others connect it with finding God. By astronomy, I mean scientific study of the universe. It didn't start like that - it began with eyes watching the night sky. Scientific knowledge must ultimately be reconciled with observation. The quest for it was inspired by a question, "Why do we see what we see?" Beginning in 1600, Kepler sought to answer this with respect to observed positions of Mars. His struggle to find a hypothesis or model to fit the data is a classic application of the scientific method. To me the year 1609 - when Kepler's 1st Law of Planetary Motion was published - marks the beginning of modern science. That same year Galileo turned his telescope to the night sky. What he saw validated his belief in the Copernican worldview and challenged Catholic Church authority. This powerful institution would eventually silence him in perhaps history's most famous clash of worldviews. Worldviews are used to answer fundamental questions like, "Why am I here?" Long ago I realized that efforts to solve the world's most pressing problems are often stalled by fundamental differences in worldview. I began to wonder, "How can we help people develop healthy worldviews, ones that will bring happiness and promote planetary well-being?" The topic of worldviews, I soon realized, has two parts: worldview analysis and worldview development. Worldview development begins in early childhood with concept acquisition. By concepts, I mean abstract generalized ideas and understanding that replace sensory experiences and memories. For example, a young child handles different shaped objects and forms a concept of a sphere. Conceptualization involves observing, abstracting, recalling memories, discriminating, categorizing, etc. Concepts that belong together fit into conceptual schemes; these are used to build a conceptual framework or map. Your worldview is used to answer "What if...?" questions and to make predictions about the future. Based on feedback you receive, aspects of it get validated, negated, refined, and retested - like doing science and testing hypotheses. My worldview analysis approach attempts to cut through complexity and diversity and characterize worldviews in simplified, manageable fashion. I employ two analogies to describe it: one uses building blocks, the other playing cards. In considering how worldviews develop, the blocks I imagine being used are all different. I call them worldview themes and have eighty of them. Each has a name, number, and description - identifying beliefs, thoughts, feelings, and behavior articulated in similar fashion by lots of people. Many such themes can be used (as a first approximation) in characterizing worldviews.2 As an example, consider my analysis of a typical American adult's worldview (Cook, 2009). Using a playing cards analogy, I summarize the results as follows. The top theme cards held are: Monotheism; Belief in a Personal God; Gratitude & Forgiveness; Valuing Family; Proud Identification; Ethical Orientation; The Consumerist; The Technological Fix Mentality. As we turn our attention to astronomy's role in shaping worldviews, with the exception of the first two and the last, none of these shall concern us. In what follows, I argue that astronomy has generally tended to encourage people incorporating the following themes into their worldviews: #1A Humbly Unsure, #4 Global Vision, #6 Scientific Method, #12 The Artistic Worldview, #13 Dancing With Systems, #18B Dispassionate, #27 Belonging To Nature, #29A The Self Restrained Person, #30 Intellectual Freedom, #37B Global Citizen, and #46A The Technological Fix Mentality. Troubled by my claim that astronomy has promoted both science and art? Consider the following: the word cosmos is from the Greek word for order, and The Artistic Worldview (theme #12) involves human creation imposing order on chaos. And consider one of those paradoxical great truths: "The universe created humans" and "Humans created the universe." The first half you can accept, but the second? In this regard consider a book by archeoastronomer Aveni, Conversing With the Planets. Note its subtitle: How Science and Myth Invented the Cosmos ## Changing Worldviews: From 1,000,000 Bce to 1,000 Bce Worldviews are built of concepts. Imagine a time before concepts: the being alive experience is one of wholeness. Before people learn to abstract, to use words and numbers, they unconsciously value "the interconnected unity of [nature's] parts and process" - they appreciate Belonging to Nature (theme #27). We relate their feeling of Oneness to "Mysticism" (theme #7A). While there may be bliss in their ignorance, there's also painful struggle: they are both hunters and hunted. While language compromised holistic feeling, it spurred concept development and blossoming of consciousness - another difficult to define term. Some understand it by analogy: just as our body moves in real space, our mind moves through mind space. According to Jaynes (1990), "Consciousness is constantly fitting things into a story." Before such consciousness can exist, humans needed to order events in time and gauge time intervals. (In a "humans created the universe" context, this is "the beginning of time.") While they could do this roughly by watching living things grow, astronomy provided more precise means: using time intervals between successive sunrises (day) or full moons (month) or the sun's changing position (year). According to Aveni, "Naming the phases of the moon and associating the course of the sun across the zodiac with seasonal activities date back into history as far as any document can reach. It would have been logical to marry the act of story telling about everyday affairs to acts of nature simply as a way to embellish and lend structure to time - to remember how to mark its repeatable cycles." At some point worldviews began to incorporate the concept of justice. According to Jaynes, "Our sense of justice depends on our sense of time." Aveni builds on this, writing, "There are good reasons for translating normal solar behavior into a concept of justice, for is justice not based on constancy and consistency, on day-to-day reliability?" Consider the idea of weighing both sides of a dispute as in "the scales of justice" (in the sky as constellation Libra). Certainly doing this is promoted by worldviews valuing order and dispassionate (theme #18B) self-restraint (theme #29A). Appreciation of order in the sky helped foster this. Humans both found order and, when it was lacking, they imposed it. Among the jumble of stars patterns were recognized. Imaginations saw both familiar figures and heroes to worship. These were linked to stories. The sky became a medium for expression of artistic creativity. At least one of these star patterns appears to be truly ancient: the Great Bear or Ursa Major. Given the similarity of Eurasian and New World stories surrounding these stars, the constellation's origin seemingly predates migration of humans across the Bering Strait (Schaefer, 2006). According to Bronowski (1973), "the largest single step in the ascent of man is the change from nomad to village agriculture... since civilization on the move can never grow up." Human beings were metaphorically once children. In the creation myths of over a hundred cultures throughout the world, their parents were the Earth and the Sky. How might these children have related to the night sky? According to Aveni, ancient Babylonians, Egyptians, and even Mayans "believed that they lived in an animated universe... breathing, teeming, vibrant... They talked to the stars, listened to the planets... They saw themselves as mediators in a great universal discourse. At stake was the battle between fate and free will." As reported in surviving texts from earliest human history, gods were connected with tangible, concrete, visible objects in both the sky and on the earth. A powerful feeling - fear - fostered insecurity in prehistoric people. Ever present, even in ancient Mesopotamian and Egyptian civilizations, were "overtones of anxiety" which Frankfort attributed to "a haunting fear that the unaccountable and turbulent powers may at any time bring disaster to human society (Sandars, 1972)." A clue as to where many looked for guidance can be found in the origin of the word disaster, it means literally ill-starred. People looked to the sky in search of the order often lacking in the chaotic terrestrial world. Generally they found it. The "fixed" stars move in the same predictable, reassuring way... But there are seven notable exceptions: "wandering" stars: Sun, Moon, and five planets. Planetary retrograde motion was especially troubling. A dominant belief: one's fate (Fatalism, theme #11A) was written in the stars. Another gave gods human emotions. If they were angry, people suffered consequences. In many cultures, astrologers, holy men, shamans, etc. were needed - both to interpret messages and to placate gods. Today, some laugh at these people and the astrology and magic (theme #7B) their worldviews were based on. Others re-cognize that they sought what many seek today: a healthy worldview. Fear is not healthy. People fear what they cannot understand - what they can't predict, what doesn't fit into their worldview. They seek to explain what they otherwise would fear. Their stories make sense of natural phenomena, unusual events, of creation itself. Contrast this view of the ancient Near East, with one of ancient Ireland. As reported by Cahill in How the Irish Saved Civilization, "In virtually all of the Irish tales... we come upon the Celtic phenomenon of shape-shifting... the ability of a being to turn itself into something else... There is within this worldview a terrifying personal implication: that I have no fixed identity but am, like the rest of reality, essentially fluid..." Stories from other cultures capture the tension between order and chaos. Navaho tradition attributes placement of stars in the sky to First Man and First Woman, who initially laid them out on a mat in front of them. Just after they'd positioned the first few in orderly, useful fashion, including the North Star, along came Coyote - that trickster! Grabbing a corner of the mat, he flung the rest into the sky: this is why they seem so randomly placed (Cliff, Janet M., private communication). Myths are stories typically featuring gods or demigods as main characters. Oral transmission of them declined as people began writing down sacred stories, and as religions became less polytheistic and more monotheistic. Belief in a single God can be traced to Zoroaster, thought to have lived somewhere in Iran or Central Asia around 1000 BCE. His name, in corrupted Greek, means literally "undiluted stars." We remember him because the religion he founded, in the words of scholar Boyce (1979), "probably had more influence on mankind directly or indirectly than any other faith." From his conception of an ongoing battle between good and evil, one can date the beginning of an important component of many worldviews: "Apocalypticism" (theme #9B). He is perhaps the first prophet to teach belief in an abstract god - one without tangible presence. ## Worldviews: From Ancient Greeks to Christians to 1700 Consider another milestone in the triumph of order over disorder. An important advance occurred in the brief interval of 63 years spanning two solar eclipses. Of one he witnessed in 648 BCE, Greek poet Archilochus wrote, "Zeus, the father of the Olympic Gods, turned mid-day into night, hiding the light of the dazzling Sun; and sore fear came upon men (Steel, 1999)." Yet according to Herodotus, Thales predicted the eclipse of 585 BCE. While others - going back to Babylonian astronomers ~2000 BCE - certainly preceded them in appreciating the order they saw in nature, by the sixth century BCE, Greeks like Thales and Pythagoras were doing just that, ushering in an era that has been called the Ionian Enchantment. Christianity was influenced by both Greeks and Zoroastrianism. Monotheism can bolster another powerful feeling - comfort - as St. Patrick and later Irish monks throughout Dark Ages Europe realized. As Cahill described it, "The key to Patrick's confidence... rock solid confidence on which a civilization may be built... is in his reliance on 'the Creator of Creation' Our Father in heaven, having created all things... will deliver us, his children from all evil." Zoroaster's apocalypticism also found a home in Christianity. Unlike monotheism, this can be a source of discomfort. Of Biblical prophecies, in The Prophet And The Astronomer, Gleiser writes, "[they] create a state of constant anxiety with regard to cosmic events; every shooting star, every eclipse, every comet or unexpected celestial event may be interpreted as part of the doomsday prophecy, the harbinger of the end to come." Catholic Church teaching eventually makes Europeans forget the polytheistic pagan past. The Bible gives man dominion over all living things. Man no longer belongs to nature: he is the master of nature. Embracing Anthropocentrism (theme #25), Church cosmology puts Earth at the center of the universe. It asserts a fundamental difference between matter found on Earth and in the heavens, where perfection supposedly reigns. Its details are borrowed from Greeks such as Plato, Aristotle and Ptolemy. With publication of his sun-centered system in 1543, Copernicus seriously challenged this cosmology. Both cosmological models sought to make sense out of what is seen in the sky. Galileo's observations, especially of Venus showing phases that are impossible for it to exhibit in Ptolemy's model, dealt the ancient cosmology a staggering blow. Church authorities viewed challenges to its authority and original thinking with alarm. Many famously refused to look through Galileo's telescope. This telescope did more than make astronomical discoveries. It struck a blow for Intellectual Freedom (theme #30) and bolstered the Enlightenment. That era, says Wilson, "brought the Western mind to the threshold of a new freedom. It waved aside everything... to give precedence to the ethic of free inquiry (Wilson, 1998)." By 1687, after Newton in Principia showed the same physical laws operate both on Earth and in the sky, there was no reason to assume celestial matter fundamentally differed in composition from Earth's. A new mechanistic worldview structure replaced the old one. ## Astronomy, Humility, and God The modern connection between astronomy and humility is a legacy of Copernicus and Galileo. By asserting The Copernican Principle - human beings are not in a privileged place to make observations - cosmologists essentially turn their backs on anthropocentrism and embrace humility. With Galileo's telescope comes humbling appreciation of the universe's vastness and a trend begins: in our conception, the universe grows in size as years pass. Today we estimate3 it contains 70 billion trillion =7×1022 stars - more than the number of all the grains of sand on all of the world's beaches - and has minimum size of 25-30 billion light years. The 1965 discovery of the cosmic background radiation provided evidence for a beginning: the Big Bang. We estimate that occurred 13.7 billion years ago. (In a "The universe created humans" context, this is the beginning of time!) These numbers only apply to the observable universe - our universe may be but one of many that make up the multiverse. Even of the observable universe our ignorance is great. Referring to dark matter and dark energy, in 2003 one cosmologist (Rees, 2003) admitted, "It's embarrassing that 95% of the [observable] universe is unaccounted for." With so much unknown, doubt seems a good word to use in describing the universe's beginning (if it had one!) I once wrote a metaphorical account (Cook, 1990) of creation in which God said "Let there be doubt!"4 Where'd I get this? Several places. From physics' Heisenberg Uncertainty Principle; from math's Godel's theorem; from chaotic systems behavior; from looking at pictures like Voyager's 1990 "pale blue dot" image. Of it, Sagan remarked, "Look again at that dot. That's here. That's home. That's us... Earth is a very small stage in a vast cosmic arena... astronomy is a humbling and character-building experience. There is perhaps no better demonstration of the folly of human conceits than this distant image of our tiny world (Sagan, 1994)." Suppose you asked people to respond to the following: "Using one word, name what your worldview is built around." You can imagine the answers... Truth. Love. Peace. Family. Work. Survival. Many of you reading this might answer "Knowledge" or "Science." I bet the most popular answer worldwide would be "God." Project Worldview themes most directly tied to God are: #7A Mysticism, #8A Monotheism, #8B Belief in a Personal God, #9A Religious Fundamentalism, and #14A Moralistic God. "Are astronomers and physicists looking for God?" Yes, in an ultimate reality sense with certain constraints. As scientists, they are involved in testing the validity of scientific statements - those capable of being proved false. Many would argue a statement such as "The universe is the creation of an Intelligent Designer" is not scientific. Scientists often approach their work from different perspectives. As Holton, writing in Thematic Origins of Scientific Thought, puts it, "There have co-existed in science in almost every period since Thales and Pythagoras, sets of two or more antithetical systems or attitudes... one reductionist and the other holistic, or one mechanistic and the other vitalistic, or one positivistic and the other teleological." Consider two physicists, one an outright reductionist mechanistic positivist, the other more sympathetic to holistic vitalistic teleology. The first is comfortable with Scientific Materialism (theme #5A), asserts the universe had no Creator, and argues it has no purpose. He sees life as involving physical/chemical processes - not vital spirits - and expects it to someday be created in the lab. Were he to write a book about God and physics, it might resemble The God Particle by Leon Lederman. Despite its title, God is absent from this irreverent book - except in humorous passages. Lederman's hero is Democritus - who first imagined matter can be reduced to atoms. In this tradition, is he is searching for the God particle: the Higgs Boson. Our second physicist also values the Scientific Method (theme #6), which can involve reductionist analysis. But she is less narrowly focused and appreciates insights from chaos/complexity studies and a newer, more holistic, synthesis oriented approach to problem solving: Dancing With Systems (theme #13). Whereas mechanists believe reality is ultimately composed of one thing (matter), this physicist can conceive of it as made of two things: matter and spirit - although she might call it something else: mind, consciousness, etc. Grounded in mainstream materialist perspective, free of scientific constraints she will embrace Vitalism (theme #5B). A book written by her might resemble The Mind of God by Paul Davies. Within scientific boundaries, Davies' book suggests he is searching for God. Dissatisfied with the worldview of our first physicist, Davies' book has a teleological ending: "Through conscious beings, the universe has generated self awareness. This can be no trivial detail, no minor byproduct of mindless, purposeless forces. We are truly meant to be here." While some astrophysicists are atheists, many believe in God. Those who believe the universe is infinite in space and time, and value holism, may be comfortable with Mysticism. This theme's description begins, "While things and events appear to be separate, I believe the perception of discrete objects and the passage of time are illusions." Believing reality is One, mystics strive to experience Oneness and search for God within themselves. Some call the ultimate mystical state cosmic consciousness; others speak of union with God. Those who believe the universe has a beginning may conceive of God as described in the Monotheism theme: "Creator of the universe." Many astronomers can accept this if it's detached from other connotations surrounding "God." This theme goes on to describe God as "the source of the vital spark that energizes life." Those unable to accept God doing this, but believe life is more than the sum of the chemical building block parts, may think of vital spark in terms of mind or consciousness and sign on! Belief in a Personal God presents problems. It can mean God watches over (1) the entire human species, (2) favored individuals, or both. Scientific justification for this belief is hard to find, although some (mistakenly?) use the Anthropic Principle to provide it. If worldviews settle on Monotheism and don't extend to include Belief in a Personal God or Religious Fundamentalism or Moralistic God, divisive beliefs are avoided. Also avoided are difficult questions, such as "Where was God on September 11, 2001?" In its simplest form, monotheism is potentially a great unifying force for humanity - as is seeking not believing, as is holism not reductionism, as is looking at the night sky. Pictures of the Earth from space are another such force. Lacking boundary lines dividing nations, they inspire dreams of a peaceful world of global citizens (theme #37B) and help people appreciate the planet we all call home. After pointing out they are humble seekers, astronomers can provide two reasons why they're uniquely qualified to shape conceptions of God. First, they study the heavens - and most people believe God dwells in heaven. Second, with their appreciation of "the big picture," astronomers can help people move away from small, petty, childish, overly detailed, rigidly confining, exclusive conceptions, and toward grander, simpler, liberating, and inclusive ones. Progressing along the path from Moralistic God to Religious Fundamentalism to Personal God to Monotheism to Mysticism moves one in this direction. While traditionalists may challenge such mysticism, and argue "Seeing God everywhere is seeing Him nowhere," they undoubtedly would prefer it to the emptiness of Godless materialism. Certainly mystical conceptions of ultimate reality - especially those incorporating vitalism - more naturally lead to inclusive worldviews, feelings of belonging not alienation, than purely mechanistic conceptions. I'd say someone who believes "a fella ain't got a soul of his own, but only a piece of a big one"5 is more inclined to become a caring global citizen than an atheist. Holographic models - believing the whole universe is inside the smallest grain of sand, inside you, inside everyone - can produce similar feelings that we're connected to each other. ## Astronomy, Technology, and Astrobiology With Galileo's telescope, Global Vision (theme #4) enters the human drama as people take a first step in using technology to extend their senses. Since then, astronomers have possessed a Technological Fix Mentality (theme #46A). Consider milestones in this history of using technology to answer fundamental questions. Comte wondered "What are stars made of?" In 1835, he predicted we'd never find out. He was wrong! Astrophysics was born in the 1860s when astronomers began to find an answer. They did it with a technology Comte couldn't imagine: attaching a spectroscope to a telescope and photographing stellar spectra. By the 1930s, efforts to extend astronomers' vision into regions of the electromagnetic spectrum besides visible light began with the first radio telescopes. In 1990, the dream of placing a telescope in space - above limitations of Earth's atmosphere -was finally realized. The technology revolution of the last half-century has brought sweeping change to how science is done. Today we often use a systems approach and computer simulation to tackle problems too complicated to approach analytically by solving equations. In promoting global vision, long before new technology gave systems thinking a big push, astronomy encouraged an important aspect of it: choosing a system whose boundaries in space and time are big enough to include all that bears on a problem. Consider a basic question astrobiologists seek to answer: "How did life begin?" Once this field was dominated by scientific materialists conceiving of life beginning 3.5 billion years ago in terms of random processes in the "organic soup." Seeing life as no more than the sum of its parts, many reductionists don't extend their analysis beyond the molecular level. In contrast, systems thinkers take a broader view and imagine downward causation in which a higher level in the system representation seemingly imposes its will on a lower level. Upon random combination, they impose natural selection with global system constraints. Those who embrace panspermia believe this first happened elsewhere and life came to Earth by hitching a ride on comets. In confronting social problems, system thinkers often imagine a desired future and design a system with the desired behavior. Take the global climate change problem. Given the key role the energy balance in the Earth-Sun system plays in it, astronomers have made important contributions with studies of (1) "How constant is the energy output of the Sun?" (2) links between cosmic ray intensity, cloudiness, and global temperatures, and (3) Earth's sister planets - Mars and especially Venus, with its runaway greenhouse effect. "How bad could global warming get?" No one wants wonderfully temperate Earth to turn into a hellishly hot Venus! Beyond technological fixes, astronomy can promote attitudinal fixes and healthy worldviews. Sagan described one context in which this might happen, "A religion that stressed the magnificence of the universe as revealed by modern science might be able to draw forth reserves of reverence and awe hardly tapped by traditional faiths (Sagan, 1996)." Such a religion could inspire belonging to nature feelings and get people outdoors. Dark sky locations with public observatories in naturally beautiful settings could increasingly become destinations - even religious shrines! Bringing children to such places - expanding worldviews - could become a sacred duty of parents. ## Astronomy: Coming of Age I first got involved expanding worldviews as an astronomy teacher, and eventually worked out my version of the ideal sky tour... On an early winter night, after initial orientation, I get to what I really want to share: part of "The Great Story" - our cosmic heritage: nearly 14 billion years of evolution has resulted in us gazing at the stars in wonder. Before getting to my cycle of stellar evolution theme, I start in a far away galaxy: Andromeda. I tell my audience "The light you're seeing left 2.5 million years ago - when people were little more than animals!" Telescopic views of Andromeda find me asking them to imagine another galaxy 4.5 billion years ago - the Milky Way - and inside it a giant cloud of gas and dust, roughly 99% hydrogen and helium, 1% heavier elements. To aid imaginations, we view the Orion Nebula and describe the birth of the Sun as part of the cloud collapses. After appreciating how dependable and stable the Sun is, we consider how the Orion Nebula might look a few million years from now by looking at the Pleiades. We then consider stellar energy crises. After eons turning hydrogen into helium, a star runs low on nuclear fuel - and stellar death nears. By now we're examining the aging red supergiant star Betelgeuse and I sing a silly song about it going supernova! I mention the new star Chinese astronomers saw in 1054, we look at the remnant of that supernova event, the Crab Nebula, and note the explosion enriched the local interstellar medium. The cosmic ecology lesson ends with the birth of the next generation of stars. I tell them "We are the ash of stellar alchemy... The iron bound up in hemoglobin giving our blood its red color originated in the nuclear furnace of an old star, was disbursed when the star exploded, and became part of the collapsing cloud that spawned Sun and Earth 4.5 billion years ago." It's both a belonging to nature and recycling story. Focus on death prompts questions as to how life on Earth will end. Here astronomy puts new life into apocalypticism, with analysis of potential cosmic catastrophes. After downplaying supernova threats, I discuss hazards posed by comets and asteroids - like the six-mile wide piece of rock that did in the dinosaurs 65 million years ago. I recall a night in 1994 at the campus observatory when we saw what happened after Comet Shoemaker-Levy 9 hit Jupiter. We wondered, "What if it had hit the Earth?" Comets have a long history of being associated with the wrath of God, the Devil, havoc, and death. Fear of them began to diminish after Halley successfully predicted that the comet seen in 1682 would return 76 years later - demonstrating the power of the scientific method and Newtonian physics. What will the world be like when Halley's Comet returns in 2061? In his 1965 book, Starlight Nights, Peltier worried that our advanced civilization would end in nuclear holocaust and not make it to that year. Today we are not so pessimistic. In the spirit of the AAAS' Project 2061, some are even hopeful. Perhaps the comet will fly by a world peopled by those whose collective worldview is healthy: they have learned to share, to be tolerant; they feel they belong to nature... To me this will mark humanity's coming of age. Perhaps someday, the appearance of a comet will be a cause for celebration of humanity's growing up. That won't mean the human species has met all its challenges: I can think of two it may confront in the near future. The first will begin with an astronomer finding an asteroid with an Earth crossing orbit. Perhaps technology can be used to alter its course and prevent a disastrous collision. Perhaps humanity will demonstrate it has grown up and is capable of protecting itself from hazards lurking in space. The second will be of a different nature, but it too will involve astronomers from the outset. Its ramifications will shake the worldview of nearly every thinking person. It will come with the answer to what sky watchers have always wondered, "Are we alone?" Someday our childhood will end. Earth and Sky have been considered our parents in various mythologies. In summarizing the importance of astronomy in shaping worldviews, I credit our Sky parent with teaching us there is order in how the world works, and giving us global vision to see through space and time. As Bronowski put it, "There are many gifts unique to man, but at the center of them all... lies the ability to draw conclusions from what we see to what we do not see, to move our minds through space and time." Today we honor the successes Kepler and Galileo had in doing this long ago. Someday, we'll celebrate our species' coming of age under the night sky. ## Notes 1 see "Letters" Physics Today, Sept. 2009, vol. 62, #9; pp.10-15. 2 see http://www.projectworldview.org for details. 3 see Driver, Simon 7/23/2003 news item http://www.cnn.com/2003/TECH/space/07/22/stars.survey. 4 I find this intriguing: doubt⇔uncertainty, which per Heisenberg has units of energy x time - the same units as action (as in The Principle of Least Action). Perhaps God simply said, "Action!" 5 from John Steinbeck's The Grapes of Wrath. References Boyce, Mary. 1979. Zoroastrians: Their Religious Beliefs and Practices. London: Routledge. Bronowski, Jacob. 1973. The Ascent of Man. Boston: Little, Brown, and Company. Cook, Stephen P. 1990. Coming of Age in the Global Village. Russellville: Parthenon Books. Cook, Stephen P. 2009. The Worldview Literacy Book. Weed: Parthenon Books. Jaynes, Julian. 1990. The Origin of Consciousness in the Breakdown of the Bicameral Mind. Boston: Houghton Mifflin. Rees, Martin. 2003. "Our Complex Cosmos and its Future" in The Future of Theoretical Physics and Cosmology. Cambridge: Cambridge University Press. Sagan, Carl. 1994. Pale Blue Dot: A Vision of the Human Future in Space. New York: Random House. Sagan, Carl. 1996. The Demon-haunted World. New York: Random House. Sandars, Nancy K. 1972. "Introduction" in The Epic of Gilgamesh. London: Penguin Books. Schaefer, Bradley. 2006. The Origin of the Greek Constellations. Scientific American, November: 96-101. Steel, Duncan. 1999. Eclipse. London: Headline Book Publishing. Wilson, Edward O. 1998. Consilience: The Unity of Knowledge. New York: Alfred A. Knopf. Anna-Teresa Tymieniecka and Attila Grandpierre (eds.)Analecta HusserlianaThe Yearbook of Phenomenological ResearchAstronomy and Civilization in the New EnlightenmentPassions of the Skies10.1007/978-90-481-9748-4_10(C) Springer Science+Business Media B.V. 2011 # Medieval Roots of the Modern Cosmology Miklos Maroth1 (1) Hungarian Academy of Sciences, 1051, Roosevelt ter 9, Budapest, Hungary Miklos MarothVice-President Email: marothm@gmail.com Abstract The root of the modern cosmology can be found in Aristotle's Metaphysics, book XII. The doctrine of the Unmoved Mover propounded here has invited many comments in the Classical Antiquity and later in the world of Islam. Among the classical authors Ptolemy, Alexander of Aphrodisias and Philoponus were the most important commentators who, by commenting Aristotle's text, transformed his theory. All these author's relevant texts were translated later into Arabic. In the Islamic world al-Fārābī and later Ibn Sīnā continued their activity and gave a new interpretation to the Neoplatonic cosmology represented by Philoponus. The cosmology developed in the Arabic philosophy served as a starting point both to Thomas Aquinas and Copernicus in Europe. I. The Arab philosophers, al-Fārābī and Ibn Sīnā describe the cosmology of the celestial world in nearly identical way. The summary of their combined views runs as follows: The One is perfect, so it is that from which existence is brought about. The second being emanates from the One and it is one and indivisible, due to the Neoplatonic principle of ex uno fit unum.1 This second being is the First Intellect. It conceives three thoughts: 1. The necessary existence of its own; 2. The necessary existence of the Supreme Being; and 3. Its own contingency as compared to the One. These are three accidents on its essential unity. The accidental threeness generates three separate beings, because ex uno fit unum. These are the Second Intellect and the first, starless sphere which consists of form and matter. The form is soul, in this case the first soul. The Second Intellect conceives 1. the necessary existence of its own; 2. That of the One; and 3. its own contingency as compared to the Supreme Being. This threeness gives rise to the fourth being, i.e. to the Third Intellect and the second sphere (that of the fixed stars, which follows the starless sphere) with the second soul. This process goes on in this way giving rise to the intellects from four to 10 with the corresponding spheres of Saturn, Jupiter, Mars, the Sun, Venus, Mercury and the Moon. The Tenth Intellect with the moon-sphere and with its form (i.e. soul) completes the heavenly world.2 Ibn Sīnā formulates clearly that the intellect conceiving the necessity of its own existence and that of the Supreme Being generates the next Intellect and the next Soul and conceiving its own relative contingency it generates the matter of the next sphere.3 In this Arabic theory one can detect the basic concepts of the Neoplatonic philosophy: the One, the Intellect and the Soul, respectively. The concepts are identical, but they form different systems in the works of Plotinus and Proclus on the one hand and in that of al-Fārābī and Ibn Sīnā on the other. In the Neoplatonic philosophy the One generates the Intellect and the Intellect generates the Soul and the Soul emanates the world of sense-perception and the vegetative nature.4 There is an obvious difference between the Greek and Arabic account of emanation. This difference is due to the combination of Proclus and Aristotle in the Arabic cosmology, to begin with. Proclus spoke in his Elementatio Theologica of a series of Intellects emanating from the One, and later of a series of Souls emanating from one of the Intellects.5 Drawing on the astronomy of his age, first of all on the works of Eudoxus and Callippus, Aristotle described the Universe in the 12th book of the Metaphysics as a system of homocentric spheres. On the basis of the geometric model given in the 8th chapter of the book the movement of the Sun, Moon and planets involves more then three spheres (i.e. orbits) in each case. According to Aristotle's calculation the total number of spheres or orbits must be either 47 or 55. In this Universe, apart from the Prime Mover, there are unmoved movers equal in number to the spheres. V. P. Demidchik asserts that the combination of the above quoted Plotinian, Proclian and Aristotelian theories served as starting point for al-Fārābī and Ibn Sīnā. Al-Fārābī having joined Plotinus and Aristotle modified their cosmology by adding his own views and he elaborated a new cosmology which was taken over and, it must be emphasised, slightly modified by Ibn Sīnā.6 R. Walzer tries to throw more light on al-Fārābī's Greek sources in the commentary accompanying his edition of the Perfect State.7 What he says in essence is that al-Fārābī's cosmology implies the knowledge of the Late Greek philosophy. In this connection the commentary is mainly based on Sambursky's book The Physical World of the Late Antiquity on the one hand and on the assumption that the text that served as an immediate source for al-Fārābī has been lost, on the other. Ptolemy's Planetary Hypotheses, a work preserved completely only in Arabic translation and Simplicius's Commentary on Aristotle's De Coelo are the two books referred to on behalf of the Greek literature of that age. This is everything we know: Aristotle, Plotinus, Proclus and possibly some obscure Greek works of later date. II. If we want to get a deeper insight into the problem, we have to consider that the structure of al-Fārābī's works Ārāʾ ahl al-madīnat al-fāḀila and al-Siyāsat al-madanijja is identical with that of Plato's Timaeus. Both Plato's and al-Fārābī's works mentioned now describe the creation and structure of the Universe. They go on with the same method: first they give a description of the celestial regions and then descend to the world below the moon and describe the things coming to be and passing away. On the top of the earthly existence there are the human beings and the human society the description of which concludes the books of al-Fārābī. In Timaeus Plato does not mention the human society, though he devotes the last sections of his treatise to the human beings, i.e. after the makrokosmos he describes the mikrokosmos. Timaeus, Ārāʾ ahl al-madīnat al-fāḀila and al-Siyāsat al-madanijja belong to the same genre of the philosophical literature. But there is another work of the same genre which deserves our attention. This is a treatise of the Greek Alexandrus of Aphrodisias known only in Arabic version as Risālat mabādiÞ al-kull (Treatise about the principles of the Universe).8 The structure and heading of this treatise are similar to that of the aforementioned books. The subtitle of al-Fārābī's al-Siyāsat al-madanijja, namely mabādiʾ al-maw`gūdāt, rhymes with the title of Alexandrus's mabādiʾ al-kull, and not only by chance. Alexandros begins discussing the Universe with the Supreme Beings, i.e. with intellects, souls, and describing the heavenly regions he concludes the treatise with the domain of the always changing sublunary world. If we admit that this systematic similarity cannot be ordained by chance, than we should turn to Alexandrus next. Alexandrus says that the outermost sphere moves the lower spheres with its circular movement, so it is the source of every movement in the world.9 Below the first mover which moves the first sphere we find the movers of the second, third, etc., spheres. Alexandrus does not define the exact number of the movers, but on the basis of his commentary to Aristotle's Metaphysics he seems to have accepted the Aristotelian numbers 47 or 55.10 Referring to Aristotle he asserts that the movers form a hierarchic order.11 This statement of the mabādiʾ al-kull cannot be corroborated with any quotation from Aristotle, but, nevertheless, the Arab philosophers, too, arranged their movers hierarchically. Alexandrus writes that the movement of spheres depends on that of the first sphere and is modified by their own intellect thinking of the first mover. So becomes their movement a circular one.12 The different directions of their circular movement are due to the activity of the secondary movers.13 In an important passage Alexandrus writes as follows: In the case of the divine body it is not correct to speak of several movers, even if we acknowledge that it is correct to say that each one of the orbits has a mover and a longing part.14 The exact meaning of the terms mover (muḥarrik) and longing part (mutashawwiq) can be cleared up by another passage which reads as follows: We ought to believe that each orbit is animate and has a soul of its own. They make their natural movement by their longing. The nature of these things is the soul, because the form of the divine thing is the most perfect form.15 Speaking of the divine body Alexandrus says at the beginning of the treatise that its movement is caused by Soul and Intellect necessarily. The soul is the form of this body from the beginning. We must not believe that nature of a thing is different from its soul.16 In the same treatise Alexandrus goes on discussing the role of the Intellects.17 The essentials of the same idea are summed up in the commentary to the Metaphysics as follows: The object of longing is principle of movement.... This moves the Intellect and the movement of the Intellect is observation. The object of longing moves the Intellect to observation, thus the object of observation moves the Intellect. If the observation, too, moves it and makes Actual Intellect, then the object of longing moves it as well, so the object of observation and longing will be the same. The primary object of observation and the Intellect by its own nature are identical with the First Cause. Thus the First Cause is the real object of observation and it is the real object of intellection and longing.18 From these quotations one can gather that, according to Alexandrus, all heavenly bodies have an Intellect and a Soul. The Intellect is their mover and the Soul is their longing faculty and form. Intellects are called in Alexandrus Metaphysics theoi, i.e. Gods, because they are immaterial and eternal. These are the main points in the Arabic cosmology as well. Speaking of the form of a sphere as a soul which is longing after the Intellect and the One al-Fārābī and Ibn Sīnā are in harmony with Alexandrus. The two Arab philosophers not only agree with Alexandrus but also differ in opinion from him. Alexandrus wrote in his scholia to book N of the Metaphysics that one can infer from the number of spheres the number of the secondary intellects, the number of divine beings.19 In Alexandrus' opinion there are as many intellects as souls. The number of spheres, it means the orbits, amounts to 47 or 55, consequently, there are 47 or 55 intellects and souls. Ibn Sīnā says in Kitāb al-najāt, while describing the heavenly regions, that every sphere has a mover (muḥarrik) and a longing part (mutashawwiq).20 This statement is essentially different from Ptolemy's view quoted by Walzer which, in Simplicius's narration, runs as follows: It is thus more correct to let each planet be a source of motion, for this is the power and activity of the planets in their proper places and round their own centre,namely the uniform motion in circle.21 In this passage, and only in this passage, Ptolemy derives motion from the inside vital power of the planets as contrasted with Alexandrus who, following Aristotle, derives it from outside intellects. The difference between Ptolemy and the Arab philosophers can be shown by the words quoted from Ibn Sīnā's al-Mabda' wa ʾl-maʿād. Ibn Sīnā says in a passage that each planet (kawkab) has a sphere in which it has a fixed position (yuthbatu fīhi) and by which it is carried (wa ʾl-falak yanquluhu). According to Aristotle it is the sphere and not the planet which revolves round its centre and this is the more likely view, not that of Ptolemy.22 Walzer's explanation summarized above is thus refuted by the evident contradiction between Ptolemy and the Arab philosophers. In an interesting passage of Kitāb al-najāt Ibn Sīnā refers to the most correctly speaking man who wrote in his treatise about the principles of the universe that the heaven has only one mover though all spheres have a mover and a longing part of their own. As the texts quoted above and the title prove, this circumscription is a plain reference to Alexandrus and his treatise under discussion. In the same passage we find another reference to another philosopher who gives the best abridgment of Aristotle's works without a deeper insight. This philosopher said that the moved thing is not an orbit (kura), but a spherical body (falak). And really, if we turn to the Greek philosopher, who became famous for his abridgments of Aristotle's books, i.e. to Themistius, then we find an abridged version of the Met. Λ among his works preserved only in Hebrew translation. In the Hebrew text we find the terms and which render the concept of falak and kura in the section commenting on 1074 a 10-30. Themistius is of the opinion that it is superfluous to move the orbits instead of bodies and everything that is superfluous is unnatural.23 Thus the number of movers had been reduced by Themistius from 47 or 55 to 9. It is very likely that in the last analysis this philosophical innovation of Themistius goes back to the astronomical teaching of Hipparchus who changed the course of astronomy by adopting the theory of epicicles instead of the Aristotelian spheres.24 If one does not speak of various movements of the planets, then Aristotle's complicated explanation becomes irrelevant. The theory of epicicles needs a different explanation. In the same chapter Ibn Sīnā reports on Ptolemy's contribution to his cosmology. Ptolemy was the astronomer who added the outermost sphere without stars (άνάστρος σφα ρα) to the others described by Aristotle. It is probably the Syntaxis megale that served as a source for the Arabs and not the Planetary Hypotheses as supposed by R. Walzer. At any rate, Ibn Sīnā does not mention the latter work, but he refers to al-MājisṠī both in Kitāb al-najāt and al-Mabda' wa ʾl-maʿād.25 The assumption of a "containing body", which is equivalent to the starless sphere, was necessitated by Aristotle's concept of place, according to which "place" is the internal surface of the containing element. If the sphere of stars is the outermost sphere without a containing sphere, then the stars will not be in place. If the question is raised: where are the stars, the only logical answer should be: nowhere. Assuming a containing sphere one can define the place of the stars. For this reason Ptolemy introduced the concept of the starless sphere as improvement on Aristotle's cosmological theory. (But the universe as such will be further on nowhere.). III. There are other texts, too, which bear witness to our solution of the problem. Naṣīraddīn al-Ṭūsī names Alexandrus and Themistius, instead of describing them, in his commentary to the cosmological section of al-Ishārāt wa ʾl-Tanbīhāt.26 He refers to Ibn Sīnā's al-Mabda' wa ʾl-maʿād as the source of his knowledge. And really, in the Chapters 25- of the first book we find the names of Ptolemy, Alexandrus and Themistius with a summary of their contribution to cosmology. In al-Fārābī's cosmology the Aristotelian and Plotinian theory is completed with Ptolemy's outermost starless sphere, with the longing souls of the spheres as their forms in Alexandrus's treatise and with the teaching of Themistius who did not interpret the spheres as orbits (kura), but as spherical bodies (falak). And in this way he reduced their number to nine. One can thus state that all the Greek texts, which have bearing on al-Fārābī's cosmology, are at our disposal either in Greek original or in Arabic or Hebrew translation. But there is a question to be clarified, which is neglected so far. As I mentioned previously, Intellects as immaterial, eternal beings were called "theoi" by Alexandrus. Philoponus, who was member of the Alexandrian Neoplatonic School, but at the same time the Christian bishop of the town, believed in one God, consequently he began to speak of these Intellects as angels. This innovation was taken over by the monotheist Arab philosophers too, who continued speaking of the moving Intellects as malā'ika, i.e. angels. In another treatise Ibn SÐnā developed a theory of angelology on the basis of his cosmology, taking not only the Intellects, but also the cosmic Souls for angels. These were the heavenly angels, as opposed to human souls, which were taken for earthly angels.27 IV. After having finished the review of texts there is one interesting question to be answered: what was the scientific achievement of the Arabic scholars, if all constituent elements of their cosmography had been invented by Greeks? On the basis of textual evidence we can formulate our answer as follows: 1. Al-Fārābī took part of the Aristotelian tradition in the controversy with Platonism and Pythagoreanism on the origin of the celestial movement. Ptolemy was an adherent of the Platonic-Pythagorean line. Asclepius, the sixth century Neoplatonic commentator of Aristotle's Metaphysics is our best evidence for this controversy.28 2. In the late antiquity Greek philosophers began to combine the scattered philosophical and astronomical views. Asclepius e.g., who speaks of nine spheres in his commentary on Aristotle's Metaphysics united Themistius's concept of spheres (which goes back to earlier astronomers as Hipparchus and Ptolemy)29 as heavenly bodies instead of orbits with the starless sphere (άνάστρος σφα ρα) of Ptolemy. This united theory of Ptolemy and Themistius is a constituent part of the Arabic cosmology, though enlarged with Alexandrus's views. Al-Fārābī thus continued the activity of the Late Greek philosophers carrying on the Peripatetic and Neoplatonic initiations. 3. Al-Fārābī's philosophy contains the first cosmological system known to me, which, though based on previous Greek theories, offers a new and genuine arrangement of the old material. This cosmological system was refined by Ibn Sīnā and taken over by the later Arab philosophers. 4. This cosmology, as it is proven by not very old scholastic textbooks,30 transmitted by Thomas Aquinas to Europe served as starting point to Copernicus. He, on the basis of his Pythagorean conviction, changed the place of the Sun and Earth and supposed that the stars have an inside moving energy.31 Through Copernicus the roots of our present day cosmology go back to al-Fārābī. ## Notes 1 M. Horten: Die Metaphysik Avicennas, Halle-New York, 1907, pp. 597-601, etc.; Ibn Sīnā: Ilāhiyyāt min kitāb al-šifāʾ, ed. Āyatullāh Ḥasan Ḥasanzāde al-Āmulī, Qom, 1995, pp. 433-442; Ibn Sīnā: Kitāb al-najāt, Cairo, 1938, p. 277. 2 R. Walzer: Al-Fārābīon the Perfect State, Oxford, 1985, Chapters 4-, pp. 106-135; Ibn Sīnā: Kitāb al-najāt, pp. 262-278. 3 Ibn Sīnā: op. cit. p. 277. 4 Plotini Enneades, Paris, 1855, p. 308, 3-5 lines. 5 Proclus: Elements of Theology, ed. F. R. Dodds, Oxford (Clarendon Press), 1963, prop. 21, pp. 24-25. 6 V. P. Demidchik: Kosmologiya al-Fārābī i iyo osnovnie istochniki, in: Al-Fārābī, Nauchnoje tvorchestvo, Moscow, 1975, pp. 13 - 30. 7 R. Walzer, op. cit. pp. 362-378. 8 ArisṠū ʿinda 'l-ʿarab, ed A. Badawi, Kuwait, 19782, pp. 253-277. 9 Op. cit. p. 161. 10 Alexandri Aphrodisiensis in Aristotelis Metaphysica Commentaria, ed. M. Hayduck, Berlin, 1981, p. 702, 5 sqq lines. 11 ArisṠū ʿinda 'l-ʿarab, pp. 267-268. 12 Op. cit. p. 268. 13 Op. cit. p. 266. 14 Loc. cit. 15 Op. cit. p. 268, 12 and sqq lines. In French translation: A. Badawi: La transmission de la Philosophie Grecque au Monde Arabe, Paris, 1968, pp. 132-133. 16 ArisṠū ʿinda 'l-ʿarab, p. 255; A. Badawi: La transmission, p. 123, 13 sqq lines. 17 Op. cit. p. 268, line 14-270, 9. 18 Alexandri Aphrodisiensis in Aristotelis Metaphysica Commentaria, p. 694, lines 10-15. 19 Op. cit. p. 794, lines 12-13. 20 Ibn Sīnā: Kitāb al-najāt, p. 266. 21 Ptolemy: Planetary Hypotheses, II, 12 (131, 9), this work existed in Arabic translation, but the lines quoted here are quoted in Greek in Simplicius: De Coelo. Commentaria in Aristotelem Graeca, VII, ed. I. L. Heiberg, Berlin, 1894, p. 456, lines 23-27; S. Sambursky: The Physical World of Late Antiquity, New York, 1962, p. 142. Ptolemy in this passafe contradicts his traditional views explained in other books of the same work, see Sambursky, p. 141. 22 Ibn Sīnā: Mabda' wa ʾl-maʿād, ed. Nūrānī, Teheran, 1984, p. 68. 23 Themistii in Aristotelis metaphysicorum librum paraphrasis, ed. S. Landauer, Berlin, 1903; Hebrew text pp. 24-25, Latin translation p. 28; and especially p. 26, 21-22 lines:... virtutes moventes tot sunt, quot sunt corpora, quae moventur... . 24 S. Sambursky: The Physical World of the Greeks, London, 19602, pp. 55-66. 25 Ibn Sīnā: al-Mabda' wa ʾl-maʿād, p. 62; Kitāb al-najāt, p. 267. 26 Ibn Sīnā: al-Ishārāt wa ʾl-Tanbīhāt, ed. S. Dunyā, vol. III, Cairo2, p. 182; al-Mabda' wa ʾl-maʿād, p. 62. 27 H. Corbin: Avicenne et le recit visionnaire, Teheran, 20052, p. 53. 28 Asclepii in Aristotelis Metaphysicorum libros A-Z commentaria, ed. M. Hayduck, Berlin, 0988, p. 37, lines 13-18; p. 35, lines 19-27, p. 37, line 16; p. 323, line 27. 29 H. Corbin, op. cit. pp. 108-118 treats the same question paying special attention to Arab astronomers. 30 Petri Pazmany: Tractatus, Budapest, 1987, pp. 22, 52, 65. 31 K. R. Popper: Conjectures and Refutations, New York, 19682, pp. 141 and 187. In the latter passage Popper refers to an Aristotelian text, where he speaks of Pythagoreans. In the next sentence the Pythagorenas appear in Popper's rather arbitrary interpretation as Platonists. Anna-Teresa Tymieniecka and Attila Grandpierre (eds.)Analecta HusserlianaThe Yearbook of Phenomenological ResearchAstronomy and Civilization in the New EnlightenmentPassions of the Skies10.1007/978-90-481-9748-4_11(C) Springer Science+Business Media B.V. 2011 # Is There Any Fundamental Connection Between Man and the Universe? Vladimir A. lefebvre1 (1) University of California, Irvine, CA, USA Vladimir A. lefebvre Email: valefebv@uci.edu Abstract A human being appears for us in two aspects, whose connection is unknown to us: as a physical process and as an object with a mental domain. In this note, we discuss a problem if the mental domain is subordinate to physical laws. Question in the title was formulated by Atilla Grandpierre two years ago when this conference was contemplated. In this notes, I will describe some thoughts of mine on this topic. I am a psychologist. The principal object of my professional studies is human being. This is why I seek fundamental connection between a man and the Universe, mainly looking narrowly at a person. A human being as a physical object has an evident link to the physical reality. He consists of organic molecules, connected into an incredibly complex system that is functioning obeying the laws of physics. However, the mystery of the link between human and Universe is not at this level. The problem can be formulated as follows: Is consciousness a physical phenomenon? Imagine that someone created a perfect robot, which is able to speak, solve problems, and cry of pain. If we have a task to dismantle this robot, we face a moral problem. The dismantling would destroy the robot, and he is begging with tears in the eyes to spare him. On the one hand, we are sure that the robot is a soulless imitator, but on the other - we are tortured with doubt: what if the robot is an animate creature similar to us, capable not only imitate sufferings but to experience them as well. Natural sciences use tests to determine the state of objects. Thus, we must find a test with the help of which we would decide if a robot is animate. Today we do not have such a test. More than that, it is not evident that such tests can exist, in principle. This means that we cannot reveal cognition instrumentally, i.e., we cannot ascribe a status of a physical object to it. So, the picture of the world in front of us is disconnected. On the one side, there is physical reality, on the other - our consciousness, our inner world, a gift, thanks to which we are human beings. What should we do in this situation? Apparently, we have to formulate more modest tasks. At the beginning we may try to understand if some laws that govern physical phenomena underlie the subjective ones, as well. Let me describe one of my works in more detail. Thirty years ago I constructed a formal model of a subject making choice. This model allows a researcher to predict human behavior in various situations. The peculiarity of the model is that it connects a choice with human inner feelings. The model predictions concerning choice can be verified experimentally, but the inner human feelings were not connected to any measuring procedures. On the other hand, the structure of the subject's inner domain has clear mathematical description. So I decided to search for fundamental physical process whose mathematical description is similar to a description of a human inner domain in my model. And I have found such a process! It happened to be a chain of heat engines, such that every following engine performs work equal to the lost available work of the preceding engine. The works performed by engines correspond to feelings. Chains of engines correspond to a subject's reflexive reasoning of the type "I know that I know..." From the physical point of view, each chain is a paraphrase of the first and second laws of thermodynamics. Therefore, we succeeded in creating a path between human psyche and physics. Now, we have grounds to presume that two laws of thermodynamics govern not only our body, but our consciousness as well. Reference Lefebvre, V.A. 1997. The cosmic subject. Moscow: Russian Academy of Sciences, Institute of Psychology Press. # Part 3 ASTRONOMY IN THE ORIGINS OF CULTURE Anna-Teresa Tymieniecka and Attila Grandpierre (eds.)Analecta HusserlianaThe Yearbook of Phenomenological ResearchAstronomy and Civilization in the New EnlightenmentPassions of the Skies10.1007/978-90-481-9748-4_12(C) Springer Science+Business Media B.V. 2011 # Cultural Impacts Of Astronomy Stanislaw Iwaniszewski1, 2 (1) State Archaeological Museum, Warsaw, Poland (2) National School of Anthropology and History, Periferico Sur y Zapote s/n, Col. Isidro Fabela, Del. Tlalpan, Mexico City, Mexico Stanislaw Iwaniszewski Email: siwanisz@yahoo.com Abstract Since the beginnings of humankind, the fascination with the sky has been regarded as an important element in human life and history. The regular patterns of the motions of celestial bodies enabled peoples around the world to create systems of knowledge and generations of skywatchers carefully tracked their positions to understand how to conduct the human life on the earth. Time keeping, calendars, clocks on the one hand and worldviews, cosmologies and cosmographies on the other, are the most obvious examples of cultural products attesting for the impact of the sky upon society. To avoid unnecessary repetitions, all human-celestial relationships are systematized and presented within the "lifeworld"-type model that encompasses three interrelated spheres to which the "real" reality of the universe investigated by astronomers may be added. ## Session: Astronomy and Civilization; History of Astronomy; Natural Science; Culture History The origin of astronomy goes back to the beginnings of humanity when man's initial fascination with the sky was gradually replaced with his knowledge of the stars and other heavenly bodies and when this knowledge became essential to his life and culture. It can be argued that celestial events entered human's life as part of man's natural environment, but as its significant components they started to assume specific meanings in relation to him. It was in this way, therefore, that the regularities perceived in the motions of celestial objects provided the necessary context upon which cultural patterns regulated human activities. From the celestial vault, and from naked eye observations, ancient skywatchers gained practical knowledge of their environment and the correlations they made between terrestrial and celestial events and processes served to understand how to conduct the human life on earth. Increasingly, skywatching has been associated with calendar making, freeing humankind from the regime of irregular and unpredictable fluctuations of different environmental cycles. Indeed, for many astronomers their discipline already began when the first human beings started to look up at the skies and astronomy is often called the oldest of all human sciences (Pannekoek, 1961, p. 13; Moore, 1996, p. 9). While astronomers often see the past in such an anachronistic fashion, historians of science usually define the observations made either by prehistoric skywatchers or by ancient astronomer-priests as insufficiently scientific at most (Dicks, 1970, pp. 27-40; Neugebauer, 1975, pp. 1-2; Pedersen, 1993, pp. 5-6). While the intellectual gap between sporadic glimpse and systematic observation is enormous, yet it is important to recognize that both types of activities are stimulated by the same, specifically human, needs for the generalized understanding of the events and processes taking place in the world around. Human interaction with the heavens may widely be perceived either as the practical construction and use of created celestial patterns to cope with the whole environment or as the multiplicity of symbolic meanings attached to the sky utilized to understand the world. The importance of the cultural perspective in this contexts rests on the assumption that such interactions occur through the medium of culture. Hence, the study of the role that celestial knowledge and astronomy played in human societies becomes an appropriate task for cultural astronomers rather than astrophysicists and historians of science. ### The Inadequacy of Western Views on Cultural Impacts of Skywatching Traditional descriptions of the cultural impact of astronomy can be characterized either as superficial, because they tend to interpret the phenomenon from the exclusive perspective of the dominant western culture, or as eclectic, since they provide anecdotic and nonsystematic accounts of diverse cultural-astronomical interactions. Though both, ancient skywatching and modern astronomical observations may be stimulated by some universal needs of human beings, the ways in which they explain or interpret the outer world remain very different. Modern astronomical results include ideas, concepts and facts resulting from systematic scientific inquiry being usually performed for its own sake. Celestial lore however, is not a fixed and bounded body of systematic knowledge, nor it is dissociated from all other domains of the human life. Modern astronomy dwells on the principle of universal laws that transcend any ideological, religious, political, ethnic, cultural and social frameworks, celestial lore is a culture-depended phenomenon limited by multiple social-structural constraints. So we need to distinguish between scientific methods that satisfy the need of interpreting the natural phenomena in rational and self-consistent terms and a human spirit of inquiry, an intellectual response to the call for living a life within the meaningful and understandable lifeworld. Certainly not everyone who looks at the sky and makes use of what he perceives, can automatically be described as an astronomer. Nevertheless, prehistoric practices of stargazing are often remolded in the guise of modern observations. Ancient temples become disposed of their religious, ritual or political functions, or at least these values remain hidden somewhere in the background, while their astronomical functions are interpreted in terms of modern astronomical observatories (examples are: Group E, Structure E-7sub 2 at Waxaktun, Guatemala and El Caracol at Chichen Itza, Mexico). Projecting modern scientific rationalities into past activities is seen by many astronomers as much unproblematic as it can be. It may be reflected in their insistence to describe astronomy as the oldest human science, the perspective that ignores the fact that the concept of "science" can hardly be applied to the practices of prehistoric stargazing, skywatching or time-keeping. The attitudes like presentism or whiggism enable astronomers and other scientists to claim that ancient skywatchers had the knowledge of the current science, for example, suggesting they discovered the phenomenon of precession long before Hipparchus (consult Jordan, 2006; Lefkowitz, 2006). Such theoretical perspectives usually take the validation of prehistoric observations by western scientific astronomy as granted without any serious consideration of the context in which they functioned. Here I wish to argue that the knowledge of context is absolutely critical to these interpretations as it puts limits on the extent of scientific analysis. In my opinion, the respect for context as a guide to interpretation definitely separates the field of cultural astronomy from that of scientific astronomy. The distinction made between scientific astronomy and ancient star lore not only has implications for the development of cultural astronomy but also for the implementation of the UNESCO Thematic Initiative "Astronomy and World Heritage". Paradoxically, while in 2009 we symbolically celebrate the anniversary of the birth of modern scientific astronomy, acknowledging that the pre-telescopic astronomy was not scientific enough, at the same time, through the UNESCO initiative, we accept the idea of some kind of continuity between skywatching and scientific astronomy. As shown above, the disciplines of cultural and heritage astronomy seem to curve out quite different and even conflicting insights. By mixing them up together, by ordering individual events in an intelligible sequence pretending to demonstrate that the development from ancient to modern cosmology reveals the evolution of human consciousness we seem to re-write the human history again. ### Modern Astronomy, A Radical Break Away From Ancient Celestial Lore My argument is that the scientific astronomy that emerged in seventeenth century Europe was not a natural continuation of ancient pre-telescopic astronomy, as is often supposed, but rather a radical break and repudiation of earlier celestial knowledge. This may be symbolized by Husserl's (2006) remarks on the Copernican perception of the earth as a body in motion which, according to him, cannot be derived from the basic worldview categories or from a direct sense experience, or a lifeworld. Hence, the heliocentric model of the universe constitutes a radical change in human understanding of the world. Therefore, it seems legitimate to ask whether the specific questions raised by prehistoric skywatchers or by the scribes and scholars belonging to non western scientific communities should be elicited within the same terms, categories or epistemological frameworks as those made by modern astronomers. Apart from a reduced group of ancient and medieval thinkers (part-time astronomers?), the rest of pre-telescopic observations was performed by culturally and socially embedded observers. They all were affiliated to the culture in which they were born, so very few of them traveled, learnt foreign languages or accepted epistemologies that were totally different from their own cultural frameworks. In other words, they were incapable of transcending their cultural specificities, producing internationally valid, universal or culturally disembedded fields of scientific inquiry. It has been argued that explanations of the natural world in non-western societies usually depend on culturally-specific classifications which usually stem from ready-made interpretative frameworks (Lopez Austin, 2005). Those frameworks rely on an unquestionable acceptance of the rules or patterns with which are made all interpretations of physical reality. Celestial lore, like other types of cultural knowledge is acquired, represented and transmitted in the process of "dwelling-in-the-world"; therefore it should be elicited within the context in which it functions. This context has various material, social, functional, symbolic, structural, spatial and temporal components which should not be separated from each other. Therefore to explain the role that celestial observations played in prehistoric societies, it is necessary to analyze their functional uses, patterned structures, symbolic representations and discursive potential to finally show how the practices of skywatching, stargazing and time-reckoning were successfully integrated with all other components of ancient and non-western cultures. ### Cultural Approaches to Astronomy Culture may be defined as the universal characteristic of humankind that allows people to inhabit their physical environment and to represent themselves and the other. Owing its features to specific natural and socio-historical contexts, culture displays a diversity of forms. Cultural forms are embodied in artifacts, environments, practices, conceptual categories and persons to serve to mediate between human subjects. Astronomical practices are not an exception: not only they embody specific cultural forms, they also serve to organize the social reality. The disciplinary concept of cultural astronomy offers a perspective from which we may observe, analyze and discuss the various types of relationship between astronomy and culture. At the very heart of cultural astronomy lie two lines of inquiry which taken together should offer a balanced view on the place of the heavens in human societies. The first approach studies the values and concepts of prehistoric skywatchers and ancient priest-astronomers in terms of our western culture, i.e. it validates their knowledge by our western astronomical knowledge. This approach lifts the object of inquiry out of the context in which it functions and analyzes it with categories and concepts imported from of western science. All non-western knowledge is thus reduced to fit western logic and western modes of knowing. The second line of inquiry intends to describe them in their own terms. If we define astronomy and culture as discrete, distinct and bounded entities, then we only will be able to infer some mechanistic patterns of interaction. We may focus on the impact of the heavens upon different spheres of human activities such as agriculture, navigation, art forms, religion, ideology and the like. However, apart from collecting anecdotal facts such studies are practically meaningless, since they produce statements in a very unsystematic way and have little if any contact with a social theory. The systems approach defining a culture as a system is much better solution. Each cultural system can roughly be divided a number of subsystems which, for the sake of simplicity are reduced to only five: subsistence, technology, trade and communication, social organization and ideological-symbolic subsystem (following Renfrew, 1984, pp. 248-308). The aim of the cultural astronomical analysis is then to examine the impact of the activities of stargazing, sunwatching, time-reckoning and the like upon diverse subsystems. The unit of analysis is that of human activities, the research goal is to study how they affect each of the five major cultural subsystems. For example, this may show how certain aspects of celestial knowledge such as the invention of solar or lunar calendars offered an adaptive advantage to horticultural or agricultural societies in terms of increased food production. Having established this, it may further be argued that the appearance of calendars based on astronomical cycles gave to human societies a higher level of autonomy in relation to the irregular and unstable fluctuations of their natural environment. Furthermore, it may be showed that the monopolization of astronomically-derived calendrical knowledge served to the accumulation of social power or led to the development of the social stratification (Marx, 2005; Wittfogel, 1957). Finally, we may observe how the same celestial pattern differently shaped a worldview of ancient farmers and a cosmological model of specialized sunwatchers. The main weakness of such studies is the hidden axiom accepting one-sided influence of the universe upon human culture. It must be remembered that the celestial bodies and phenomena do not produce meanings in themselves unless they are perceived as meaningful by human subjects. It is the human societies and social subjects who interpret, designate, and alter the meanings of these objectified entities in practice (Bourdieu, 1977), thus converting them into symbols and signs understandable within their own cultural context. Obviously, this approach necessitates theoretical reorientation that accounts for human beings as active agents in their environment, perceived as a mutually constitutive whole. Within this perspective, the understanding of the world becomes just one aspect of acting in the environment (in the sense of Ingold, 2000, pp. 199-200). The order perceived in the sky, or imposed by the rotating heavens, gives structure to the ways with which peoples perceive their realm as a structurally ordered entity. All specific cultural forms that are embodied in local communities - artifacts and everyday activities, social institutions and ceremonies, worldviews and ideologies - not only participate in the constructions of a particular lifeworld but also shape the individuals granting them with specific identities and ontological securities. These constructs are embedded in a context of praxis where they are validated and the meanings attached to them - negotiated. The practices of representing the world in form of cosmographies, worldviews and cosmologies, or those of time-reckoning or calendar-making, they all render the world meaningful and make possible any human relationship; they both help to understand the world and inform how to conduct life within human societies. Like other components of human lifeworld, celestial phenomena must be conceived as social (=meaningful) categories. Within the human lifeworld they all are used to mediate: (1) between humans and their physical world, (2) between humans within a social group, and (3) between individual human minds and their surrounding realities. My second sphere is furthermore subdivided into relationships between celestial events and (2a) dynamically acting societies, and (2b) social cognitive - ideational models of reality. This reminds much of three domains of human knowledge in Habermas' (2006, pp. 161-215) theory of communicative competence: (1) the objective, referring to the outer/external world; (2) the intersubjective, or the social world, and (3) the subjective, or the world of individuals. In contrast to Habermas, my model splits his intersubjective domain into two separated spheres (my numbers 2a and 2b). As an interpretative or hermeneutic approach is not alone sufficiently comprehensive, astronomers may wish to add here the fourth domain - that of the real world out there of which this cultural construction forms a part. References Bourdieu, Pierre. 1977. Outline of a theory of practice. Cambridge: Cambridge University Press. Dicks, D.R. 1970. Early Greek astronomy to Aristotle. Ithaca : Cornell University Press. Habermas, Jurgen. 2006. Teoria de la accion comunicativa, II, 2nd ed. Madrid: Taurus. Husserl, Edmund. 2006. La tierra no se mueve. Traduccion y notas de Agustin Serano de Haro, 2nd ed. Madrid: Editorial Complutense. Ingold, Tim. 2000 The perception of the environment. Essays in livelihood, dwelling and skill. London and New York: Routledge.CrossRef Jordan, Paul. 2006. Esoteric Egypt. In Archaeological fantasies, ed. Fagan Garrett G., 109-128. Oxon-New York: Routledge. Lefkowitz, Mary. 2006. Archaeology and the politics of origins: The search for pyramids in Greece. In Archaeological fantasies, ed. Fagan, Garrett G., 180-202. Oxon-New York: Routledge. Lopez Austin, Alfredo. 2005. Modelos a distancia: antiguas concepciones nahuas. In El modelo en la ciencia y la cultura, ed. Austin, Alfredo Lopez, 68-93. Mexico City: Universidad Nacional Autonoma de Mexico - Siglo XXI Editores. Marx, Karl. 2005. El Capital. Tomo 1, vol. 2. Libro Primero. El proceso de produccion del capital. Mexico City: Siglo XXI Editores. Moore, Patrick. 1996. Foreword. In Astronomy before the telescope, ed. Walker, Christopher, 9-14. London: The Trustees of the British Museum. Neugebauer, Otto. 1975. A history of ancient mathematical astronomy. New York - Heidelber: Springer.CrossRef Pannekoek, A. 1961. A history of astronomy. London: George Allen & Unwin. Pedersen, Olaf. 1993. Early physics and astronomy: A historical introduction. Cambridge: Cambridge University Press. Renfrew, Colin. 1984. Approaches to social archaeology. Cambridge, MA: Harvard University Press. Wittfogel, Karl A. 1957. Oriental despotism. New Haven: Yale University Press. Anna-Teresa Tymieniecka and Attila Grandpierre (eds.)Analecta HusserlianaThe Yearbook of Phenomenological ResearchAstronomy and Civilization in the New EnlightenmentPassions of the Skies10.1007/978-90-481-9748-4_13(C) Springer Science+Business Media B.V. 2011 # Triadic Insights in Astronomy, Art and Music Norman D. Cook1 (1) Department of Informatics, Kansai University, Osaka, Japan Norman D. Cook Email: cook@res.kutc.kansai-u.ac.jp Abstract Three huge discoveries during the Renaissance transformed all of science and art: they were the invention of musical harmony, the discovery of linear perspective, and the realization of the heliocentric structure of the solar system. These seemingly unrelated developments have a common basis in cognitive psychology. All three involve an understanding of the relationships among three sensory "cues." The astronomical insight was essentially an understanding of the meaning of shadows: a light source (the sun), an object (the moon), and its shadow (the phases of the moon as seen from the earth). A similar shadow-related insight led to the geometrically-correct depiction of light and shadows in Renaissance paintings and eventually to the laws of linear perspective (not deducible from the relative size of two objects, but deducible from the relative sizes of three aligned objects). The three cues in music are the three tones that produce harmony - the "tonality" that led to the major and minor modes of Renaissance music and still in use today. These (and other) forms of "triadic" sensory processing are not undertaken by infra-human animal species, but they lie at the heart of the unusual cognitive capabilities of the human mind. Various human societies over the past 50,000 years have contributed to the many advances of human civilization - i.e., the "post-history" civilization that is now on the verge of becoming truly universal among our species. The origins of most of those innovations have been lost in the mists of time, and we will probably never have anything more accurate than a "best guess" concerning the earliest discoveries in language, tool-making, agriculture, writing and mathematics (Mithen, 1996). But there are explicit historical records concerning more recent discoveries - and therefore some indication of the cognitive revolutions that fueled them. Perhaps the three greatest contributions to emerge from Europe were the invention of musical harmony, the discovery of linear perspective, and the realization of the heliocentric structure of the solar system during the so-called European Renaissance (1300-1600 AD). Although seemingly unrelated developments in diverse fields of art and science, they have a common basis in cognitive psychology, and involve an understanding of the relationships among three sensory "cues." Interestingly, the "triadic" nature of human cognition, in general, and the fundamentally "dyadic" nature of infra-human cognition have become topics of recent research in relation to the origins of human intelligence (Tomasello, 1999). Here, I review the three triadic insights in Renaissance astronomy, art and music - and briefly argue that the step from cognitive dyads to cognitive triads is the step that most cogently distinguishes us from other animal species (Cook, 2010). ## Astronomy Astronomy is the academic field that most clearly defines the place of human beings in the large-scale structure of the universe. While each of us individually begins life with interests that do not extend beyond the selfish needs of nutrition and physical comfort, we eventually develop into cognitive beings concerned with the world around us and with the questions of where we, individually and collectively, fit into that world. Modern astronomy has provided the scientific basis for thinking that, contrary to the primitive self-centeredness of infants, we are not, in fact, at the center of the universe - neither literally nor metaphorically. The gradual realization of our actual place in the material world arguably began with a rejection of the geocentric universe and its replacement with a heliocentric view. As argued most coherently by Casati (2003), that astronomical insight was based essentially on an understanding of the geometrical meaning of shadows: (1) a light source (the sun), (2) an object (the moon), and (3) its shadow (the phases of the moon as seen from the earth) (Figure 1). Figure 1. The lunar shadows of the Sun-Earth-Moon triad provided the astronomical paradigm that eventually led to an understanding of the heliocentric solar system The basic geometry of the Earth-Moon-Sun system had in fact been debated since antiquity, but it was found to have an easy solution in Copernicus's (1473-1543) model of the solar system provided only that one transcends the anthropocentrism of a geocentric universe. That is, the changing shapes of the moon can be understood by thinking of the lunar phases as "illusions" of a particular configuration of three celestial bodies. That geometry was not convincingly generalized to an understanding of the entire solar system until Galileo (1564-1642). Above all else, what Galileo succeeded in doing with his newly-invented telescope was to observe the phases of Venus. With the naked eye, the changing brightness of Venus can be observed, but by using the telescope it became apparent that Venus undergoes phase changes analogous to those of the moon. As illustrated in Figure 2, the observed phases of Venus (left) are consistent with the geometry of a heliocentric universe, but not a geocentric universe. Many astronomical details needed to be clarified before firm conclusions could be drawn, but the fatal blow to the conception of a geocentric universe was that wrought by something as insubstantial and ephemeral as the shadow! Figure 2. Galileo's key insight into the geometry of the solar system lies in the changing phases of Venus as it revolves to positions closer than and further from the Sun (after Casati, 2003). The predicted phases in a geocentric universe are not confirmed by telescopic observations ## Visual Art During that same period in Renaissance Europe, artists were striving to produce more realistic depictions of visual scenes. Two great insights came with an understanding of the phenomenology of light (and its absence, shadows). Specifically, if light rays follow a linear course until they encounter opaque objects, then the relationship among the light source, the object and the cast shadow is necessarily linear (Figure 3). Figure 3. An object and its cast shadow (a) imply the presence of a light source (b). The physics of light emission implies the linearity of the 3-body relationship among the light source, the opaque object and its shadow (c) Various authors have commented on the specifically triadic nature of shadow information. Baxandall (1997, p. 42) states that: "The gross form of any particular shadow is due to a particular relation between three principal terms - a positioned light source, a positioned and shaped solid, and a positioned and shaped support or receiving surface." Similarly, Casati (2003, p. 62) notes that "Shadow is useful because it makes visible an alignment that we could not otherwise see. Three points lie along the same line: the light source, the [object's] tip, and the tip of the [object's] shadow." In artistic effect of realistic shadows is huge. The mere presence of a cast shadow provides unambiguous information about the 3D structure of a small portion of the visual scene (Figure 3). In other words, the same optical linearity that pertains to the shadow/object/light source in the real world can be maintained on a canvas, and conveys a sense of realistic 3D structure, insofar as the rigid geometry of shadows is accurately depicted in 2D. Historically, it is of interest to note that there is little indication of cast shadows in most pre-Renaissance art (in Europe, the Middle East or the Far East). Although shading on faces and in clothing was used to give the illusion of 3D solidity, the rigid geometry of cast shadows was a Renaissance discovery (or possibly a rediscovery of Hellenistic shadows from ~400 AD) and an important contribution to the emergence of geometrically-realistic paintings. Of course, the Renaissance is more famous for the optical geometry of linear perspective, but here again the alignment of three visual cues plays an important role. The crucial argument is that the "alignment" of two objects in depth does not provide enough information to distinguish between two equally-possible spatial interpretations of the scene (Figure 4A and E). On the one hand, it could be two objects of different sizes but at similar distances from the observer (Figure 4F-H), or it could be two objects of similar size but at different distances (Figure 4B-D). Without further visual cues, the depth interpretation of two (non-overlapping) objects is ambiguous. Figure 4. The depth interpretation of two objects (A and E) is inherently ambiguous until further visual cues are added. Depending on the placement of additional cues, the two objects may be seen as aligned in depth (B-D) or located at approximately the same distance from the observer (F-H) In contrast, three aligned objects (i.e., objects that can be connected with perspective lines that converge on a horizon line) provide strong indication of the location of a vanishing point and therefore their likely alignment in depth (Figure 5). Of course, further cues can push the visual interpretation in either direction. If artificial perspective lines and/or vanishing points are also depicted in the scene (B), additional objects are similarly aligned (C), or surface textures consistent with the depth interpretation (D) are also included, the 3D depth in the 2D picture becomes undeniable. But the occlusion of the objects (E) or other contextual information (F) can strongly suppress the depth interpretation. Figure 5. Three aligned objects without any further visual cues (A) already suggest a depth interpretation. Further cues might enhance that interpretation (B-D), or negate it (E, F) On their own, the implication of depth is weak for two objects, but relatively strong for three aligned objects simply because of the low probability of such alignment of three different-sized objects at the same depth from the observer (Purves and Lotto, 2003). Whether or not the perspective lines are actually visible, we see depth in flat pictures, provided only that the connecting perspective lines can be "drawn in" by the human imagination (Cook et al., 2008a, b). The optical linearity that Macaccio, Leonardo and the other Renaissance painters mastered is well illustrated in a drawing by Dubreuil (Figure 6). There, he has drawn the parallel light rays that give rise to realistic cast shadows and the converging perspective lines that give rise to realistic diminution of objects with distance. Figure 6. Demonstration of the linear geometry of both perspective and shadows (Dubreuil, 1643) Both the linearity of shadows and the linearity of perspective can be illustrated with a small number of relevant cues, but to maintain the illusion of 3D depth over an entire canvas, the shadows and perspective cues from many objects need to be employed in a self-consistent manner. A shadow falling to the left next to a shadow falling to the right and perspective lines that indicate both a high and a low horizon line will work against the viewer trying to obtain a coherent spatial understanding of the visual scene. Of course, it is for this reason that the great Renaissance painters sketched out the entire scene, and used rulers and guidelines that were later painted over, in order to construct a picture that contains an illusion of 3D depth without internal contradictions (Kemp, 1997). ## Music The three cues in music are the three independent tones that produce harmony. Although multiple tones had been a part of musical melodies worldwide prior to the Renaissance, an understanding of 3-tone chords led to formalization of ideas concerning harmony (major, minor and eventually chromatic modes) - that blossomed into the Western musical idiom. We have published extensively (e.g., Cook, 2009, 2010; Cook and Hayashi, 2008) on a psychoacoustical model of harmony perception that is based fundamentally on three-pitch configurations (Meyer, 1956). Most other attempts at explaining harmony on an acoustical basis have been concerned primarily with the summation of interval consonance/dissonance (among fundamental frequencies and their upper partials), i.e., two-pitch configurations, but have been unable to reproduce the empirical sequence of relative "sonority" (major>minor>diminished~suspended> augmented triads) of the common triads. What we have shown is that the unsettled tension and affective ambiguity typically heard in the so-called diminished, suspended and augmented triads are due to the symmetrical structure of those pitch triads (an abundance of three-tone configurations among the partials in which the middle tone lies precisely midway between the upper and lower tones, e.g., the 4 semitones separating C and E, and the 4 semitones separating E and G# in the augmented chord) (Figure 7 A, B). In contrast, the "resolved" major and minor chords typically contain asymmetrical intervals (of 3, 4 or 5 semitones) among their partials. Moreover, the precise nature of the asymmetry (lower interval larger than the higher interval, or vice versa) neatly explains the major or minor character of these so-called model triads (Figure 7 C, D) on an acoustical basis. Figure 7. The "triadic grid" onto which acoustical properties can be plotted. Each harmonic triad is comprised of a lower interval (vertical axis, in semitones) and an upper interval (horizontal axis, in semitones). For example, the augmented chord, consisting of two 4-semitone intervals is located at grid position 4,4. (A) and (B) show the total "tension" scores calculated for all possible triads built from three tones over two octaves due to symmetrical partial structure. Ridges of higher tension are found for all inversions of the augmented (A), suspended (S) and diminished (d) triads. In (C) and (D) peaks and troughs of "modality" are found uniquely at the major and minor chords, respectively, due to their asymmetric triadic structure (for details of the model, see Cook, 2009; Cook and Hayashi, 2008) It should be noted that the musical usage of three-tone combinations to produce their characteristic affective responses in listeners has emerged independently in many musical cultures - probably dating back to the earliest melodies played in scales containing more than two distinct tones. But harmony theory was not formalized until the European Renaissance, when the labels "major," "minor" and (later) "chromatic" were used to describe the characteristic harmonic effects of various 3-tone combinations. ## Conclusion The mystery of the special talents of the human mind is a perennial topic and the questions of origins are particularly vexing. Simplistic ideas concerning our "big brains" fail to explain virtually anything. Extinct hominid species such as Neanderthals had larger brains than modern Homo sapiens (as indeed do dolphins, whales and elephants). Individuals with hydrocephalus suffer huge decreases (>90%) in cortical neurons, and yet are fully human with normal or near-normal IQs and language capabilities. Explanations that start with an inherent capability for symbolic thought, language, tool-use, social cooperation, cooking, or intraspecies empathy are of interest, but require essentially a Darwinian "miracle" to produce the initial leap into human mentality, and then a slower evolutionary process to generate the other aspects of human behavior. The triadic abilities of the human mind undoubtedly had early origins. The cave drawings in southern France (~40,000 years ago), the flutes fashioned from animal bones (~35,000 years ago) and the architectural structures at various locations worldwide (Stonehenge, Egypt and Mexico, dating from more than 3,000 years ago) attest to the early human interest in art, music and astronomy. But an understanding of those interests did not emerge until much later - with arguably three key insights occurring in Renaissance Europe and concerned with the cognition of three simultaneous cues. References Baxandall, M. 1995. Shadows and the enlightenment. New Haven, CT: Yale University Press. Casati, R. 2003. Shadows. New York: Random House. Cook, N.D. 2009. Harmony perception: Harmoniousness is more than the sum of interval consonance. Music Perception 27(1): 25-42.CrossRef Cook, N.D. 2010 Harmony, perspective and triadic cognition. New York: Cambridge University Press. Cook, N.D., and T. Hayashi. 2008 The psychoacoustics of musical harmony. American Scientist 96: 311-319.CrossRef Cook, N.D., A. Yutsudo, N. Fujimoto, and M. Murata. 2008a. On the visual cues contributing to pictorial depth perception. Empirical Studies of the Arts 26(1): 67-90.CrossRef Cook, N.D., A. Yutsudo, N. Fujimoto, and M. Murata. 2008b. Factors contributing to depth perception: Behavioral studies on the reverse perspective illusion. Spatial Vision 21: 397-405.CrossRef Kemp, M. 1997. The science of art, New Haven, CT: Yale University Press. Meyer, L.B. 1956 Emotion and meaning in music. Chicago: University of Chicago Press. Mithen, S. 1996. The prehistory of the mind. London: Thames & Hudson. Purves, D., and R.B. Lotto. 2003. Why we see what we do. Sunderland: Sinauer. Tomasello, M. 1999. The cultural origins of human cognition. Cambridge: Harvard University Press. Anna-Teresa Tymieniecka and Attila Grandpierre (eds.)Analecta HusserlianaThe Yearbook of Phenomenological ResearchAstronomy and Civilization in the New EnlightenmentPassions of the Skies10.1007/978-90-481-9748-4_14(C) Springer Science+Business Media B.V. 2011 # The Social And Spiritual Impact Of Sky Lore On Prehistoric Societies In Europe Emilia Pasztor1 (1) SEAC, Europe Research Group for Meditterranean and Carpathian Basin Studies, Dunafoldvar, Hungary Emilia Pasztor Email: emipasztor@freemail.hu Abstract Celestial events often exerted a great or even decisive influence on the life of ancient communities. There is good evidence that these phenomena played a particularly important role in the worldview of prehistoric Europe as well. Without written records the archaeological artifacts, features are almost the only "basic material" but also the solid evidences at the same time in retracing the prehistoric sky lore and its impact. Archaeoastronomical investigations can enrich the knowledge on prehistoric cognition but the overstatement of the role of astronomy in prehistoric civilization can also result false picture. Endeavoring to keep the right balance the paper is going to set forth the recent results of archaeoastronomical research on prehistoric sky lore and its influence on societies in Central Europe. COMPENDIUM OF ARCHAEOASTRONOMICAL STUDIES PERFORMED IN THE CARPATHIAN BASIN ## Re-Visiting Prehistoric Astronomy ### Megalithic Astronomy The "birth" of megalithic astronomy can be attributed not only to the existence of megalithic remains but also the enchantment caused by them. There have always been folk legends, opinions that the standing stones have healing- fertilizing power in association with the sun. As early as the 1700 years the British antiquarians became fascinated by the astronomical possibilities in the monuments. Working with large quantity of data Alexander Thom developed his theory on megalithic science during the second half of last century. He argued that megalithic man used precisely defined units of measurements and particular geometric constructions and carried out meticulous observations of sun, moon and stars (Ruggles, 1999). Thus notion of megalithic astronomy had two sides. Its public face meant a generally accepted idea about the connection between ancient stone monuments and astronomy. The academic face of prehistoric astronomy was however much different. In the early nineties there was almost nothing about the possible alignments of megaliths to celestial targets. This situation has somewhat changed by Clive Ruggles' book on Astronomy of Prehistoric Britain and Ireland (1999). Critically re-investigating earlier archaeoastronomical arguments and utilizing Aubrey Burl's research Clive Ruggles has made conclusions concerning astronomy in prehistoric Britain and Ireland. Although the available evidence gives little support for general ideas, he has also had some positive arguments on prehistoric astronomy of the British Isles such as repeated astronomical trends are evident in the archaeological records amongst the orientations of local groups (Ruggles, 1999). ### The Case of Non-Megalithic Astronomy Beside the big standing stone monuments of ancient Europe hardly any archaeoastronomical surveys of other prehistoric remains have been performed. If there are no visible ruins of a prehistoric construction, the archaeoastronomical measurements should be made during the excavation. Such investigations are quite rare. The circular causewayed enclosures called rondels of the late Neolithic Lengyel culture are positive exceptions. These regular constructions often with two or four causeways mostly excavated in Austria, Bohemia, Slovakia and Hungary stimulated astronomical examinations as the main axes of the causeways were often aligned to close to cardinal directions. Austrian rondels such as at Immendorf is argued to be orientated to the rise of the Pleides or/and the set of the bright star, Anteres. Another one at Steinabrunn might have been orientated to the rise of the Pleiades seen above a wooden post on the left of the south-eastern causeway (Gervautz and Neubauer, 2005).The Slovakian scholars have assumed alignments for six rondels to the rise or set of the full Moon at its minor or/and major turning points (Pavuk and , 2004). Besides the communal/sacral monuments the domestic constructions might also have been informative about prehistoric practical astronomical knowledge as domestic space also had sacred function and ritual activity often took place there. Winter solstice sunrise might have been one of the main factors in siting Bell Beaker houses in the Early Bronze Age Carpathian Basin. The axes of the houses roughly face the midwinter early climbing sun at the horizon (Pasztor, 2005). The history of constellations supports the argument that star groups may also have been created in the Carpathian Basin during the Bronze Age (Pasztor and Roslund, 2007). The anthropological records prove that folk astronomy involved not only the astronomical but also the atmospheric phenomena. The twilight and dawn or the rainbow are also separate elements of sky beliefs and ancient myths. It is most likely that the same or almost the same elements of the possible astronomical knowledge can be argued for prehistoric Europe by studying the megalithic and non-megalithic constructions. It can however, generally be stated that no clear picture emerges of overall astronomical development in Neolithic and Bronze age Europe. The prehistoric sky observation/astronomy was not unified and not scientific (Pasztor, 2009b). ## The Social and Spiritual Impact of Sky Lore Some basic elements of ethno-astronomy in the Carpathian Basin already prove how various impacts the celestial phenomena can make on a society. The influence of sky lore can be found in every aspect of the life. The celestial lore was applied partly to common, everyday necessities such as bearing on land or weather magic and partly to special occasions (hard times, fateful events, turning points, regular rituals, burial rituals, etc.) (Pasztor, 2009d). ### Calendar Constructions? Archaic Year Division? Most researchers argue the orientations of prehistoric constructions were not just embellishment. They might also have had a calendrical function. This function of the rondels has also been supported by the famous German three-causeway enclosure at Goseck whose two southern causeways were directed to the midwinter sunrise and sunset (Bertemes-Schlosser, 2004).The rising or setting of celestial objects observed through the causeways of the rondels might have marked important days in their calendar (Gervautz and Neubauer, 2005), such as the winter or summer solstice which might have signalled the middle of the seasons but not their beginning as is the case is in our days. The expression of Mittersommer or Midsummer for example, is the relic of such an old division (Zotti, 2005, pp. 76-77). Eighteen of 51 late Neolithic roudels of the Carpathian Basin have a causeway in the direction of sunrise or sunset on a midquater day (Pasztor et al., 2008, 1.1-1.4. kep). Although the early medieval Irish literature might sustain the existence of an ancient pan-Celtic calendar, which divides the year with the midquarter days, the earliest evidence for such calendrical division comes from as late as the Medieval Age (Hutton, 1996, pp. 408-411). The roles of the sun's turning and equinoctial points in ancient folk calendars are very much debated. Ethnographical research reports that peoples of the North such as the Inuit, the Finnish Saami or the Nganasan who carefully watched the motion of the sun, devoted sacrifice to its first appearance after the longest dark days in midwinter (Nilsson. 1920, p. 344). The old German Yuletide festival might have had clear relation to midwinter (Jan de Vries, 1956, p. 448). The celebration of midsummer is supposed to have been widespread in European folk tradition. The St. John's festivities around midsummer became general in the fifth century. The principle of the exact beginning of the New Year was, however, often missing from the folk year division or it was not fixed on a certain day as it followed the main economic activities of the communities, which first of all depended on the climate and the natural surroundings. In Central Europe the two natural turning periods between the cold and warm terms are spring and autumn. They were recognized not as sun equinoxes but the changes of nature, important stations of farming activities or increase of the animals. The beginning of the year seems to have fallen into one of these periods at the Celt, the Germanic or Slav tribes but this was also the case at the Finno-Ugric peoples. This assumption is based on certain old folk festivities (Domotor, 1983, pp. 46-51). All the above mentioned historical and ethnographical records prove that the use of a universal calendar cannot be expected even for the early historical times either. Each ancient culture applied their own methods for time reckoning which might not have been the same even in one culture either. Therefore the apparent mid-quarter-day-orientation for some rondels may be nothing more than a serendipitous coincidence and the use of an 8-fold calendar on the continental prehistoric Europe cannot be proved sufficiently either. ### Astronomy and the Ancestors The alternative purpose of the orientation of the prehistoric constructions can be to offer the beams of sacred light enter the inner side of the monuments, most often chambered tombs, at ritual times. Thus the orientation may be due to the ancestor cult. An outstanding well-known example is the Newgrange tomb, Ireland. Its passage and chamber are illuminated through the roof box over the entrance by the winter solstice sunrise. Not only the burial tombs but also other constructions such as Stonehenge might have been a stage for a light and shadow interaction at ritual times, which not only enhanced the ceremony but revived the carvings on the thrilitons by the early slanting light (Pasztor, 2009c). Despite of other more examples, no solid support of such a cult can be detected in any systematic studies. It is often claimed that the orientation of the skeletons in a cemetery reveal sun cult as the long axes of the graves are aligned to east-west or if they have north-south orientation the deceased face the rising or setting sun. The study of the orientation of graves in the Bronze Age Carpathian Basin offers little evidence to support this notion even in the cases where the graves seem to share strict common rules in burial customs (Pasztor, 2008). ### Sky Lore as Spiritual and Social Power Ethnographic research show that astronomical knowledge meant great power to possessors such as the Inuit shamans (MacDonald, 1998) or the Skidi Pawnee Indians'"priests" (Chamberlain, 1982). Historical examples can also be mentioned. The Transylvanian Getae - Daco Zalmoxis, who had been the slave of Pythagoras, and learned about the heavenly bodies, returning home became a priest - but arranged his being seen as a god. He used his powers to force the king to share his political authority, and the nobles and people to believe that he could predict the future from celestial signs (Eliade, 1972). The Bronze Age Carpathian Basin shows no traces of temples, shrines or special sacral buildings, and no evidence of hierarchical religion. The societies were not marked by major inequality, and the participation in sacred ritual activities could be achieved rather than being restricted to specialists. These pose questions about the possibility of animism and shaman-like mediators. Animism has strong devotion to nature involving earth and sky as well; as for shamanhood it has deep cosmic symbolism as anthropological studies prove (Hoppal, 2007). There are archaeological finds which can be best interpreted by this belief system (Pasztor, 2009e). ### In Tune with the Cosmos #### Foundation Rite? The actual direction of the rising sun can offer a good interpretation for the orientation of more than 50 late Neolithic rondels in the Carpathian Basin. The first step in the construction might have been setting out the direction of the eastern causeway by the rising point of the sun. The causeways, other than the eastern one, seem to be not aligned but rather constructed to form a symmetric design (Pasztor and Barna, 2009). Anthropological research on domestic area argues that beside the environmental factors such as prevailing wind, natural light need or solar radiation; the non - environmental factors such as unusual house alignments, door positions and sacral deposits inside the domestic area play important role in founding and building a house. The different building phases are associated with different myths or rituals. Trying to find the right place to live always required an "omen" which proved the sanctity of the site. The investigation of the Bronze Age houses in the Carpathian Basin argues that there is a slight correlation with the direction of the midwinter sunrise and the north-south or east directions. This may raise the question of a foundation rite in connection with sunrise or myth of origin (Pasztor, 2009g). #### Cosmologic Symbols Celestial bodies and phenomena are important participants of all cosmologic myths. The archaeological remains and artifacts must conceal the world view of an ethnic group even if it is difficult to identify it. The symbols representing the common cosmologic beliefs must share some common elements in spite of the artistic variations. The comparative studies of traditional and ancient cosmologies can reveal and identify such elements and their representations (Pasztor, 2009a, 2009f). #### "Specialized" Sky Gods Although animism seems to be the ruling mythological background in the Bronze Age, the Proto-Indo-European beliefs must have also co-existed in the Carpathian Basin by then. Many of the Proto-Indo-European sky divinities became "specialized", turned into storm or fertility gods, etc.in course of time (Eliade, 1957). This fairly complex evolution may have been in process during the Bronze Age as there are artefacts, especially among the prestige ones, which may be associated with the Proto-Indo-European mythology (Pasztor, 2009b). ### Sky Lore as Social Power Investigations show that the prestige finds of the second half of the Bronze Age were very often decorated by celestial symbols whose number significantly grew in the late Middle Bronze Age. Why did all these universal-cosmic symbols become of interest and importance? They may have acted as cosmic symbols as well as royal and chiefly regalia due to an ideological pattern in which the divination of the elite was believed to be "natural". Bronze and gold may have been the visible sign of supremacy and the legitimization of structures of dominance and power (Pasztor, 2009b). ## Conclusions There is good evidence that celestial phenomena played a particularly important role in the worldview of prehistoric Europe. The results indicate that the social changes accompanied with ideological changes involving more interest in sky, can be observed from the Middle Bronze Age on. The celestial and terrestrial landscape was an inseparable unity for prehistoric people. This world view resulted that the elements of the celestial landscape had a significant impact on all aspects of the life of prehistoric Europe. References Bertemes, F., and W. Schlosser. 2004. Der Kreisgraben von Goseck und seine astronomischen Bezuge. In Der Geschmiedete Himmel, Hg. Harald Meller, 48-51. Stuttgart: Theiss. Chamberlain, V.D. 1982. When stars came down to earth. Los Altos: Ballena Press. Domotor, T. 1983. Naptari unnepek-nepi szinjatszas. Budapest: Akademia Kiado. Eliade, M. 1957. Patterns in comparative religion. London: Sheed and Ward. Eliade, M. Zalmoxis. 1972. History of religion, vol.11, No. 3. Chicago: University of Chicago Press, 257-303. Gervautz, M., and W. Neubauer. 2005. Sonne, Mond und Sterne. In Zeitreise Heldenberg. Geheimnisvolle Kreisgraben, Hg. F. Daim and W. Neubauer, 73-74. St.Polten: Berger. Hoppal, M. 2007. Shamans and tradition. Budapest: Akademia Kiado. Hutton, R. 1996. The pagan religions of the ancient British isles. Oxford: Blackwell. Jan de Vries. 1956. Altgermanische Religionsgeschichte. Berlin: de Gruyter. MacDonald, J. 1998. The Arctic sky. Toronto: Royal Ontario Museum/Nunavut Research Institute. Nilsson, M.P. 1920. Primitive time-reckoning. Lund: Gleerups. Pasztor, E. 2005. Sunshine in Bell Beaker's houses: On the orientation of the houses of the Bell Beaker- Csepel Group. In Lights and shadows in cultural astronomy, eds. M.P. Zedda and J.A. Belmonte, 116-124. Isili: Associazione Archaeofila. Pasztor, E. 2008. Celestial symbols on archaeological finds from the Bronze Age in the Carpathian Basin. In Cognitive archaeology as symbolic archaeology 1737, eds. F. Coimbra and G. Dimitriadis, 13-21. Cracow: BAR IS. Pasztor, E. 2009a. Prehistoric cosmologies - a methodological framework for an attempt to reconstruct Bronze age cosmologic ideas in the Carpathian Basin. In: Cosmology across cultures ASP conference series, eds. J. A. Rubiño Martin, J. A. Belmonte, F. Prada, and A. Alberdi, Vol. 409, 457-463. Pasztor, E. 2009b. The significance of the sun, moon and celestial bodies to societies in the Carpathian Basin during the Bronze Age. In The role of astronomy in society and culture, eds. D. Valls-Gabaud and A. Boksenberg Cambridge: Cambridge University Press. Pasztor, E. 2009c. The harmony of the immaterial and the material in prehistoric monuments: Investigating ancient light and shadow interaction. In Experimenting the past. The position of experimental archaeology in the archaeological paradigm of the 21st century, eds. D. Gheorghiu, and A. Peatfield, Zeta Books (In press). Pasztor, E. 2009d. Kognitiv regeszet es etnoarcheologia - Égitestek es jelensegek lehetseges ismerete a bronzkori Karpat-medenceben. In Essays to the honour of Janos Makkay, ed. M. Fekete. Pecs: Pecs University. Pasztor, E. 2009e. Prehistoric sky lore and spirituality. In Archaeology and Experimenting Spirituality? eds. D. Gheorghiu and A. Peatfield. Cracow:BAR IS. Pasztor, E. 2009f. A kereskedelem es csere 'mellektermeke': eszmek es szimbolumok vandorlasa. In G. Ilon (ed). VI. Őskoros konferencia, MOMOSZ. Szombathely. Pasztor, E. 2009 g. The connection between the terrestrial and celestial landscape during the Bronze age in the Carpathian Basin: Orientation of houses. In: Landscape in mind: Dialogue on space between anthropology and archaeology, ed. G. Dimitriadis, BAR-S2003. Oxford: Archaeopress. Chapter 9. Pasztor, E., and J.P. Barna. 2009. Concepts of space, place and time in late Neolithic Carpathian Basin: The geometry of rondels of the Lengyel complex. In Place as material culture, objects, geographies and the construction of time, eds. D. Gheorghiu and G. Nash. Newcastle upon Tyne: Cambridge Scholars Publishing. Pasztor, E. and C. Roslund. 2007. An interpretation of the Nebra disc. Antiquity 81: 267-278. Pasztor, E., J.P. Barna, and C. Roslund. 2008. The orientation of rondels of the Neolithic Lengyel culture in Central Europe. Antiquity 82: 910-924. Pavuk, J., and V. Karlovsk . 2004. Orientacia Rondelov Lengyelskej Kultury na Smery Vysokeho a Nizkeho Mesiaca. Slov. Arch. LII-2: 211-280. Ruggles, C. 1999. Astronomy in prehistoric Britain and Ireland. New Haven, London: Yale University Press. Zotti, G. 2005. Kalendarbauten? - Zur astronomischen Ausrichtung der Kreisgrabenanlagen in Niederosterreich. In Zeitreise Heldenberg. Geheimnisvolle Kreigraben, Hg. F. Daim and W. Neubauer, 75-79. St.Polten: Niederosterreichische Landesmuseum. Anna-Teresa Tymieniecka and Attila Grandpierre (eds.)Analecta HusserlianaThe Yearbook of Phenomenological ResearchAstronomy and Civilization in the New EnlightenmentPassions of the Skies10.1007/978-90-481-9748-4_15(C) Springer Science+Business Media B.V. 2011 # Impact Of Astronomy In Nepalese Civilization Suresh Bhattarai1, 2 (1) Nepal Astronomical Society (NASO), Kathmandu, Nepal (2) Department of Physics, St. Xavier's College, Kathmandu, Nepal Suresh Bhattarai Email: chikursharma@gmail.com Abstract Astronomy is considered to be the oldest science in the world. It has the direct relationship with the development of the human civilization. People have realized the potential of nature by the observation of the sky and use their knowledge for the betterment of the human society. They have been using the knowledge imbedding into their art culture and religion since the existence of human being in the world. As the contribution of Asia in the human civilization is significant we can imagine its contribution in the development of astronomy in the world. What are observing and manipulating about the universe has been done more than 5,000 years before but we lack the strong evidence for our stand in the world. The contribution of Asia in the development of astronomy and human civilization in the world with special reference to Nepal and Nepal's status in the development of astronomy and its contribution in the astronomy and civilization from Past to present is explored. How astronomy showed its impact in Nepalese civilization is explored. Also, Nepal's art, culture and religion with special reference to astronomy are discussed. ## Introduction The Neolithic age of China has been traced back as early as 10,000 BCE. Early evidence for proto-Chinese millet agriculture is carbon-dated to about 7,000 BCE but the written history of China begins with the Shang Dynasty (1550-1046 BCE). Indus Valley Civilization (2600-1900 BCE) had flourished around the Indus River basin in South Asia. Vedic civilization had extended from the second millennia BCE to the sixth century BCE1. The extensively astronomy-rich sacred texts of the Indo-Aryan civilization were presumably compiled then. The Iron Age in the Indian subcontinent succeeded the late Harappan culture. Mehrga, one of the most important Neolithic (7000-2500 BC) sites in archeology, lies on what is now the "Kachi plain" of today's Balochistan, Pakistan which is one of the earliest sites with evidence of farming (wheat and barley) and herding (cattle, sheep and goats) in South Asia. Neolithic tools found in the Kathmandu valley indicates that people have been living in Nepal for at least 9,000 years and showed that Nepalese civilization has very close relation to the Chinese and Indians from the very beginning of the civilizations in the Asia. According to Veda, 1 day in the life of Brahma, the creator is called a Kalpa or 4.32 billion years (the approximate life span of the earth).The time scales that Vedas explains are from nuclear to cosmological scale that we have conceived yet. The Hindu cosmological time cycles are described in verses 11-23 of Chapter 1, Surya Siddhnata which was probably 5,000 years old. According to Veda, we are now in fifty second Century of Kaliyuga which started in 3102 BCE. Garun Puran has explained the Earth as a sphere and the Sun as a source of Energy to living beings in Earth. Both Rig-Veda and Bahmanda Purana describe universe as a cosmic that cycle between expansion and total collapse, infinite in time and as expanded from a concentrated form - a point called a Bindu. Astronomer Arya Bhatta (476-550 CE) had theorized the revolutionary heliocentric solar system in 500 CE long before this concept was proposed by Copernicus in the western community in 1543 CE. Though the western civilizations have been contributing a lot in astronomy after the sixteenth century, Asian civilization has contributed a lot for the development of astronomy before sixteenth Century which has been spread widely in West as well. ## Nepalese Civilization Nepal has been remained the perfect place since the beginning of the human civilization on Earth. The fossils of Ramapithecus, dated 11 millions found in 1980 CE by the team of Dr J.H. Hutchison near Tinahu River, Butwal, western part of Nepal, proves the region as an important place for human civilization since the beginning of pre-historic time (West et al., 1991). It appears that Gopal Dynasty were the first to settle in Kathmandu Valley formerly known as Nepal then Abhir and Kirat Dynasties ruled the nation. Khas (now known as Chhetri) who were the Indo- Iranian (Aryan) of Central Asia who advanced towards the east and settled in the Western Part of Modern Nepal, succeeded to form their Kingdom only in 1100 CE. The epic Mahabharata mentions the Kiratas (900 BC-300 CE as William Kirk Patrick) among the inhabitants of Nepal. The first Kirati king Yalambar had the dubious honor of being slain in the battle of the Mahabharata, in which gods and mortals fought alongside each other. One of the earliest confederations of South Asia was that of the Shakya clan, whose capital was Kapilvastu, Nepal. Siddharta Gautama (563-483 BCE), who renounced his royalty to lead an ascetic life and came to be known as the Buddha (the enlightened one) was born to the Shakya king Sudhodhan. Maurya Emperor Ashoka the Great, the legendary Buddhist proselytizer and ruler from 273 to 232 BCE in India visited Kathmandu, Patan, Lumbini of Nepal as a follower of Buddhism and erected four stupas known as Ashoka Stupa in Patan, and Ashoka Pillar at Lumbini, the birth place of Gautam Buddha (Pei, 2009). From the findings at the ancient capital of Handigaun, it appears that Licchavi rulers were in power from third to fifth century, and again from eighth to thirteenth century. A well-preserved life-sized sandstone sculpture of a king named Jaya Varman, discovered in Maligaon in the eastern part of Kathmandu, contains an inscription dating from 185 CE which is now kept in the National Museum, Chaauni, Kathmandu. Two inscriptions of a known date, both Licchavi, are the broken pillar inscription from Pashupatinath temple dated 459 CE and the Changu Narayana pillar inscription of King Manadeva in 464 CE. There is a good and quite detailed description of the kingdom of Nepal in the account of the renowned Chinese Buddhist pilgrim monk, Xuanzang; dating from c. 645 CE (Pei, 2009). The Malla Dynasty was a ruling dynasty of Nepal from the twelfth century to the eighteenth century. Nepalese Art of the Malla period (1200-1769 CE) is considered as the artistic Golden Age. Araniko popularly distinguished as astronomy-enthusiast Balabahu of Nepal, had visited China at the invitation of Emperor Kublai Khan. He had assisted the legendary Chinese astronomer Guo Shoujing exhaustively while constructing astronomical equipments (Pei, 2009). Before the unification of Nepal in 1793 CE by Prithvi Narayan Shah, there were several kingdoms of different ethnic groups in Nepal. The Shah Dynasty lasted recently as Nepal become Federal Democratic Republic of Nepal. ## Astronomy In Nepal Surya Siddhanta (about 3,000 BCE) which was based on geocentric Theory is a part of Nepalese Civilization and is the basis for the Nepalese Calendar2. Stone hinge at Tehrathum, which lies in the eastern part of Modern Nepal, was erected in the Lichhavi Era and estimated about 2,000 years old which were used for time keeping purposes and astronomical observation (Oli, 2005). About 500 m from the area of Stone Hinge there are five ponds. The stone hinge in the area is almost destroyed by the cow gazing and other activities. Umbrellas in Temples of Acham, western part of Nepal, were used for the time keeping purposes. People of Nepal still use leaf to measure time dipping into the water. Also, they are aware of the position of the planets and stars in the night sky though which they can identify the season and time. Mathematical Astronomy has been greatly flourished in Nepal with some great astronomers of Nepal and India. Sumati Tanra (576-880 CE) was the first astronomical book published in Nepal which was initiated by Sumati of Nepal3. Famous astronomer Shree Pati who wrote many books on mathematical astronomy was Nepali. Siddhanta Siromani (1150 CE) which was written by Indian astronomers Bhaskaracharya had great influence in Nepalese astronomers. In 1494 CE Balbhadra of Jumla wrote Bhaswati Baal Bhodhini Tika according to Baswati in a lucid manner for the students (Bhadra, 1494). In 1514 CE Ratna Dev wrote Tika on Bhaswatii called Bhaswati Tika4. Gaureshwor Joshi wrote three different books on Mathematical Astronomy (1663 CE) which were taken as the significant contributions in the history of Nepalese astronomy (Pant et al., 1989). Shiva Sankar of Dankuta, Eastern part of Nepal wrote Sukhabodh in 1853 CE. During twentieth century, Scholars Naya Raj Pant and his Team, Prof. Dr Keshav Ram Joshi and others have done some remarkable works to find out the history Astronomy and its connections with Nepalese Civilization. The telescopic observation of cosmos has been traced only from late twentieth Century in Nepal. ## Impact Of Astronomy Licchavi and Malla periods are considered as the golden era of Nepal. Some traces of evidence of astronomical advancement in Nepal since the beginning of Licchavi period. Malla period is considered as the pick of the development of art, cultural and religion in Nepal. During Malla period, for future prediction and to make calendars easily, astrologers usually took the help to this Sumati Tantra and Sumati Siddhanta (Bardhan, 1409). Sumati Tantra has been purely written in Sanskrit whereas Sumati Siddhanta has been written in mixed Language of Newari (local language in Kathmandu Valley) and Sanskrit. Nepalese astronomers are the mathematicians as well so they have largely contributed to the mathematical astronomy. People use to go to the astronomers in past to learn mathematics. People started their cultivations by looking up the night sky and meaning the positions of the planets and stars. We can still find people from rural part of Nepal who use to measure time looking at the sky. It have been seen that people used stone hinge and Sun dials for time keeping purposes. We find that people from the rural areas of Nepal still use Orion, Globular Clusters and the planet Venus for their time keeping purposes5. The Stone hinge of Tehrathum was build for the observation of the night sky and time keeping purposes (Oli, 2005). We have found large number of Umbrellas in different parts of Mountain and Hilly Region which were used for the time measurement by measuring the length of shadow. ## Conclusion Nepal has been a habitable place for 11 million years from the evidence of fossils of Ramapithecus found in Western Nepal (West et al., 1991). Neolithic tools found in till date clearly shows Nepalese Civilization has close connections with Chinese and Indian Civilization and other Asian Civilizations. The civilizations from Licchavi and Malla periods are in pick because of their greater involvements in astronomy (Pant et al., 1989. Nepal has played a lot in the mathematical astronomy to calculate the time and others factors. The Modern Day Observational Astronomy and the Astronomy is in its infancy in Nepal5. The professors who know Mathematical Astronomy and the Modern day Astronomy are expiring without transferring the knowledge to the next generation. Because of this we are at the stage to lose our identity through our contribution to the Asian Astronomy and Civilization. We must have fruitful collaborations to find out more about the history of Nepalese astronomy and its contribution to the world. Nepal Astronomical Society (NASO), Kathmandu, Nepal Department of Physics, St. Xavier's College, Kathmandu, Nepal, e-mail: chikursharma@gmail.com ## Notes 1 Shiva Raj Shrestha "Malla", The Vedic-Aryan Entry Into Contemporary Nepal [A Pre-Historical Analysis Based on the Study Of Puranas], lAncient Nepal ,Department of Archeology, Kathmandu, Nepal. 2 Surya Siddhanta, Nepali Paper, Book Number 682, Manuscript Section, Keiser Library, Keiser Mahal, Kathmandu, Nepal. 3 Sumati, 4-57-Sumati Tantram, Palm Leaves, B 20/23, Page 190, National Archive, Kathmandu, Nepal. 4 1-1213-Bhaswati Tika, B 340/22, National Archive, Kathmandu, Nepal. 5 Annual reports of NASO activities, 2007/08. Acknowledgements I would like to express my sincere gratitude to Er. Rishi Shah, Academician, Nepal Academy of Science and Technology (NAST), Khumaltar, Lalitpur and President, Nepal Astronomical Society (NASO) for providing necessary guidance, comments and suggestions and being the source of inspiration to work in the field of astronomy and to promote astronomy for the development of our society. I am very thankful to National Archive, National Library and Keiser Library for their co-operations during the preparation of this paper. References Bardhan, Dharma Pati. 1409. Sumati Siddhanta, Palm Leaves, Book Number 82, Manuscript Section, Keiser Library, Keiser Mahal, Kathmandu. Nepal. Bhadra, Bal. 1494. Bhaswati Baal Bodhini Tika, Nepal Oli, Punya Prasad. 2005. Saur Jagat. Kathmandu: Manichood Publication. Pei, He. 2009. Pictorial biography of Araniko. Beijing: Administrative Office of Beijing White Dagoba Temple. Pant, Naya Raj, et al. 1989. Hindu Siddhanta Jyotish Ra Greek Siddhanta Jyotish Ko Tulana. Kathmandu: Royal Nepal Academy. West, R.M., J.H. Hutchison, and J. Munthe. 1991. Miocene vertebrates from the Siwalik group, Western Nepal. Journal of Vertebrate Paleontology 11: 108-129.CrossRef Anna-Teresa Tymieniecka and Attila Grandpierre (eds.)Analecta HusserlianaThe Yearbook of Phenomenological ResearchAstronomy and Civilization in the New EnlightenmentPassions of the Skies10.1007/978-90-481-9748-4_16(C) Springer Science+Business Media B.V. 2011 # Impact of Stars on Human Culture Varadaraja Venkata Raman1 (1) Rochester Institute of Technology, Rochester, NY, USA Varadaraja Venkata Raman Email: vvrsps@rit.edu Abstract In the Hindu vision, our individual selves, though apparently separate, are interlinked not only to one another, but to the Universe at large. The idea that we are fragments of stars is taken beyond its physical meaning, into the spiritual realm as well. This talk will bring out that thesis by reflecting on the role of stars in human history and culture. This will awaken us to the fact that beyond the astrophysical visions of stars there are also deeper connections between stars and humans that have made life more meaningful. What has remained universal in human culture over the ages is star gazing: at various levels of sophistication and with differing kinds of instruments, no doubt. From the remotest times people have looked at the star studded sky, pondered about it all, recognized patterns, observed motions, formed their own judgments and woven their own pictures as to what those distant little twinkling lights were. We may look upon celestial bodies as a link between ourselves and our ancestors, for even if we do not know our distant forebears individually, we have this in common: We have all looked at our sun and moon, at the age-old planets and the self-same stars. Stars have entered the thoughts and expressions of every human group in practically all epochs of history. They have had impacts of human civilization in strange and unexpected ways. This lecture will touch on some of these: it will discuss the ways in which, over the ages, stars have entered the visions and mindset of religion, mythology, politics, literature, art, music, and even our vocabulary. Perhaps no other theme is more universal and pervasive in human culture than stars and planets. ## Preamble: Hindu Vision There is splendor in the perceived world and pattern in its functioning, and all this results in the grand experiences of life and thought. In the Hindu vision, independently of the advent of humans, there has always been an experiencer of a vastly superior order. This Universal Experiencer spans the cosmic range in space and time. We refer to it as Brahman. Just as the expanse of water in the oceans is scattered all over land in ponds and lakes and rivers and bottles, the all-pervasive Brahman finds expression in countless life forms. Every living entity is thus a miniature light. We have all have emanated from that primordial effulgence, like photons from a glorious galactic core, destined for the terrestrial experience for a brief span on the eternal time line, only to re-merge eventually with that from which we sprang. Thus the Hindu vision paints our individual consciousness on a cosmic canvas. It recognizes the transience of us all as separate entities, yet incorporates us into the infinity that encompasses us. It does not rule out the possibility of other manifestations of Brahman, sublime or subtle, carbon or silicon-based, elsewhere amidst the stellar billions. It recognizes the role of matter, and the limits of the mind, but sees silent spirit at the core of it all. It does not speak of rewards and punishments in anthropocentric terms, or of a He-God communicating in local languages. Yet, it regards the religious expressions of humanity as echoes of that Universal Spirit, even as volcanic outbursts reveal submerged powers of far greater magnitude. In that vision, our individual selves, though apparently separate, are interlinked not only to one another, but to the Universe at large. The idea that we are fragments of stars is taken beyond its physical context, into the spiritual realm as well. In this lecture I will try to bring out that thesis by reflecting on the role of stars in human history and culture. This will awaken us to the fact that beyond the astrophysical visions of stars there are also deeper connections between stars and humans that have made life more meaningful. ## Ancient Times Since time immemorial stars have impressed awe-struck human eyes as faint luminous specks in the dark distant skies, overwhelming in their numbers, secretive in their silent aloofness, steady in their collective motions, picturesque in their patterns, punctual in their periodic appearance, and for ever beyond human grasp. Individually, they look like minute crystalline shimmers, but collectively they constitute a countless crowd that covers all of visible space. Though ever so tiny in their incredible distances we have come to recognize stars as stupendous stretches of matter that stagger our imagination, some swelling to dimensions beyond our own orbit around the sun. They seem fainter than the flame of a flickering candle, but we have computed their temperatures to be of mega-degrees and more. They look fixed for ever on the celestial ceiling, but we know them to be zooming through the expanse at incredible speeds. Stars first provoked human curiosity about heaven and earth, and they also sowed the seeds of science. By their precise and predictable motions they suggested to the human mind that there must be laws and principles underlying the physical world. Modern science has revealed that stars were responsible for our very genesis and existence. They have given rise to the material variety of the universe. They are the cosmic factories where cold hydrogen turns into the hot plasma of nuclear furnaces whence light and all radiant energy spill into every nook and niche of the void of space. It is only in relatively small specks in the vicinity of stars under certain conditions that simpler molecules combine to form the more complex units that ultimately led to the splendor of life and to its still more glorious forms that have become self-aware. As eventual offshoots of gigantic cosmic process in the core of stars, when we do astrophysics, we are looking back as it were at our ultimate progenitors, we probe and penetrate into our remotest roots with ingenious instruments, conceptual cleverness, and magical mathematics. Ultimately it is stars that are the cause of us all and of this conference too. Conferences on astronomy are usually devoted to various physical aspects of stars: their constitution and evolution, the principles and equations governing their birth and growth and eventual demise, their distances and energy outputs, and even to states on the universe that are utterly star-less. That we have come to know so much about entities so far removed by hundreds and thousands of light-years and more by the exercise of our ingenuity and intelligence is indeed a tribute to the human spirit. In an age wrought with the passions of political acrimony, ideological conflict, and religious confrontations, in a world rendered painful by economic distresses and social injustices, and on a planet threatened by ecological time bombs and nuclear winters, it must be a matter of some pride for our species of many virtues and many vices that music and mathematics, philosophy and poetry as well as art and astrophysics are practiced by some members of Homo sapiens. For these are surely among the nobler elements of human culture, these certainly are among the finer expressions of human civilization. ## Astronomy Beyond The Skies Astronomy is perhaps the only field whose subject matter has touched people of practically all cultures since time immemorial. While an elite class of scientists explore and probe into the mysteries of stellar motion, origin, and constitution with complex instruments and abstruse theories, the vast number of simple people have appreciated, admired the countless collection of tiny twinkling lights that seem to be watching us from up above from the nocturnal darkness beyond, and they generally react to technical jargon on stars very differently. This was beautifully expressed in the following poem (Whitman, 1981): > WHEN I heard the learn'd astronomer; > > When the proofs, the figures, were ranged in columns before me; > > When I was shown the charts and the diagrams, > > To add, divide, and measure them; > > When I, sitting, heard the astronomer, where he lectured with much > > applause in the lecture-room, > > How soon, unaccountable, I became tired and sick; > > Till rising and gliding out, I wander'd off by myself, > > In the mystical moist night-air, > > And from time to time, > > Look'd up in perfect silence at the stars. ## Universality Of Star-Gazing From the first humans who turned their heads heavenwards and looked up in silence at the stars, people of all races and cultures, of all religions and nations have not only stared at what seem like distant lamps in high heavens, they have also been inspired by their presence in various ways and have incorporated them into practically every aspect of their culture. When we look at the heavens on a clear moonlit night, the twinkling stars and the silvery moon seem to be staring at us. It is no less exciting to reflect upon the fact that millennia ago, in China and India, in Babylon and Africa and in ancient Greece, human beings like ourselves gazed at that same celestial bodies and wondered about them also. The same human spirit, encased in different frames, scanned the same skies and made similar efforts to understand what it was all about. We may never know how our distant ancestors imagined the stars, much less could they have imagined how we are reckoning those same entities. What has remained universal in human culture over the ages is star-gazing: at various levels of sophistication and with differing kinds of instruments, no doubt. Our ancestors from the pre-dawn periods of civilization also gazed at Alcyon and Antares, and wondered at the Pleiades and Polaris, perhaps with even greater enthusiasm than most moderns do, if only because we moderns have so many other nocturnal diversions. People everywhere and at all times have looked at the star-studded sky, recognized patterns, observed motions, pondered about it all, formed their judgments and woven their own pictures as to what those little lights were. We have come a long way from imagining them to be views though tiny holes in the celestial dome of a blaze beyond to the black holes we picture the fates of some of them to be. Thus, we may look upon celestial bodies as a link between ourselves and our ancestors, for even if we do not know our distant forebears individually, and none of them could have even dreamed of our doings and discussions, we have this in common: We have all looked at our sun and moon, at the age-old planets and the self-same stars. Heavenly bodies are shared by all the peoples of the planet. By their diurnal appearance in the skies of one and all nations, they connect the peoples of the world in some subtle way. Likewise, they also bind us to distant generations who studied and stared at the same distant bodies (Raman, 1999, p. 15). By their mystery in the dark night sky, their unreachability and apparent constancy, stars have touched the human spirit in myriad ways. They have entered the thoughts and expressions of every human group in practically all epochs of history. They have had impacts of humanity's culture and civilization in strange and unexpected ways. It is on some of these that I would like to reflect in this lecture. ## Egypt and Babylonia Perhaps because religion seeks to discover divinity whose location is taken to be yonder in high heavens, practically every major religion has been touched by stars one way or another. Consider the brightest star in the heavens, Sirius. Its hieroglyphic symbol of a dog has been found in submerged monuments of the Nile valley. Its heliacal rising at the summer solstice began the year for the ancient Egyptians, ultimately leading to our year of 365 days (Sarton, I, 29). There is also evidence that the Vedic Hindus had obtained a similar reckoning (Kak, 2005, pp. 847-869). Later, the star came to be regarded as the Egyptian god Isis, and was thus worshipped millennia before the birth of Christ. In the framework of ancient Egyptian thought Osiris was the husband of Isis. He was identified with what we call the star Rigel or beta-Orionis (Ritner, 1997, p. 137). For ancient Babylonians the Sun was the God Marduk who slew the evil Tiamat, but so was the star Capella (alpha-Auriga). The Babylonians developed the mathematical subdivision of the circle into 360° in their study of the firmament, and also initiated the astronomically irrelevant, but culturally significant 7-day week. (Dalley, 1989) This arose from their dedication of a day to the seven gods associated with each of what they regarded as the seven planets, the sun and the moon, along with Mercury, Venus, Mars, Jupiter, and Saturn: a belief that was totally understandable in the third millennium BC, but whose persistence in the daily horoscopes of today baffles, if not irritates, present day astronomers. Aside from countless books and magazines, astrology is still thriving in countless newspapers all over the world. We see the impact of the number seven in our cultural landscape too, from the story of the 7 day creation and that of Snow White and the Seven Dwarfs to the seven deadly sins, circumambulating sacred shrines seven times and many such: all because of the simple fact that the ancient Babylonians did not have a telescope and therefore could not see planets beyond Saturn. There has been perhaps no greater impact of observational astronomy on human culture than the 7-day week. If only the ancient Babylonians had had powerful telescopes, we might be having a 10 day week now. ## Abrahamic Tradition According to a midrash in ancient Judaic legend, when Abraham began his journey he looked at the skies and exclaimed, "I will worship the stars." Soon most of the stars set, but there was still the Pleiades and some other constellations. And he said, "I shall worship the constellations." These too disappeared, and then there was the moon, then the sun, and none of these seemed permanent. It was then that Abraham said, "I will worship God, for he abides for ever." The insight of this story is that ultimately even the celestial bodies are not eternal, only God is. But it also shows that in a peculiar way, stars led to Monotheism in the Abrahamic tradition. The story is re-told in the Holy Qur'an (6:75-79). The six-pointed pattern with two triangles, referred to as the Star of David, was probably not meant to represent any star at all. It is regarded as Magen David: the Shield of David, a shield against evil spirits. It has a long and nebulous history. According to one legend, King David had a shield in that form. The Kabbalah interpreted it as the opposing forces within Man: good and evil, spiritual and carnal, etc. The triangle with the vertex upward shows the direction of heaven for goodness. It has been said that the Star of David signifies the number seven: six vertices plus the center. Franz Rosenzweig interpreted one of the two triangles as standing for God, world, and man, while the other was taken as representing creation, revelation, and redemption. We see here one of the first instances of a geometrical representation of a star which later came to be used for an asterisk which really means a little star (Plaut, 1990). ## Stars as Abodes of Angels It was a fairly widespread belief even during the Middle Ages that invisible angels carried the planets and the moon while the stars themselves were simply the trickling lights through holes on the floor of resplendent heaven. In some ancient belief systems stars were the hosts of God, and were identified with angels. The New International Version of the Bible says: "The mystery of the seven stars that you saw in my right hand and of the seven golden lamp-stands is this: The seven stars are the angels of the seven churches, and the seven lamp-stands are the seven churches" (Exodus 25:37). Thomas Aquinas believed that "the planets were moved by angels" (Gleadow, 2001, p. 58). In the view of others, stars were merely the dwelling place of angels. Just as we moderns believe there are planets out there where other intelligent beings may be living, those ancients thought there were stars where these extra-terrestrials were living. ## Zodiacal Signs Many ancient peoples, such as the Chinese, the Hindus, the Babylonians, and the Greeks were familiar with the twelve constellation zones which the apparent positions of the sun seem to have as background in the course of the year (van der Waerden, 1953, pp. 216-230). Flavius Josephus, an eloquent apologist in the Roman world for the Jewish people and culture, as also for royalty and for the priestly class, believed that the twelve stones on the breastplate of the high priest referred to the twelve constellations on the Via Solis (Whiston, 1822). We read in the Bible (Enoch 35:3): "I blessed the Lord of glory, who had made those great and splendid signs, that they might display the magnificence of his works to angels and to the souls of men; and that these might glorify all his works and operations; might see the effect of his power; might glorify the great labor of his hands; and bless him forever." On this basis some scholars have argued that Enoch was the first to make these divisions of the constellations (Pratt, 2006, 23 Aug). Other cultural spokesmen have claimed credit for this also. Be that as it may, in ancient Greece it was referred to as τα Δο-δɛκατι-μορια (the Twelve Parts), until Aristotle called it the κύκλος τον ζώώ διον: the circle of the signs of the zodiac, though not all of the signs refer to animal forms. (Marriam-Webster, 1995, p. 525). When the zodiacal signs merged with astrology, new ideas arose. The signs were used to interpret human nature, and our fates and fortune as a function of the zodiacal signs under which we are born. Distant stars, not even on the same plane, have thus jolted our cultural and fantasy lives in dramatic ways which range from the amusing to the mindless. ## The Hindu World Vedas are the foundational scriptures in the Hindu world. They date back to more than 1500 BCE. In this work we find references to stars. In a hymn to Night (Rig Veda 10.127) stars are referred to as the many eyes of Night. Night, known as Ratri, is the sister of Dawn. Dawn, known as Usha, robes herself in crimson and gold. Long before Longfellow wrote in his Hymn to the Night, > I heard the trailing garments of the Night > > Sweep through the marble halls! > > I saw her sable skirts all fringed with light > > From the celestial walls Ratri's dark raiment was described by a Vedic sage poet as studded with stars. This is one of the earliest poetic visions of stars. Astronomical references and also found in the Hindu epics of the Ramayana and the Mahabharata, and these have enabled some scholars to date when the events mentioned there might have occurred. Another section in the Vedas invokes the Universe as a Cosmic Person or Purusha. Purusha is described as One with a Thousand Eyes (sahasraksha) referring perhaps to the stars in the sky. Other poets have also sung in later centuries that "Night has a thousand eyes." Here again, the Divine Principle was described by a Vedic poet as having the form of Stars: nakshatrani rupam, for they are distant and luminous, mysterious and majestic also, and they fill the expanse of the limitless universe too: all attributes of Divinity. In the Hindu tradition, again, there are many mystical symbols with esoteric meanings couched in them. These are known as yantras (Khanna, 2003). One of them, known as Sri Yantra, is also a complex of inverted triangles, with a Star of David as its core. It too has been given an esoteric interpretation: There are two principles in the universe, the experiencing and the experienced, known as purusha and prakriti. The upright triangle is interpreted as representing the perceiving Principle of the Universe, and the inverted one stands for the Perceived Universe. Their union is the basis for the wheel of time: the emergence of the phenomenal world. Thus a star symbol contains in its essence the whole experienced Cosmos. The Sri Yantra is also taken as symbolizing the Shiva-Shakti (Cosmos-Energy) principle. ## The Christian World An important role that a star are said to have played on the event of the birth of Christ may be traced to the New Testament where we read (Matthew, 2:9): "...the star, which they saw in the east, went before them, till it came and stood over where the young child was." That star is the famous Star of Bethlehem. Whether this was a conjunction of Mars and Jupiter, a nova perhaps, or just a comet or meteor, we cannot be quite sure. In any case, it came to be believed that a star guided the wise men to Bethlehem, and from this arose the tradition of a putting a star on the top of the Christmas tree. In the fourteenth century Giotto's painting of the Adoration of the Magi, it is shown as a huge comet. Giotto is said to have seen the 1301 appearance of Halley's comet. Without going into all the complicated history, we may say this: In the political turmoil in France in the 1850s Napoleon III wanted the key to the Church of the Nativity in the old city of Jerusalem and the right to place a silver star of Bethlehem on Christ's birthplace. The French threatened military action if Turkey (which controlled the region then) did not give way, and the Russians threatened to occupy Moldavia and Wallachia if it did. In was in this context that the French sent the warship Charlemagne to Constantinople and the Crimean War started (Royle, 2000). One may say that by a strange play of circumstances, the Star of Bethlehem also caused the Crimean War. ## The Holy Qur'an It says in the Holy Koran (S.xxiv.35.Sec.5): "God is the Light Of the heaven and the earth" And the book lists the stars among the Signs of God (S.vi.C79). The "the word 'star' appears thirteen times in the Quran (najm, plural nujum)." In the Islamic tradition, the crescent and the star stand for peace and life. There are conflicting theories about how the crescent came to be in the flags of Islamic countries (Babinger, 1992) but these need not concern us here. The presence of star and crescent in another aspect of culture and civilization is what is to be noted here. ## Esoteric Dimensions Plato and Aristotle believed that stars were composed of a different element from the usual four of earth, water, fire, and air: ethereal matter. The human psyche was believed to be made of this fifth element. In his commentaries on Plato's Timaeus, the Greek Neo-Platonist philosopher of the fifth century Proclus wrote: "Man is a little world (mikros cosmos). For, just like the Whole, he possesses both mind and reason, both a divine and a mortal body. He is also divided up according to the universe. It is for this reason, you know, that some are accustomed to say that his consciousness corresponds with the nature of the fixed stars, his reason in its contemplative aspect with Saturn and in its social aspect with Jupiter, (and) as to his irrational part, the passionate nature with Mars, the eloquent with Mercury, the appetitive with Venus, the sensitive with the Sun and the vegetative with the Moon" (Baltzly, 2006). Since ancient times mysticism and metaphysics have combined to produce a vast and powerful system in human culture where stars play a role. According to theosophy, there are seven distinct planes of existence for humans: physical, astral, mental, intuitional, spiritual, monadic, and divine. Each one of us supposed to have an astral body which is made up of self-luminous matter of a subtle kind. In this framework, we move into the astral plane when we are asleep. Our thoughts are also believed to exist in the astral plane (Leadbeater, 1902). ## Mythology In some mythologies the great and the good of the world eventually became the stars in the heavens. Stars and constellations are identified as this or that great personage who, by virtue of commendable qualities, was transported to the skies, there to shine for all times. In Hindu sacred history, for example, the Pole Star is the "stellification" of a great devotee of the Divine by the name of Dhruva who spent years in asceticism (Wilson, 2006). The seven wise men of the tradition (saptarshi) became the stars of the constellation Ursa major. The Greeks did this too. So we have the hunter Orion and the Titan Hercules up there in the skies. There are a hundred interesting stories pertaining to the stars and the constellations viewed as mythological personages of various cultural traditions (Bulfinch, 1993). Some cultures, like the Eskimo, believed that stars are our ancestors. It is said that according to some Inuit Indians the Northern lights show their near and dear ones dancing in another life. There is an Eskimo saying to the effect that what see as stars may well be holes in heaven through which the love of our departed souls are pouring down upon us, just to inform us that they are happy up there. Practically every culture of humankind created its own stories about stars (Olcott, 1911). Here it is interesting to note how drastically our beliefs have changed in modern times. The ancients believed that stars were made of human-dust. Today we say that humans are made of star-dust. The Milky Way was the most sacred river for Hindus. They called it Âkash Ganga (the Celestial Ganga). The Akkadians described it as the Hid In-ni-na: The River of the Divine Lady; for the Chinese it was Tien-Ho: the Celestial River; and the Arabs referred to it simply as Al Nahr: the River. (Allen, 1963) But in modern times too poets have imagined our galaxy in such terms. Thus Joyce Kilmer wrote (Main street): > God be thanked for the Milky Way that runs across the sky. > > That's the path that my feet would tread whenever I have to die. > > Some folks call it a Silver Sword, and some a Pearly Crown. > > But the only thing I think it is, is Main Street, Heaventown. ## Stars and Music Jane Taylor's simple lines "Twinkle, twinkle little star, how I wonder what you are!" put in a nutshell the feelings of the astrophysicist. Hindu thinkers recognized cosmic vibration in their serene and sacred chant of Aum. One exponent of the idea puts it this way: "The entire universe, from its subtlest to grossest manifestations, exists as vibration. This Indian scriptures name this cosmic vibration aum. Were aum, the cosmic vibration, to be stilled, appearances would cease to exist, and even the consciousness of them would sink back into the still ocean of the spirit from which they emerged (Kriyananda, 1998, p. 99). Pythagoras spoke of the Music of the Spheres, an idea that lingered on until Kepler's time and beyond (James, 1993). The Book of Job declares (xxxviii.7): "When the morning stars sang together, and all the sons of God shouted for joy." bodies have also been evoked in many popular songs. People of a certain generation in America used to listen to songs like Stardust, Don't Let the Stars Get into your Eyes, and Don't Let the Moon Break your Heart, When the Moon hits your eye like a big pizza pie, to name just a few. But long before these, we recall, Debussy's Au Claire de la Lune and Beethoven's Mondschein Sonata had used astronomy-related music titles. ## Poetry The sight of the moon and the stars, their regularity and brilliance, their apparent steadfastness and unreachable distance, have always impressed the human mind, and we find a myriad expressions of this in the poetry and prose of the world. In English, poets from Arnold to Yeats, have mentioned the sun, the moon, and the stars in a thousand poems, and used them as similes or metaphors. Dante's magnum opus La Divina Commedia is a voyage through the stellar regions. The word stella (star) appears 59 times in that work. At one point, Dante makes an astronomically significant statement (18.19): "e quale stella par quinci piu poca, parrebbe luna, locata con esso come stella con stella si colloca: and any star that, seen from earth, would seem to be the smallest, set beside that point, as star conjoined with star, would seem a moon. Shelly spoke of "soul of Adonis, (which) like a star beacons from the abode where the Eternal are." And he wrote in Queen Meb (V) (Hutchinson, 1914): > Flowers of the sky! Ye too to age must yield. > > The stars are mansions built by Nature's hand. > > Heaven's ebon vault Studded with stars unutterably bright. > > God be thanked for the Milky Way that runs across the sky, > > That's the path my feet would take whenever I have to die. > > A wise man, watching the stars pass across the sky, said: > > In the upper air the fireflies move more slowly. Shakespeare seems to have been particularly fond of making allusions to stars. In King Henry IV and in Othello, in A Midsummer Night's Dream and in All's Well That Ends Well, there are other references to stars also. Reflecting the general belief in astrology in those times, he referred Romeo and Juliet as "a pair of star-crossed lovers." Hamlet declares to Ophelia, "Doubt thou the stars are fire; doubt thou the sun doth move, doubt truth to be a liar; but never doubt I love." Julius Caesar, clearly unaware of the precession of the equinoxes, compares himself to the Pole star when he says, "But I am constant as the northern star, of whose true fixed and resting quality, there is no fellow in the firmament." We can't blame or Caesar Hamlet for ignoring proper motions, but in the nineteenth century, John Keats wrote a poem entitled "Bright star, would I were steadfast as thou art!" ## The Pleiades The Pleiades constellation attracted the attention of all ancient cultures. A bronze disk, dated as 1600 BCE, from Nebra, Germany, is said to be one of the oldest known representations of the cosmos (Kaufholtz, 2004). In Greek mythology, Pleiades were the seven daughters of Atlas, the Titan and the sea-nymph Pleione. Hesiod's Work and Days mentions the Pleaides: "And if longing seizes you for sailing the stormy seas, When the Pleiades flee mighty Orion And plunge into the misty deep And all the gusty winds are raging, Then do not keep your ship on the wine-dark sea But, as I bid you, remember to work the land" (West, 1978). Virgil says the name is derived from πλɛ ✓√ ν (to sail), because the Pleiades star cluster is visible in the Mediterranean at night during the summer, from the middle of May until the beginning of November, which coincided with the sailing season in antiquity (Knox, 2006, p. 119). The Pleiades are mentioned in the Bible. In the Book of Job (38:31) we read: "Cans't thou bind the sweet influences of Pleiades or lose the bands of Orion?" We also read here, "What is meant by Kimah [Pleiades]? Samuel said: About a hundred stars" (Job IX, 9). Some scholars believe that The Qur'an probably refers to them (Al Thuraiyya) when it speaks of the star. In Persian they are known as Sorayya. In Hindu mythology the Pleiades are known as Krittika, or Karttikai, and refer to the six-faced Shanmukan, a son of Lord Shiva. There is a long and fascinating myth associated with it (Harness, 1999). In the seventeenth century a group of seven French writers described themselves as forming La Pleiade, taking inspiration from the name of a similar group of writers in ancient Greece, the bulk of whose work was lost in the destruction of the Great Library of Alexandria in 642 AD. The aim of the French Pleaiade was to break away from the medieval poetic tradition and to enrich French with a literature equal to those of the classical world and the Italian Renaissance. It has given the name to a prestigious publishing house that brings out leather-bound editions of masterpieces of French literature (Simonin, 2001). The Japanese car Subaru literally means the Pleiades star group. It is said that in 1953 five Japanese companies merged to form the Fuji Heavy Industries Ltd, and called themselves Subaru. ## Vocabulary Languages have been enriched by stars. In English, for example, there are at least a dozen different meanings to the word star: It is, first and foremost, a heavenly body. But any flat figure with projecting points that looks like a star, is also referred to as such: an asterisk (which literally means a little star), for example. Glass blowers refer to a crack or flaw in a glass as a star. In the pyrotechnics of celebrations one speaks of stars: tiny brilliant sparks, beautiful at a distance. In zoology one refers to a spot that is brighter than the surrounding region on the forehead of an animal as a star, and so on. Countless other things are described by the prefix star. Thus we speak of star flower, starfish, star gauge, star grass, star fruit, star jelly, star finch, star stone (sapphire), star witness, star shake (defect in a timber), star nose (a mole), and star throat (a hummingbird of South America). There is a tree called star of night, and a plant known as star of the earth, and another plant (of the Daisy family) which is commonly called goat's beard, is also known as star of Jerusalem. We refer to a person who excels in something as a star. This idea is ingrained in us right from childhood. Then there some who are named a star, although the name is taken from Latin or Greek, because that is exactly what the names, Astor, Stella, Stern and Cidra mean. English has three adjectives for star: starry, stellar, and astral. The school teacher in Kindergarten affixes a star to a good work done a student. In the adult world we rate hotels and restaurants by stars, and honor generals by affixing stars to their uniforms. People have been called stars not simply for doing exceedingly well in particular fields, but more specifically for performing very well on the stage or the movie screen. Planetary names which were derived from mythology have come back to earth as names for some chemical elements: Thus selenium is named after the moon, uranium, neptunium, and plutonium after distant planets, while helium is named after the sun. ## Impact of Astrology Until the rise of modern science, there was essentially no difference between an astronomer and an astrologer. Ptolemy of Almagest fame, Varahamihira who wrote the Pancha-Siddhantika, a treatise on the five astronomical canons, and Johannes Kepler of elliptical planetary orbits fame, were as much astrologers as astronomers. They all wrote on stars and on horoscopes as well. And through its elaborate framework astrology has played no small a role in human culture and civilization. In ancient China and India, in Egypt and Mesopotamia, in Greece and Rome, in Medieval Europe and down to our own times, astrological convictions have fashioned the minds and behavior of countless numbers of people and potentates. Plato, Aristotle, Julius Caesar, Copernicus, in the Western tradition, and many such prestigious names in China and India and other civilizations were convinced that celestial motions subtly influenced the fortunes and fates of people, and comets forebode disasters (Beck, 2007). Words like aspect and conjunction were originally astrological terms. Disaster signified something bad due to a star's influence. Light years away, lunatic, jovial, martial, saturnine, and venereal are all derived directly from the names of planets. ## Political Flags are symbols of a country. Beginning in China and India they have been there since ancient times, A resolution passed by the Congress of the United States in 1777 stated that the flag of the nation should have 13 stars, without specifying how these were to be arranged. The United States was thus the first to put stars in its flag. Today, more than forty countries have one or more stars on their flags (Crampton, 1994). The oldest extant flag is that of Denmark, dating back to the fourteenth century. There are several theories to explain its origin. One is the following: It is said that during a battle fought somewhere in Estonia in 1219, when it was very bad for the Danes, a flag came down from the skies, and it had a white cross. The king grabbed it and waved it to inspire his people, and his army was victorious. According to another theory, King Vlademar, the Victorious, of Denmark once saw a white cross in the red sky at the close of that same battle. This is the origin of the Danish flag (Lund, 1919). Paris has its Place d'Étoile, a large meeting point of twelve straight avenues including the famous Champs-Élysees. It came to be called Place Charles de Gaulle in 1970, but still people refer to it by its original name. The Arc de Triomphe de l'Étoile was constructed in the first half of the nineteenth century to commemorate the victory of Napoleon I (Charensol, 1957, p. 190). On the other hand, the notorious Star Chamber was a cruel court. Begun in the fifteenth century under Henry VII of England there was no justice there as we understand the term. Star Chamber has come to mean any ruthless corrupt court. It got its name because of the stars that were painted on its ceilings (Crimes, 1972). ## Stars in Art From the most ancient times stars have been drawn and painted in a hundred different contexts and in a thousand different ways. There is a twelfth century drawing entitled The War of the Angels wherein earth is separated from heaven and hell by a circle of stars. A fourteenth century fresco in Clermont Ferrand, entitled the Martyrdom of St. George, has figures of stars in it. Such representations were not uncommon. More specifically, some painters have given their works astronomy-sounding names also. Thus we have Van Gogh's Starry Night and Jackson Pollack's The Big Dipper. AndreMasson's Genesis I attempts to convey through art what astrophysicists say, for it displays a chaotic motion symbolizing the formation of stars. The Hungarian painter Tivadar Kosztka's Ruins of the Jupiter Temple in Athens has a huge moon on it. One scholar has suggested that some of the pre-historic cave paintings of Lascaux probably represented constellations like the Taurus (Whitehouse, 2000). In a painting entitled Die Menschen werden nichts davon wissen (Men will know nothing about it) by Max Ernst a yellow crescent holds a small black pipe with two thin threads. An incomplete sun is divided up into two parts, one blue and one black. There are two outstretched lags just below the crescent. A severed hand is covering the earth. Several phases of the moon are shown in its orbit. There is a surrealist symmetry in the whole paining. ## Stars and Humor Stars have also inspired many light-hearted quips and jokes. For example, when someone described the Big Bang as "That Point In Time When the Volume of the Universe Decreases to Approximately Zero, and Density Approaches Infinity, and the Combination of the Strong Nuclear Force and Electromagnetic Attraction Between Red and Blue Quarks..." his friend interrupted him and asked for shorter names. So he got: The Best Of Times, The First Of Times - The Grand Opening Sale - *Pop* Goes Existence! - Time, Space & Energy Factory Outlet Sale - The Colossal Kaboom - Let There Be Stuff- I Blew Up the Cosmic Egg - "Oops!" - What the heck was THAT!!!? - Stupendous Space Spawning (Angelo, http://www.angelo.edu/faculty/kboudrea/cheap/cheap4_physics.htm). ## Concluding These are just a few of the hundreds of ways in which stars have seeped into human culture. Though never visible in broad daylight, and few people today spend much time in getting to know the changing topography of the skies and the patterns by which star groups have been recognized since ancient times, as seen in the examples given, stars have been there in every twist and turn of our cultural, historical, and traditional life: in art and poetry, in language and literature, in metaphors and as national symbols too. We have seen too often that scientific results which are acclaimed as truths today may be demoted to an interesting footnote a few centuries from now. Aristotle's theory of celestial matter, Ptolemy's cycles and epicycles, the circular planetary orbits of Copernicus Emanuel Swedenborg's nebular hypothesis and its modification by Immanuel Kant, and such have all gone followed the fate of changing theories. Barely two centuries ago the radius of the universe was reckoned as but a few thousand kilometers, and in 1820 astronomers thought and taught that the universe was a hefty 6,000 years old. What lasts for much longer spans in history are the insights and visions and errors and symbols and praxis that have provoked the human mind and heart. These are reflected in art and music and poetry and philosophy and myths. These cultural expressions are the lasting legacy of humankind. I have mentioned here but a few instances of such that have sprung from astronomy. Acknowledgment It is a pleasure to be at this conference in the beautiful city of Budapest in the land of Lorand Eotvos, Neumann Janos Lajos, Wigner Pal Jenő, Teller Ede, and Szilard Leo, and in the midst of this august assembly of astronomers and scholars. I wish to thank Professor Grandpierre Atilla for this privilege. References Allen, Richard Hinckley. 1963. Star names, their lore and meaning. New York: Dover. Angelo, http://www.angelo.edu/faculty/kboudrea/cheap/cheap4_physics.htm Babinger, Franz. 1992. In Mehmed the conqueror and his time, ed. Hickman, William C. Princeton, NJ: Princeton University Press. Baltzly, Dirk. 2006. Proclus: Commentary on Plato's Timaeus, vol. 3, Book 3. Cambridge: Cambridge University Press. Beck, Roger. 2007. A brief history of ancient astrology. New York: Blackwell.CrossRef Bulfinch, Thomas. 1993. Bulfinch's mythology. New York: The Modern Library. Charensol, Georges. 1957. Le livre de Paris. Paris: Ars et Metiers Graphiques. Crampton, William G. 1994. The world of flags. New York: Rand McNally. Crimes, S.B. 1972. Henry VII. Berkeley: University of California Press. Dalley, Stephanie M. 1989. Myths from Mesopotamia. New York: Oxford University Press. Gleadow, Rupert. 2001. The origin of the zodiac. New York: Dover. Harness, Dennis M. 1999. The nakshatras: The lunar mansions of vedic astrology. Twin Lakes, WI: Lotus Press. Hutchinson, Thomas. 1914. The Complete poetical works of Percy Bysshe Shelley. Oxford: Oxford University Press. James, Jamie. 1993. The music of the spheres: Music, science, and the natural order of the universe. New York: Grove Press. Kak, Subhash, "Babylonian and Indian Astronomy: Early Connections," History of Science, Philosophy & Culture in Indian Civilization, vol. 1, part 4 (A Golden Chain, G.C. Pande, ed.), 2005. Kaufholz, Ute. 2004. Sonne, Mond und Sterne. Das Geheimnis der Himmelsscheibe. Anderbeck, Anderbeck. Khanna, Madhu. 2003. Yantra: The tantric symbol of cosmic unity. Rochester, VT: Inner Traditions International, Ltd. Knox, Peter E. 2006. Oxford readings in Ovid. Oxford: Oxford University Press. Kriyananda, Swami (J. Donald Walters). 1998. The Hindu way of awakening: Its revelation, its symbol, an essential view of religion. Nevada City: Crystal Clarity Publishers. Leadbeater, C.W. 1902. Man, visible and invisible. London: Theosophical Publishing House. Lund, E.D. 1919. Danebrog - Danmarks Palladium. Copenhagen: Forlaget H. Hagerups. Marriam-Webster. 1995. The Merriam-Webster New Book of Word Histories by Merriam. Springfield: Marriam-Webster. Olcott, William Tyler. 1911. Star lore of all ages: A collection of myths, legends, and facts concerning the constellations of the northern hemisphere. London: G.P. Putnam's Sons. Plaut, Gunther W. 1990. The Magen David: How the six-poined star became an emblem for the Jewish people. New York: B'nai B'rith International Commission on Continuing Jewish Education. Pratt, John P. 2006. Enoch's constellations testify of Christ. Meridian Magazine, 23 August. Raman, V.V. 1999. Glimpses of ancient science and scientists. Philadelphia: Xlibris. Ritner, Robert K. 1997. Ancient Egypt. Oxford: Oxford University Press. Royle, Trevor. 2000. Crimea: The great Crimean war, 1854-1856. New York: Palgrave Macmillan. Sarton, George. 1970. A history of science. New York: W. W. Norton and Co. Simonin, Michel, ed.. 2001. Dictionnaire des lettres françaises - Le XVIe siecle. Paris: Fayard. van der Waerden, B.L. 1953. History of the zodiac. Archiv fur Orientforschung 16. West, Martin Litchfield (Trans.), (1978). Hesiod works & days. Oxford: Oxford University Press. Whiston, William. 1822. The works of Flavius Josephus. London: J. Richardson & Co. Whitehouse, David. 2000. Ice age star map discovered. BBC, August 9. Whitman, Walt. 1981. Leaves of grass. New York: Bentam Classics. Whitman, Walter, Leaves of grass (7th poem in Chapter On the Roadside). Wilson, H.H. 2006. The Vishnu Purana: A system of Hindu mythology and tradition. Cambridge: Read Country Books. Anna-Teresa Tymieniecka and Attila Grandpierre (eds.)Analecta HusserlianaThe Yearbook of Phenomenological ResearchAstronomy and Civilization in the New EnlightenmentPassions of the Skies10.1007/978-90-481-9748-4_17(C) Springer Science+Business Media B.V. 2011 # The Contribution Of Musical Theory To An Ancient Chinese Concept Of The Universe Alice Williamson1 (1) Centre for Astrophysics Research, The University of Hertfordshire, Hatfield, UK Alice Williamson Email: lacie@cantab.net Abstract In early Chinese thought music and music-related concepts formed key elements to the way in which the cosmos was envisaged and written about. This paper unfolds how passages of late Zhou and early Han documents such as the Lushi Chunqiu, Huainanzi, Xunzi and Yue Ji cross over, in their implied symbolic concepts and use of language, between musical theory and cosmology - from the correlation of positions of stars with musical tones, to the use of cosmological symbols to describe music, and vice versa. Why was there this cross over? Did this use of music provide a "more complete" picture of the Universe for the Chinese, or were there other, political reasons behind it? The paper expands on these key questions through analysis of the texts, and goes on to ask whether this research into, and material of ancient China can shed any light on the modern, western view of interdisciplinarity between sciences and the arts. In this paper I discuss the use of ancient Chinese musical theory within their concept of the cosmos and its systems and processes, covering both the mathematics of musical harmonics as well as the way in which early Chinese scholars wrote about music and the universe. I refer here to four key ancient texts from my period: The Lushi Chunqiu; the writings of Xunzi; the Yue Ji (Record of Music); and the Huainanzi. After this discussion I consider why these crossovers existed, and more generally, whether such correlative cosmology from the ancient period could inform us today. ## How Did the Ancient Chinese Approach Musical Harmonics? From a variety of sources we know that the system of harmonics as realised by ancient Chinese calculations was very similar to that of the ancient Greeks, among others. Through a process of adding or taking away one third of a pipe length, twelve musical tones were generated - which effectively correspond to the twelve chromatic tones of modern Western music. In "The Treatise on the Patterns of Heaven" in the Huainanzi, Section XXIX ("Harmonics of the Twelve Pitch Pipes") lists, with numbers that designate pitch pipe lengths, these twelve tones, and how they generate one another. Figure 1 summarises this harmonic series. Using the same designations of John S. Major2 I have applied equivalent Western pitches to the Chinese pitch names, to show how this works - such as Yellow Bell being C or "Do" and so on. The end of this passage in the Huainanzi explains that "descending" implies multiplying the previous pipe's number by 2/3 and that "ascending" indicates multiplying the pipe's number by 4/3.3 As I said, this is very similar to the ancient Greek method of using simple ratios such as 2:3 to determine harmonic musical tuning. Figure 1. Summary of Huainanzi's harmonic calculations from section XXIX1 of Tianwen ## Application of Harmonic Series to Cosmic Cycles So did this cyclic generation of musical harmony feed into cosmology? The "Treatise of Heavenly Patterns" contains reams of correlations - between seasons, planets, materials, musical tones, colours and so on - often equated to the wuxing philosophy of 5 cyclic generative and destructive phases in nature. In Section XVIII, on "The Solar Nodes", the year is split into 24 nodes of about 15 days each. It outlines: the seasonal change at each of these nodes; where the handle of the Plough constellation will be pointing; and finally, a musical pitch. Figure 2 shows the time of year and its resonating musical pitch. It starts and ends on the winter solstice, which is assigned the pitch "Yellow Bell" - as before I've this called "C". Every 15 days this pitch drops by one semitone, until the summer solstice, where Yellow Bell is reached again. From here the pitch rises by a semitone every 15 days until the next winter solstice, from where the process repeats ad infinitum. Major refers to Bodde5 in saying that this is not simply a case of assigning notes to the 24 nodes, but also due to the belief that the qi - energy of the seasonal nodes would resonate to these tones. Figure 2. Summary of pitch correlations in Section XVIII, "The Solar Nodes" 4 of Tianwen in the Huainanzi Similarly, Section XXVII6 on "The indications of the Handle of the Plough", goes through a chromatic scale - however this time following monthly movements of the handle of the Plough; thus a yearly cycle in 12 parts, moving upwards chromatically - by semitone - from pitch "Great Budding" (D) to pitch "Great Resonator" (C#). In Book 6 of The Lushi Chunqiu there is a monthly cycle very similar to this. Prior to outlining the cycle, it explains that, "In the age of the great sages and perfect order, the ethers of Heaven and Earth combine to generate the winds. At the summer solstice, the moon gathered the monthly winds in order to generate the twelve pitch standards."7 ## Literary Correlations Having dealt with some of the more technical aspects of (Chinese) music theory and its role in correlative cosmology, one can approach the more rhapsodic correspondences made within the Chinese classic texts bearing in mind the theoretical background. ### XUNZI In the ancient text ascribed to the philosopher Xunzi, music is discussed at some length, and referred to in a cosmological sense. As Masayuki Sato states: > Xunzi considered music itself to be the manifestation of order which has been maintained without fail in the motion of Heaven and the procreation of Earth. Xunzi associates the harmony attained by music with that by Heaven and Earth. > > --Sato, The Confucian Quest for Order 8 A passage from Xunzi's "Discussion of Music" explicitly outlining this manifestation through symbology goes as follows: > The drum resembles heaven, while the bells resemble earth, the sounding stones resemble water, the mouth organs and lutes resemble the sun, and the scrapers resemble the myriad beings of creation. > > --Xunzi, "Discussion of Music" 9 This appears to correlate the hierarchical structure of instruments within an ensemble to the parts of the cosmos; as though the constant beating of the drum drives the ensemble just as the unalterable heaven and its unstoppable flow of time drive all within its universe. This symbolic portrayal of a musical ensemble as all within Heaven and Earth is only a small part of how Xunzi uses music to build a picture of the universe. Earlier in the "Discussion of Music", music is heralded as being able to unify, harmonise within not only the people but earth, heaven and form itself: > Music brings about complete unity and induces harmony. It arranges its accouterments to comprise an adornment to moderation; it blends its performance to achieve the completion of form. It is sufficient to lead men in the single Way or to bring order to the ten thousand changes... hence music is the arbiter of the world, the key to central harmony. > > --Xunzi, "Discussion of Music"10 Also importantly, the fact that music changes over time is correlated to Earth's cycles: "the purity of his [the gentleman's] music is modelled after Heaven, its breadth after the Earth, and its posturings and turnings imitate the four seasons".11 ### LÜShi Chunqiu The Lushi Chunqiu also refers to music in explicit relation to Heaven and Earth: "As a general principle, music is the harmony between Heaven and Earth, and the perfect blend of Yin and Yang."12 This can be tied in well to the cycles of harmonics in the Huainanzi with an earlier statement in the same chapter: "Heaven and Earth turn like the wheel of a carriage. Reaching the end, it begins again, reaching its limit, it reverts again, everything fitting the overall scheme." 13 Soon after this we also find reference to music's sound being generated by form and hollow spaces, suggesting perhaps the unalterable quality of the harmonies of music and sound: "Shapes and forms have their (hollow) places, so none is without its sound. Sound is produced from harmony. Harmony is produced from being fitting."14 ### Yue JI The last ancient text I'd like to briefly delve into is the Yue Ji - the "Record of Music". As in the Lushi Chunqiu: "Music is the harmony of Heaven and Earth... Music is created from Heaven."15 Scholars Cook and Zheng Xuan say that this statement "should be taken in the sense that music operates under the same principles of harmony that is found in the natural world, taking it as its model."16 This passage from the "Music and Ritual" section of the Yue Ji illustrates this with dramatic imagery: > Earth's energy (qi) rises up, and Heaven's energy descends. Yin and Yang rub against each other, and Heaven and Earth shake each other. The myriad things are drummed with thunder and lightning, aroused forth with wind and rain, set in motion by the four seasons, warmed by the sun and the moon, and the hundred transformations arise therein. In this way, then, is music the harmony of Heaven and Earth. > > --Yue Ji, "Music and Ritual", 3.417 This is clearly indicative of the oscillating, cycling, vibrating qualities of music being the same as those of the universe. ## Summary So, to quickly summarise, the paper has so far examined: * The cyclical, self-generative nature of musical harmonics feeding into the cyclical processes of Heaven and Earth; * The concept of music being or manifesting the "harmony" or unity between Heaven and Earth - a human expression rooted in the fact that physical form and energy itself produces the basis of musical harmony. ## Why Did These Correlations Exist? Of course, as we are all aware, most, if not all, cultures have made and do make such correlations: it is the instinctive nature of the human mind to make associations and form symbols in order to make sense of the vast amount of information around us. Music does have a special place in this, however. It is a very human expression, indeed uniquely human. However the very harmonies we find to be pleasing and expressive are generated from the physics of form and vibration - from the mathematics of the origins of life and the universe itself. Just as Pythagoras associated music with the eternal, imperishable concept of number, so the Chinese recognised the unalterable nature of music's harmonies - "Music is something of which its nature cannot be changed" - which equates to the unchangeable, ungovernable forces of heaven. So, music exemplifies the cosmos itself at the same time as being born from human emotion; or as Michael Puett puts it, "[Music] is based on the generative process of nature, and yet it is one means humans have to regulate nature (Puett, 2002)." ## Political Power and the Unity of Society Political power is never far from any discussion of Chinese thought or history. The same goes here - both music and astronomy (or astrology) were seen to be key to order and control in power and society. Music being connected so strongly to Heaven deepened its role. As Puett says: " Music is the most perfect method of bringing order to men as music embodies harmonies that can never be altered... Music joins together what is common to all." As opens the second chapter (Yue lun, "The Discourse of Music") of the Yue Ji: "Music serves to unite".19 Further, Puett suggests that, for the ancient Chinese, > Power and knowledge are... to be gained by understanding and subordinating oneself to the pattern of the cosmos. The cosmos is... seen as following a normative pattern discernible by those who know how to understand it. > > --Michael Puett, To become a god 20 As music is modelled on these patterns of the cosmos, could power and knowledge be gained by understanding music? ## Correlative Cosmology More generally, we can see correlative cosmology as a way, perhaps, of instructing modes of thought and approach to life - making people understand and realise, for example, the ultimately cyclic, generative nature of the universe, of humanity - showing that this exists in Heaven and beauty as well as our humble day-to-day routines. Also, to remind society that everything effects everything else. As Colin Ronan says of ancient Chinese astronomy, "the Earth, its emperor, and the entire cosmos were all part of a gigantic organism (Ronan, 1996)." ## Correlative Cosmology Today...? To end I will leave you with two statements - one modern, one ancient, both of which sum up my own feelings, and no doubt yours, on the matter of how correlative, holistic views of the ancients can inform our increasingly fragmented academic society. First, Geoffrey Lloyd in his book, Ancient Worlds, Modern Reflections: > One can learn more about the parochial quality of some of our most cherished assumptions... the strangeness of ancient ideas can be turned to advantage... the ancients can, and should be use as a resource for a new understanding of the world, of the capacity of humans to understand, and of ourselves. > > --Geoffrey Lloyd, Ancient Worlds, Modern Reflections (Lloyd, 2004) And lastly, the very first line from Xunzi's chapter on "Dispelling Obsession": "The thing that all men should fear is that they will become obsessed by a small corner of truth and fail to comprehend its over-all principles." 21 ## Notes 1 Using John S. Major's translation and chapterisation of the Huainanzi in Major (1993) 2 In Major, ibid. 3 See points 38 and 39 under Section XXIX in Major, op. cit., p. 114 4 See Major, op. cit., pp. 88-92 5 Major, op. cit., p. 92 6 Major, op. cit., pp. 106-108 7 Lushi Chunqiu 6/2.2; see Knobloch and Riegel (2000) 8 Masayuki Sato, The Confucian Quest for Order: The Origin and Formation of the Political Thought of Xun Zi (BRILL 2003), p. 367 9 See Watson's translation (1996) 10 Watson, op. cit., pp. 113-114 11 Watson, op.cit., p. 116 12 Knobloch and Riegel, op. cit., p. 138 13 Knobloch and Riegel, op. cit., p.136 14 Lushi Chunqiu: Da Yue, 5/2.1, adapted from the translation of Knobloch and Riegel, op. cit., p. 137 15 Yue Ji 2.5. See Scott Cook's translation: 'Yue Ji: Introduction, Translation, Notes, and Commentary', Asian Music, Spring/Summer 1995, p. 46 16 Cook, op. cit., p. 46 17 Cook, op. cit., p. 53 18 From Yue Ji 7.1 - Cook, op. cit., p. 60 19 Cook, op. cit., p. 42 20 Puett, op. cit., p. 163 21 Watson, op. cit., p.121 References Knobloch, John, and Jeffrey Riegel. 2000. The Annals of Lu Bewei: A complete translation and study. Stanford: Stanford University Press, 157. Lloyd, G.E.R. 2004. Ancient worlds, modern reflections: Philosophical perspectives on Greek and Chinese science and culture. Oxford: Oxford University Press, 11. Major, John S. 1993. Heaven and Earth in early Han thought. Albany: State University of New York. Puett, Michael. 2002. To become a god: Cosmology, sacrifice, and self-divinization in Early China. Harvard-Yenching Monograph series. Cambridge: Harvard Asia Centre, Harvard University Press, 175. Ronan, C. 1996. Astronomy in China, Korea, and Japan. In Astronomy before the telescope, ed. Walker, C., 245-268. London: British Museum Press. Watson, Burton. 1996. Hsun Tzu: Basic writings. New York: Columbia University Press, 118. Anna-Teresa Tymieniecka and Attila Grandpierre (eds.)Analecta HusserlianaThe Yearbook of Phenomenological ResearchAstronomy and Civilization in the New EnlightenmentPassions of the Skies10.1007/978-90-481-9748-4_18(C) Springer Science+Business Media B.V. 2011 # Cosmopolis: How Astronomy Affects Philosophies of Human Nature and Religion Nancey Murphy1 (1) Fuller Graduate Schools, Pasadena, CA, USA Nancey Murphy Email: nmurphy@fuller.edu Abstract It is often said that Copernican astronomy had a significant effect on humankind's self-understanding by displacing us from the center of the universe. I claim that the effect was much more dramatic, but indirect - through the necessary rejection of Aristotelian physics. Humans had been understood since the late middle ages in a holistic-dualist manner: their souls were the immanent forms of their bodies. Reject Aristotelian hylomorphism in favor of the corpuscular physics of Galileo and others, and human nature had to be reconceived. Descartes retrieved a radical Platonic dualism, which, I argue, has had deleterious effects on modern western religion, and through the church, on all of western society. The good news is that now philosophy, Christian theology, and science (largely neuroscience, but not unrelated to astronomy) are together creating a new "nonreductive physicalist" account of human nature, with important implications for ethics and politics - a new cosmo-political synthesis. ## Introduction The theme of the conference for which this chapter was written was stated as follows: "The level of knowledge attained in all ages has been determined by the generally accepted theory of the universe." My title, "Cosmopolis," borrows a term from philosopher of science Stephen Toulmin, who has a book by that same name (Toulmin, 1990). Toulmin uses "Cosmopolis" to refer to worldviews in which the political order was believed to mirror the order of the cosmos itself. Examples of this were found in ancient China, Babylonia, and Classical Greece. Of course, the mediaeval synthesis was also such an order. Toulmin's narrative focuses on the modern period. He first documents the perception, shared by many Europeans during the tumultuous seventeenth century, that their Cosmopolis was falling apart. He then describes the optimistic project of creating a new political system, rationally ordered in correspondence with the Newtonian cosmos. An intervening link between cosmos and polis is a theory of human nature that is consistent with both the natural and social orders. This will be the focus of my chapter. I shall argue that the Copernican revolution created a crisis by displacing the Aristotelian physics that had provided basic concepts for understanding human nature since the High Middle Ages. I shall mention briefly the difficulties faced by major modern attempts to understand humans in light of the new physics, and some of the negative cultural and religious consequences of these failed theories. This history will be familiar to many. The major thesis of my chapter is that it is only now, in this generation, that we have the resources for a new account of the human person; this account is most commonly called "nonreductive physicalism." I argue that it provides a harmonious link between the natural sciences on one side and the humanities on the other. ## Human Nature Before The Copernican Revolution In the thirteenth century, Thomas Aquinas and others synthesized Aristotelian philosophy with Christian theology. They developed an account of human nature using Aristotle's categories of matter and form. The immanent form in all material things was what gave them their essential characteristics and operative powers. Transmission of the form in reproduction insured that living things produce their own kinds. The forms of living things are also called souls. Plants, animals, and humans have nutritive, sensitive, and rational souls, respectively. There is no mystery here about the relation of soul to body: bodies just are the kinds of things with the potential to be animated and activated by their souls. While there were some theological problems with this view (mainly the problem of life after death) it was a stable concept of human nature because of its intrinsic ties to the astronomy and other sciences of its day. It remained the predominant view of human nature through the Renaissance. Because one of the questions to be addressed in this book concerns the role of art, it is appropriate to mention here the importance of Dante's writings. I quote historians Raymond Martin and John Barresi: "Aquinas's Summa Theologica is generally considered the greatest synthesis of philosophy and theology in the High Middle Ages. But it is dry as dust, even in its account of such potentially juicy topics as the afterlife. It took Dante Alighieri... , in the Divine Comedy, to depict poetically the implications of Aquinas's view and thereby to nourish the imaginations of educated Christians" (Martin and Barresi, 2006). By Copernicus's day, however, there were alternatives to the Aristotelian tradition. In later Renaissance thought there was a revival of Platonism in Italy, including a Neoplatonic conception of body and immortal soul. There were also speculative philosophies such as those of Paracelsus and Giordano Bruno, all with their own accounts of human nature. Paracelsus ascribed to humans two kinds of bodies, one of flesh and one an astral body made of subtle material. The astral body alone rises after death to be joined with the immortal soul. Bruno claimed that all matter is infused with divine soul, and that the goal of human existence is to attain knowledge of God and of one's own inner divinity. Martin and Barresi claim that these alternative theories of human nature failed to overthrow Aristotelianism precisely because they were not firmly planted in worldviews with sufficient scope and unity (2006, 120). For purposes of this book we can say that they failed to survive because they were not in harmony with the astronomy of their day. ## Human Nature After the Revolution Galileo and Copernicus are famous for their roles in promoting heliocentric astronomy. This revolution is said to have had a great impact on human self-understanding in that it displaced us from the center of the universe. However, there were further, and I would say, much more important repercussions. Displacement of the Earth from the center of the universe spelled the end of physics based on Aristotle's hylomorphic conception of matter, and soon resulted in the development of corpuscular or atomist theories in physics. The new physics, in turn, called for a radically new conception of the human person. The most direct consequence for theories of human nature was that the soul could no longer be understood as the form of the body; in this new worldview there simply are no such things as forms. There were two obvious responses. One was physicalism, first embraced by Thomas Hobbes. Hobbes's entire account of human nature was based on the notion of particles in motion. Sensation is due to pressure on the sense organs; thinking is a matter of small motions in the head; and emotions are due to motions about the heart. Hobbes is best known now for his political philosophy. He sought to understand the commonwealth in terms of the attractive and repulsive forces among atomistic individuals. Hobbes's physicalism did not have a great deal of influence in his day, but the radical individualism he espoused continues to be influential. Rene Descartes chose the other obvious option: to return to a radical dualism of mind (or soul) and body along the lines of Plato's and Augustine's theories. Descartes distinguished two basic kinds of created realities, extended substance (res extensa) and thinking substance (res cogitans); the latter included angels and human minds. It is difficult to overemphasize the importance of this radical distinction between the material and the non-material for later thought. Notice that there is a linguistic shift here from "souls" to "minds." Either term is a fair translation of Descartes's Latin and French. For Thomas the mind was equivalent to the rational soul (intellect and will). For Descartes, everything of which we are conscious, including sensations, is a function of the mind,1 and all of the other faculties (such as the ability to move) are attributed to the body. Earlier translations of Descartes's writings used "soul," but as this term has increasingly taken on religious connotations, translators have come to prefer the word "mind" in most contexts. In contrast to the Aristotelians, Descartes believed that only humans have souls. Animals and the human body are complex hydraulic machines. There has been a third category of theories of human nature, those associated with Idealism in metaphysics, but I shall not discuss it here because it is not currently considered to be a live option. ## Three Hundred Years of Problems I argue that neither physicalism in its modern form nor dualism has provided an adequate account of human nature. I consider first the problems with dualism. Dualism is now judged by almost all philosophers to have failed. However, it is still held tenaciously by many Christians and other religious believers. I shall comment on its theological inadequacies later, but first the philosophical and scientific problems. The shift from hylomorphism to atomism and substance dualism created what has turned out to be an insoluble problem: mind-body interaction. Whereas for Aristotelians the soul was but one instance of form, in modern thought the mind becomes an anomaly in an otherwise purely material world of nature. Furthermore, the very conception of matter has changed. Before the atomist revolution, matter and form had been correlative concepts - matter was that which had the potential to be activated by form. Matter (at least as unformed, prime matter) was entirely passive. For early modern thinkers, matter is also passive, inert. But now, instead of being moved by immanent forms, it is moved by external forces - physical forces. This created a dilemma: hold on to the immateriality of mind, and there is no way to account for its supposed ability to move the body; interpret it as a quasi-physical force and its effects ought to be measurable and quantifiable as is any other force in nature. But nothing of the latter enters into modern physics. It is worth mentioning the epistemological problems created by this metaphysical shift. For Aristotelians, sensory knowledge resulted from the transference of the form of the thing perceived into the intellect of the perceiver, whose mind was, literally, in-formed by exactly that which makes the object to be what it is. Thus, exact knowledge of the essences of things was possible on the basis of very little observation. Perceptual error is what needed explanation. In a world composed of atoms, sensation must result from the impinging of atoms on the sensory membranes, and then from coded information conveyed to the brain and thence to the mind. Ideas in the mind are no longer identical to the forms inherent in things, but mere representations produced by a complicated process of transmission, encoding, and decoding. Thus arises modern skepticism with regard to sense perception (Meyering, 1989). Descartes's solution was to begin with the Augustinian notion that we know our own minds directly. But for early modern philosophers that is all we know directly. As Nicholas Lash points out, on this account, the problems of knowledge are presented as if they were problems of engineering - how to make contact, build bridges, with what is "outside" (Lash, 1986). Descartes reassured himself of the possibility of (indirect) knowledge of the external world by arguing that a benevolent creator would not have constructed us so as to be constantly deceived. Some contemporary philosophers are still struggling with these issues. I have argued elsewhere that body-soul dualism has had deleterious effects on the religions of the West, particularly Christianity (Murphy, 2006), and that this distortion of Christian thought and practice has had negative consequences for all of Western society. It is now widely recognized by biblical scholars that the focus of Jesus' teaching was the kingdom of God, a new social order without violence and the exclusion of marginalized groups. After Jesus' death, the promise of bodily resurrection became central to Christian teaching as well. However, as Christianity spread throughout the Hellenistic world the materialist Hebraic concept of the person was soon supplanted by Neoplatonic body-soul dualism, with its focus on preparation of the individual soul for its future, immortal bliss. This was a disastrous turn for many reasons. One was that the supposed infinite value of the human soul legitimated first punishing and then later killing the body in the hope of saving the soul from eternal damnation. It is no accident that Augustine is credited with cementing the dualist conception of human nature into Christian theology, and that he is also called by his biographer, Peter Brown, the first theologian of the Inquisition (Brown, 1967). Second, the focus on the afterlife made it all too easy for Christians to neglect the message of Jesus' earthly kingdom. I cannot make adequate theological or historical arguments for this criticism here, but consider a few rhetorical questions. Without the Neoplatonic notion that the goal of life is to prepare the soul for its proper abode in heaven, would Christians through the centuries have devoted more of their attention to working for God's reign on earth? And would Jesus' teachings be regarded as a proper blueprint for that earthly society? If Christians had been following his teachings about sharing, and about loving enemies at least enough so as not to kill them, how different might world politics be today? What would Christians have been doing these past 2,000 years if there were no such things as souls to save? I turn now to a critique of the physicalism of the modern period. The problem with physicalism until quite recently has been the unavoidability of causal reductionism. Causal reductionism presupposes the notion of the hierarchy of complex systems, such that higher-level systems are composed of lower-level parts. Causal reductionism, then, is the thesis that all causation is "bottom-up" - from part to whole. Reductionism was the apparently necessary outcome of modern physicists combining Epicurean atomism with the notion of deterministic laws of physics. Early modern atomism consisted of the following theses: First, the essential elements of reality are the atoms. Second, atoms are unaffected by their interaction with other atoms or by the composites of which they are a part. Third, the atoms are the source of all motion and change. Fourth, insofar as the atoms behave deterministically they determine the behavior of all complex entities. The Epicureans countenanced spontaneous "swerves," but Laplace and his followers did not. Finally, in consequence, complex entities are not, ultimately, causes in their own right. When modern scientists added Newton's laws of motion it was then reasonable to assume that these deterministic laws governed the behavior of all physical processes. Thus, all causation in the hierarchy of systems is bottom-up (this is causal reductionism) and all physical processes are deterministic because the ultimate causal players (the atoms) obey deterministic laws. The determinism at the bottom of the hierarchy of the sciences is transmitted to all higher levels. There are two major consequences of this reductionist assumption for theories of human nature. One is individualism. The individualism of modern political and ethical thought has many sources, but one of them was the attempt to understand human society on the basis of atomist physics. Thus, social groups must be determined entirely by the behavior of the individuals that compose them. Individualism has been a mixed blessing. On the one hand it has certainly advanced the causes of equality and individual liberty. But ethicists and political theorists are currently lamenting the loss of strong conceptions of the common good. If a society is nothing over and above the individuals who make it up, then, as in utilitarianism, the good of the society can be nothing over and above the sum of goods for individuals. A much more serious problems follows from the wedding of a physicalist anthropology with a reductionist ontology. If humans are essentially physical organisms, and if it is the brain that does the work once assigned to the mind or soul, then how can it fail to be the case that all human thought and action are merely the product of the laws of neurobiology? And if this is the case, then what happens to traditional concepts of free will and moral responsibility? Physicalists from Hobbes in the seventeenth century to Daniel Dennett in our own have often been content to deny free will except in the "compatibilist" sense of having liberty to act as one chooses. It is possible for compatibilists to argue for maintaining traditional concepts of moral and legal responsibility even though we do not choose our choices, since the system of rewards and punishments plays a role in social stability. However, these reductive physicalists seem not to notice that neurobiological reductionism is a self-defeating position. Presumably they expect their readers to be rationally convinced by their arguments. But if thinking itself is determined by brain functions, then there is no room left for the role of reason. Therefore, if neurobiological reductionism is true there can be no such thing as an argument for it! The remainder of this chapter will be an argument for a nonreductive physicalist account of human nature. First I shall review some of the scientific and philosophical developments that call reductionism in general into question. The main factor here is the development of the theory of complex dynamical systems. In light of these developments it becomes clear that nonreductive physicalism is a possibility in light of the sciences. Next I argue that nonreductive physicalism is also acceptable from the point of view of Christian theology. Thus it is a theory of human nature that serves as a suitable bridge to bring together the natural sciences and religion. In the final section I look more broadly at the growing synthesis of science, including astronomy, with Christian thought. ## The End of Reductionism The antidote to causal reductionism is appreciation of what would be an obvious fact were it not for the philosophical assumptions I have listed above. Complex entities and systems are often affected as much by their environments as by the behavior of their parts. And we are now developing greater insights into how complex systems (including human beings) can create and govern their own parts. The beginning of an alternative to reductionism is found in two sources. One was the emergentist movement in Britain and the United States early in the twentieth century. This movement died out, but new work is being done on the concept of emergence. The second was the development of the concept of downward or top-down causation in the 1970s. An important figure was philosopher Donald Campbell, who argued that it is a well known fact in biology that explanations of biological features require not only bottom-up accounts, such as the role of genes in producing constituent proteins, but also an account of the existence and prevalence of organisms with those features (Campbell, 1974). And this is explained by means of the role of the environment (the higher-level system) in selecting those features over time. So in general we can say that the higher-level system can have downward effects on its components by means of selection. The critical question for proponents of downward causation has always been how to avoid causal overdetermination if one assumes causal closure at the lower level. Complex systems theory provides resources to formulate an explanation. I here follow the work of Juarrero (1999). She describes the role of the system as a whole in determining the behavior of its parts in terms of the larger pattern or entity selectively activating the causal powers of its components. Juarrero (1999, 126) says: > The dynamical organization functions as an internal selection process established by the system itself, operating top-down to preserve and enhance itself. That is why autocatalytic and other self-organizing processes are primarily informational; their internal dynamics determine which molecules are "fit" to be imported into the system or survive. She addresses the crucial question of how to understand the causal effect of the system on its components. Her answer is that the system constrains the behavior of its component processes. The concept of a constraint in science suggests "not an external force that pushes, but a thing's connections to something else... as well as to the setting in which the object is situated" (Juarrero, 1999, 132). More generally, then, constraints pertain to an object's connection with the environment or its embeddedness in that environment. They are relational properties rather than primary qualities in the object itself. Objects in aggregates do not have constraints; constraints only exist when an object is part of a unified system. From information theory Juarrero employs a distinction between context-free and context-sensitive constraints. In successive throws of a die, the numbers that have come up previously do not constrain the probabilities for the current throw; the constraints on the die's behavior are context-free. In contrast, in a card game the constraints are context-sensitive: the chances of drawing an ace at any point are sensitive to history: > assume there are four aces in a fifty-two card deck, which is dealt evenly around the table. Before the game starts each player has a 1/13 chance of receiving at least one ace. As the game proceeds, once players A, B, and C have already been dealt all four aces, the probability that player D has one automatically drops to 0. The change occurs because within the context of the game, player D's having an ace is not independent of what the other players have. Any prior probability in place before the game starts suddenly changes because, by establishing interrelationships among the players, the rules of the game impose second-order contextual constraints (and thus conditional probabilities). > >... [N]o external force was impressed on D to alter his situation. There was no forceful efficient cause separate and distinct from the effect. Once the individuals become card players, the conditional probabilities imposed by the rules and the course of the game itself alter the prior probability that D has an ace, not because one thing bumps into another but because each player is embedded in a web of interrelationships.2 Alwyn Scott, a specialist in nonlinear mathematics, states that a paradigm change (in Thomas Kuhn's sense) has occurred in science beginning in the 1970s. He describes nonlinear science as a meta-science, based on recognition of patterns in kinds of phenomena in diverse fields. This paradigm shift amounts to a new conception of the very nature of causality (Scott, 2004). While time does not allow me to make all of the connections to this general account of downward causation, I have argued elsewhere that it provides the resources needed to evade neurobiological reductionism and then to make sense of human reasoning, responsibility, and free will (Murphy and Brown, 2007). ## Religion and Physicalism To many a reader of today's media it would appear that Christians have once again bowed to the authority of science; they are renouncing the dualist anthropology that has characterized their teaching from the beginning in order to adopt the physicalism that is consistent with current science, particularly cognitive neuroscience. However, many are surprised to hear that the dualism-physicalism issue is already a century old in Christian biblical studies and church history. For example, in 1911, biblical scholar H. Wheeler Robinson argued persuasively that writers of the Hebrew scriptures were not dualists; their concept of human nature was monistic. Later translators read dualism back into the texts by employing, first, Greek anthropological terms, and then later translating these Greek terms into modern languages as they had been understood by Greek philosophers. By the middle of the twentieth century is was commonplace to argue that New Testament authors also presupposed a monistic and physicalist account of human nature. Nonetheless, already in the second century, dualism began to appear in Christian teaching. The Epistle to Diognetus (written in approximately 130) described humans as possessing an immortal soul. By the time of Augustine, in the early fifth century, dualism of a modified Platonic sort was taken as the orthodox position. Contemporary Jewish scholars appear to be divided on the question of dualism versus physicalism. A persuasive book, though, is Neil Gillman's The Death of Death: Resurrection and Immortality in Jewish Thought (Gillman, 1997). Gillman argues that the only conception of human nature that fits comfortably with the Jewish understanding of life and of Jews' relation to God is a physicalist account, along with an emphasis on afterlife understood in terms of bodily resurrection. I had the opportunity to lecture on this topic in Iran a few years ago. I found that all of the Muslim scholars I addressed there were either dualists or else they held a more complex tri-partite account. Nonetheless, there are ample precedents in the history of Islam for a physicalist account of human nature. So the Abrahamic faiths have plenty of historical precedent for accepting a physicalist account of human nature, and it can be argued that in the case of Christianity in particular, they are not bowing to science at all, but rather recovering a more authentic version of their own early teachings. What all religious believers need to worry about, however, is the extent to which a physicalist ontology is believed to entail a reductionistic account of human life. In the (in)famous words of Francis Crick: "You, your joys and your sorrows, your memories and your ambitions, your sense of personal identity and free will, are in fact no more than the behavior of a vast assembly of nerve cells and their associated molecules" (Crick, 1994). It is for this reason that the information about the development of anti-reductionistic accounts in science is so important (Murphy, 2006).3 ## A New Cosmopolis? I have already alluded to the fact that most educated people in the West take science and religion to be either irrelevant to or at odds with one another. This picture is perpetuated by the media, in that they tend to cover stories about religious objections to science but not the accumulating body of careful work showing the consistency of religion with current scientific developments. I have argued (all too briefly) for the convergence of science and theology toward nonreductive physicalism. In light of the history I have traced in this chapter, this is a development to be welcomed. At the beginning of the modern era we lost that stable and intelligible account of human nature in harmony with Ptolemaic astronomy and Aristotelian physics. I made the bold claim that there has been no adequate account of human nature since the Copernican revolution. Only now, with the rejection of reductionism, can the physicalist anthropology that flows so naturally from science be reconciled with the religious view of humankind as morally responsible and capable of a free response to God. There are a large number of other points of synthesis. I will focus only on those related to astronomy and cosmology. In the Middle Ages there was a consensus among theologians that the doctrine of creation was relevant to a number of cosmological issues, such as the nature of time and the question of whether the universe had a beginning. However, due to a variety of factors in the modern period, many theologians concluded that theology in general and the doctrine of creation in particular are irrelevant to the big cosmological questions - theology is basically about humankind's relation to God. The ironic development in our own day is that science is now putting all of those big cosmological questions back on the table. No one has done a better job of pointing this out than Paul Davies. The most obvious theological issue that has been reopened by developments in cosmology is the question of whether God created the universe in time or from eternity. That is, did the universe have a temporal beginning, or has it always existed, with its existence dependent upon God? From the time of Friedrich Schleiermacher, writing at the beginning of the nineteenth century, many have argued that this question is irrelevant to the doctrine of creation. Copernicus overturned the Ptolemaic conceptions of the organization and of the motion of the universe but not the conception of the universe as eternal and static. When Big-Bang theory was developed this sudden origin was immediately interpreted by some - believers and atheists alike - as confirmation of the traditional account of creation as temporal origination. Cooler heads refused the temptation to claim that science had shown the truth of the doctrine; Ernan McMullin's account of the science and theology as "consonant" has turned out to be the most reasonable. He says that "if the universe began in time through the act of a Creator, from our vantage point it would look something like the Big Bang that cosmologists are now talking about" (McMullin, 1981). More recent (and highly speculative) developments in theories of origins threaten this tidy consonance. For example, Andrei Linde's speculation that our universe started out as a very small bubble in space-time, and that the bubble's swift inflation produced the Big Bang shows that the Big Bang cannot simply be identified with creation. One final point of convergence. If Copernican astronomy, as it is said, removed humankind from the center of the universe, in a strange sense recent science, including astronomy, is suggesting that we are in a different sense, central after all. This is the work begun by Brandon Carter and carried forward by John Barrow, Frank Tipler, and others on the "anthropic coincidences" manifested by our universe. Again believers and non-believers have both wondered what this might mean for religion. Freeman Dyson has written that "[t]he more I examine the universe and the details of its architecture, the more evidence I find that the universe in some sense must have known we were coming" (Dyson, 1979). While the fine-tuning does not prove that the universe had a divine fine-tuner, it is certainly consonant (in McMullins' terms) with the biblical claim that humans have a central place in God's plans. None of the recent scientific developments serve as a basis for the kind of natural theology that Darwin's theory displaced, but for scholars who are believers, the recent convergences are welcome. We can feel at home in the universe, just as the residents of previous cultures with their own cosmo-political worldviews. ## Notes 1 See Rorty (1979) for reflections on the peculiarity of counting all of such disparate experiences as "mental." 2 Juarrero (1999, p. 146) 3 The foregoing material is treated at greater length in Murphy, Bodies and Souls. References Brown, Peter. 1967. Augustine of hippo: a biography. Berkeley and Los Angeles: University of California Press, 240 Campbell, Donald. 1974. 'Downward causation' in hierarchically organised systems. In Studies in the philosophy of biology: reduction and related problems, ed. F.J. Ayala , and T. Dobzhansky, 179-186. Berkeley and Los Angeles: University of California Press. Crick, Francis. 1994. The astonishing hypothesis: the scientific search for the soul. New York: Charles Scribner's Sons, 3. Dyson, Freeman. 1979. Disturbing the universe. New York: Harper & Row, 250. Gillman, Neil. 1997. The death of death: resurrection and immortality in Jewish thought. Woodstock: Jewish Lights Publishing. Juarrero, Alicia. 1999. Dynamics in action: intentional behavior as a complex system. Cambridge: MIT Press. Lash, Nicholas. 1986. Easter in ordinary: reflections on human experience and the knowledge of God. Charlottesville: University Press of Virginia, 69. Martin, Raymond, and John Barresi. 2006. The rise and fall of soul and self: an intellectual history of personal identity. New York: Columbia University Press, 106. McMullin, Ernan. 1981. How should cosmology relate to theology? In The sciences and theology in the twentieth century, ed. A.R. Peacocke, 17-57; 39. Notre Dame: University of Notre Dame Press. Meyering, Theo C. 1989. Historical roots of cognitive science: the rise of a cognitive theory of perception from antiquity to the nineteenth century. Dordrecht: Kluwer Academic Publishers.CrossRef Murphy, Nancey. 2006. Bodies and souls, or spirited bodies? Cambridge: Cambridge University PressCrossRef Murphy, Nancey, and Warren S. Brown. 2007. Did my neurons make me do it? philosophical and neurobiological perspectives on moral responsibility and free will. Oxford: Oxford University Press.CrossRef Rorty, Richard. 1979. Philosophy and the mirror of nature. Princeton, NJ: Princeton University. Scott, Alwyn. 2004. A brief history of nonlinear science. Revista del Nuovo Cimento 27(10-11): 1-115. Toulmin, Stephen. 1990. Cosmopolis: the hidden agenda of modernity. New York: Free Press. # Part 4 UNIVERSE AND LIFE Anna-Teresa Tymieniecka and Attila Grandpierre (eds.)Analecta HusserlianaThe Yearbook of Phenomenological ResearchAstronomy and Civilization in the New EnlightenmentPassions of the Skies10.1007/978-90-481-9748-4_19(C) Springer Science+Business Media B.V. 2011 # Mind in the Quantum Universe Henry P. Stapp1 (1) Lawrence Berkeley National Laboratory, University of California, Berkeley, CA 94720, USA Henry P. Stapp Email: hpstapp@lbl.gov Abstract Astronomy has affected civilization in many ways, but none more profoundly than its impact on our idea of what we human beings actually are. We, in our innermost aspect, are our minds, and, strange as it may seem, our ideas about the nature of our minds are rooted in astronomy. It is not that our minds themselves are rooted in the stars, instead of in our brains. It is rather that our ideas about our minds are rooted in science, and that our basic science is rooted in astronomy. Astronomy & Civilization, Budapest, August 11, 2009 ## Astronomy and the Phenomenal Aspects of Nature 1The careful astronomical observation of Tycho led to Kepler's three laws of planetary motion. These laws, coupled to Galileo's association of gravity with acceleration, led directly to Newton's inverse square law of gravitational attraction. This led to the idea of physical determinism, the notion that a complete description of the values of all physically described variables at any one time completely determines the values of all physically described variables at any later time. By a physically described variable I mean a variable that is specified by assigning mathematical quantities to points in space-time. The space-time trajectories of particles and the strengths and rates of change of "local fields" are the paradigmatic examples of physical variables. The predictable motions of the planets in accordance with Newton's laws are the prime embodiment of the idea of physical determinism. Newton extended this idea, with tremendous success, first down to the scale of terrestrial motions, to the tides and falling apples etc., and he then conjectured a further extension down to level of the atoms. According to this conjecture, the entire physically described universe, from the largest objects to the smallest ones, would be bound by the precept of physical determinism: by the principle of "causal closure of the physical". This idea of universal physical determinism is a basic precept of what is now called "classical physics". ## The Omission of the Phenomenal Aspects of Nature The dynamical laws of classical physics are formulated wholly in terms of physically described variables: wholly in terms of what Newton's predecessor, Rene Descartes, called the elements of "res extensa". Descartes' complementary psychologically described things, the elements of his "res cogitans", were left completely out: there is, in the causal dynamics of classical physics, no hint of their existence. Thus there is not now, nor can there ever be, any rational way to explain on the basis of the dynamical precepts of classical physics, either the existence of, or any causal consequence of, the experientially described aspects of nature. Yet these experiential aspects are all that we directly know. This troublesome point was abundantly clear already at the outset: > Newton: "...to determine by what modes or actions light produceth in our minds the phantasm of colour is not so easie" > > Leibniz: "Moreover, it must be confessed that perception and that which depends upon it are inexplicable on mechanical grounds, that is to say, by means of figures and motions." Classical physics, by omitting all reference to the mental realities, produces a logical disconnect between the physically described properties represented in that theory and the mental realities by which we come toknow them. ## The Apparent Causal Effects of the Phenomenal Realities Our entire productive lives are built around the belief, drawn from its incessant empirical validation, that our conscious efforts can influence our physical actions. One conceivable resolution of this classically inexplicable seeming intrusion of mental processes into the closed dynamics of the physically described world, as it is conceived of in classical mechanics, is that each mental reality is, again inexplicably, the very same thing, at least causally, as an associated brain process. This is essentially the resolution proposed by the physicalist philosophers. An alternative resolution that is at least worth considering is that the precepts of classical mechanics are not 100% correct: that Newton's speculation about the extrapolation of his dynamical ideas from planets to atoms is not exactly valid. At least one prominent scientist/philosopher dared to broach this unsettling idea during the nineteenth century, before the precepts of classical mechanics had been empirically invalidated. William James, speaking of the scientists who would 1 day resolve this mind-body problem, said: "and never forget that the natural-science assumptions with which we started are provisional and revisable things" (Psychology: The Briefer Course, last page). Strangely, his idea that precepts of classical physics might be wrong in ways pertinent to the mind-brain problem is, in effect, aggressively denied by most philosophers of mind today, more than 8 decades after the downfall of that theory. Philosophers are often called upon to defend highly counter-intuitive and apparently absurd positions. But to brand as an illusion, and accordingly discount, the supremely successful conceptual foundation of our lives - the idea that our conscious efforts can influence our physical actions - on the basis of its conflict with a known-to-be-false theory of nature that leaves out all that we really know, is a travesty against reason, particularly in view of the fact that the empirically valid replacement of that invalid classical theory is specifically about the details of the nontrivial connection between our consciously chosen intentional actions and the experiential feedbacks that these actions engender. A perusal of the writings of prominent contemporary physicalist philosophers of mind reveals starkly the cause of their impairment: they do not understand the details of the workings of quantum mechanics, and hence dismiss its relevance for illogical reasons. They uniformly, as far as I been able to discover from their writings, identify the basic change wrought by quantum mechanics as either the introduction of an element of "randomness", which, as they correctly point out, does not help at all with the promotion of rational control of physical action by conscious mind, or as the introduction of a general "indeterminism" which is likewise of no help: "randomness" and general "indeterminism" both act in the wrong direction. By thus conceiving the changes wrought by quantum mechanics in these simplistic, and extremely incorrect and misleading, ways these philosophers render themselves incapable of grasping of how our minds can achieve, directlyvia the basic dynamical rules of quantum mechanics, in spite of the opposing quantum randomness, but by virtue of the failure of physical determinism, a bona fide conscious influence over our physical actions. ## Phenomenal Reality is Central to Copenhagen QM Copenhagen quantum mechanics is the original version of QM, propounded in the late 1920s by the founders: Werner Heisenberg, Niels Bohr, and Wolfgang Pauli. It is the hugely successful set of computational rules, embedded in a linguistic structure pertaining to our intentional probing actions and their phenomenal consequences, that physics students are taught in our universities, and then use in actual practice. The phenomenal aspects of nature that were left out of classical mechanics (CM) re-emerge as the central focus of Copenhagen QM: > Bohr: "In our description of nature the purpose is not to disclose the real essence of phenomena but only to track down as far as possible relations between the multifold aspects of our experience". (Atomic Theory and the Description of Nature: p.18) > > Heisenberg: "The conception of the objective reality of the elementary particles has evaporated not into the cloud of some new reality concept, but into the transparent clarity of a mathematics that represents no longer the behaviour of the particles but our knowledge of this behavior" (Daedalus, 1958: p. 95). > > Bohr: "The freedom of experimentation...is fully retained and corresponds to the free choice of experimental arrangement for which the quantum mechanical formalism offers the appropriate latitude"(Atomic Physics and Human Knowledge: p.73). Copenhagen quantum theory is basically a set of pragmatic rules that allow scientists to form valid expectations pertaining to what an observer will experience under each of the various alternative possible courses of action between which he or she is free to choose. Thus Copenhagen quantum theory is basically about the structure of human knowledge! It constitutes a swing away from the classical-physicsextreme, which excludes conscious experiences from the dynamics, to the opposite extreme of making the contents of our streams of conscious experiences the central concern of the useful and testable science that it creates. ## The Middle Way: Von Neumann's "Orthodox" Ontological QM Von Neumann constructed an objective version of QM that, like CM, can be construed to be a description of reality itself. This reality is conceived to have, as Descartes proposed, both physical and phenomenal aspects. The relationships between these two parts are specified by the quantum dynamical laws that von Neumann spells out. These laws integrate the phenomenal/experiential realities into an evolving, objective, physically described universe. Von Neumann's method of constructing this ontologically interpretable QM starts with the pragmatic Copenhagen QM, which eschews all talk of an objective (impersonal) physical reality. Von Neumann's construction removes from the Copenhagen version certain ambiguities, in order to arrive at an ontologically interpretable objective version. Von Neumann's version was dubbed the "orthodox" interpretation by Eugene Wigner to distinguish it from the pragmatic Copenhagen version. Technically, the Copenhagen QM, from which von Neumann starts his analysis, rests on the idea of a "cut" that separates the world into an experientially described part (that includes the observer and his measuring devices) that lies "above" the cut and a quantum mechanically described part (the system being probed by the observer and his devices) that lies "below" the cut. The part lying above the cut is conceived to be actively "probing" the part lying below the cut, and receiving randomly selected answers to the "Yes-or-No-type" questions that it is posing. The statistical weights of the alternative possible answers are determined by the theory, but the contents of the probing questions are not specified by any yet-known rule or law. The probing actions can therefore, at least in principle, be determined in part by the experiential aspect of the probing system. ## Ambiguity in Placement of the Copenhagen Cut A device that lies above the Copenhagen cut is made up of particles and fields and it thus in principle could be shifted to below the cut. Such an ambiguity in cut placement might be unacceptable in an ontological theory, but it is perfectly OK in a pragmatic theory, provided that no prediction depends upon this placement. Von Neumann systematically studied the effects of shifting the placement of the Copenhagen cut between the physically and experientially described parts of the world. He considered a sequence of placements in which the boundary is shifted, step by step, from an initial placement used in the Copenhagen interpretation, further and further up to and into the brain of the observer, until at last the entire world that is describable in terms of atoms and molecules is on the physically described side, with only the observer's "abstract ego" lying on the side described in experiential terms. At that stage the boundary separates the observer's mind from his brain. The connection between the two sides of the cut then constitutes a mind-brain connection. Von Neumann's work shows that the boundary can be moved up in this way without disrupting the predictions of the theory, which are always expressed ultimately in terms of relationships between experiences. ## Von Neumann'S Two Processes The analysis outlined above is pursued by von Neumann within a mathematical formalism that is basically just a rigorous formalization of the rules implicit in Copenhagen QM. Von Neumann's formulation is based on two processes: Process 1 and Process 2. Process 1 is a physically described action upon the physically described state. This action can be conceived of as posing a "Yes-or No-type" question: it reduces the prior physical state to a sum of two parts, one corresponding to the "Yes" answer to the question, and the other corresponding to the failure to receive a "Yes" response. Multiple choice questions can be constructed by considering sequences of these "Yes-No" questions. The state is represented by a matrix, which has two sides. The "Yes" term is really "Yes-Yes" and the "No" term is really "No-No". Consequently, the Process 1 action reduces the prior state to less than it was: it eliminates the "Yes-No" and "No-Yes" parts. Thus the Process-1 action picks out, from an infinitude of possible questions that could be put to nature, one particular "Yes-or-No-type" question, which therefore logically precedes nature's randomly selected answer to it. Process 2 is the process of physical evolution of the quantum state between the Process-1-initiated selections of outcomes. Process 2 is a physically deterministic process that is analogous to the physically deterministic causal-evolution process of classical mechanics. It is governed by the Schroedinger wave equation. Process 2 prevails only between the reduction events, which are essential features of the Copenhagen and Orthodox versions of quantum mechanics. > [A competing "many-worlds" approach denies the occurrence of such reduction events, but has yet to produce a rationally coherent way of relating the resulting theory to human experience in the practically successful way specified by the Copenhagen/Orthodox theory, without introducing a logical equivalent of Process 1. I add here, for technical clarity, that the fundamental quantum state is taken to be the state (i.e., density matrix) of the entire universe, which is assumed to be finite, and that the state of any subsystem is formed by taking the partial trace over the complementary set of variables.] The key point is that von Neumann's Process 1 action merely poses a probing question! The system being probed, for example some pertinent part of a person's brain, has been interacting strongly with its environment, and its quantum state (density matrix) has therefore been reduced to nearly diagonal form in the pertinent coordinate basis. The continuity of the Schroedinger-equation-directed dynamics ensures that this state will be continuous in these variables. The "butterfly effect" in the highly nonlinear brain system, with abundantly available free energy, probably operating at the boundary of chaos, entails that this state will probably extend over a multitude of possible patterns of brain activity of the kind that would correspond to a particular conscious experience, of say, intending to act in some particular way in response to some perceived situation in which the person finds himself or herself. The Process-1 action is associated with some particular possible bodily action. But the occurrence of the Process-1 action does not entail that this action will occur. All that it does is to specify some particular possible pattern of brain activity, and then to put to nature the question of whether this particular pattern of brain activity will or will not become actual. This Process-1 action does not depend upon the element of "quantum randomness": rather, it sets the stage for the entry of this element of randomness. Yet the future physical possibilities of the world have nevertheless been drastically curtailed by this choice of action, which is not determined by any yet-known law or rule, but that seems, in many cases, to stem, at least in part, from "reasons" and "sentiments". While the apparent contribution of mental causes could be a delusion, there is no reason within QM for this to be the case, for these choices are definitely not determined by the deterministic Schroedinger equation in any known or specified way. The Schroedinger-based physically deterministic evolution has generated, rather, a continuous plenum of possibilities that the Process-1 action must reduce to a discrete set of logically distinct alternatives before the element of quantum randomness can enter. In view of this detailed way in which the quantum dynamics works to produce its empirically validated predictions, one sees that the identification of the switch from CM to QM with merely the entry of "randomness" or "general (as opposed to physical) indeterminism" is an entirely unwarranted oversimplification, in the context of understanding the possible contribution, via quantum mechanisms, of mental processes to the course of bodily physical events. The contribution of the human mental input comes before the entry of quantum randomness, and exploits the failure of physical determinism. There is no need in QM for any breakdown of a possible pervasive underlying principle that every actually occurring event must have, in the totality of nature, a sufficient reason to be what it is: there is no suggestion in quantum mechanics of any need for a general indeterminism: no rational need for a breakdown of the principle of sufficient reason! This quantum mechanical conception of nature, like science in general, is a work in progress. It is not yet complete because it does not specify the genesis of the Process 1 actions. But it does provide the general architecture of a rationally coherent interactive dualism that is a viable alternative to physicalism, to which it is greatly superior: first, because of its greater explanatory power; second, because it is not based on the precepts of a fundamentally invalid physical theory. It is completely compatible, without inexplicable dodges, with the incessantly empirically validated conclusion that our conscious efforts can influence our bodily actions in the way that they appear to us to do. I now turn to a description of how a person's thoughts can, in a completely natural and understandable way, influence his brain, and hence his body. ## The Physical Effectiveness of Conscious Intentional Effort Our lives are built upon the capacity of our conscious intentional efforts to produce the intended bodily physical actions. But how does this important effect of conscious mind upon physical body come about? A "template for action" is a pattern of brain activity which, if sustained for a sufficiently long period, will cause the specified action to occur. That such templates for action exist is plausible. If an action such as writing the letter "S" on the blackboard is to occur, then a particular sequence in neural firings that activate an appropriate sequence of muscle contractions must occur. It is plausible that some sustained pattern of brain activity would contain the synchronization information needed to produce the intended action. Quantum mechanics allows Process-1 actions to be influenced by conscious effort. Given this logical opening we need merely assume that conscious effort can increase the rate at which an appropriate probing Process-1 action is repeated. If the brain correlate of an intentional effort is the template for action for the intended action, then conscious intentional effort can, by virtue of the quantum Zeno effect, cause the pattern of brain activity that constitutes the template for action to be held in place for an extended period of time [Schwartz, et. al. Phil. Trans. R.. Soc. B, doi:10.1098/rstb.2004.1598]. This will tend to cause the associated physical action occur. Thus within orthodox quantum theory the physical effectiveness of "conscious will", per se, need not be an illusion. It can be, instead, a direct causal consequence of the dynamical rules of orthodox quantum mechanics. The most problematic logical consequence of the classical-physics-based physicalist conception of nature is thereby evaded, namely the conclusion that human beings are causally equivalent to mindless mechanical automata. ## Non-Human Minds Von Neumann's formulation lends itself to an ontological interpretation, and I have interpreted it in that way, as providing a description of an objectively existing and evolving mind-matter reality. Von Neumann's ideas fit naturally with the ontological ideas of Heisenberg, and in particular with Heisenberg's embrace of the Aristotelian ideas of "potentia" and "the actual". The quantum mechanical state is considered to have the ontological character of a "potentia": it embodies not only information about what has occurred in the past, but also objective tendencies for the occurrence of the next "actual event". According to this ontological interpretation, there is an objectively existing reality that is built out of a sequence of psycho-physical "actual events". Certain of these events are associated with human experiences. Each such event has a mental aspect that is an "increment of knowledge" of some person, and also an associated physical aspect that is a reduction or collapse of the quantum state of the brain of that person to the part of its prior state that is compatible with this increased knowledge. Each such collapse event is an objective physically described happening that occurs "primarily" in the brain of the experiencing observer. The quantum state acts both as a carrier of historical information about past events, and as an embodiment of statistically weighted potentialities for the next event. The causal effectiveness of the mental effort allows appropriate linkages between the intentional thought and intended physical action to become enhanced by natural selection. The occurrence of observation-related events in the brains of human observers does not preclude the occurrence of actual events corresponding directly, for example, to the firing of a Geiger counter, or the formation of a bubble in a bubble chamber. If such a device-related-actual-event occurs, and is witnessed by someone, then there would be both the actual event located at the position of the device, and also a physical brain event directly associated with the human perception of the event at the device: the occurrence of a mind-brain event associated with an increment in human knowledge in no way precludes the occurrence of a related actual event outside the brain of an observing witness. The contemporary empirical data is compatible with the possibility that there are no actual physical collapse events occurring outside human brains. The data is compatible also with the possibility that there is (also) an actual event occurring in conjunction with the detecting action of each large measuring device. That is, even though the entire physical world lies below von Neumann's final placement of the "cut", the openness of the theory with respect to the causal origins of the Process-1 actions, leaves open the possibility that Process-1 events can occur (also) in association with large detection systems besides human brains. To escape anthropocentrism, we certainly want to include the "nervous systems" of various other living entities as allowed sites of actual events. The methods of von Neumann then show that, for all practical purposes (John Bell's FAPP), allowing other macroscopic detection systems to act on the physical world in ways similar to the ways that we ourselves do will produce no noticeable effects in the realm of human experience. This lack of sufficiently incisive data opens the door to metaphysical speculation as to which macro-systems besides human brains may host actual events. This openness is directly attributable to the afore-mentioned causal gap pertaining to what determines the Process-1 actions. The psychological aspect of any actual event is presumed to be a particular feeling that exists in nature and is specific to an associated physical activity occurring at the associated physical site. The "feeling" of a relatively simple event in a "device" would presumably bear very little resemblance to the highly articulated feeling of perception associated with the extremely complex brain activity associated with a human perception of that device-based actual event. Because the experiential aspect can itself be causally effective in the physical world, yet not fully determined by the prior state of the physically described world, it can become an integral part of the process of the natural selection that has led to the evolutionary co-development of the brains and conscious minds of contemporary human beings. If we trace this presumed evolutionary development backward in time we must allow the mental aspect to become ever more dissimilar to the human consciousness that we know. In this backward tracing it would seem unreasonable for a feature of nature as profound as these actual events to suddenly start occurring in association with the first lowly life form. It is more reasonable to expect the Process-1 events of that we know to be imbedded in a much more general set of actual events that encompass far more than our paltry contributions, and whose mental aspects, if indeed we should even call them "mental", have very little similarity to the highly specialized and developed occurrences that constitute the conscious human experiences that I have primarily been discussing. ## Conclusion Philosophers who try to address the problem of the logical and causal connections between mind and brain, and the related problem of conscious free will, from a basically physicalist perspective must deal with the fact that the physical theory that they have primarily relied upon, namely nineteenth century classical physics, is now known to be fundamentally incorrect: it was replaced during the twentieth century, at the fundamental level, by quantum mechanics, which denies the basic precept of "physical determinism", or "causal closure of the physical", upon which their philosophical positions ultimately rest. Thus they must discount the relevance of quantum mechanics, in this context, of the influence of mind upon brain, and in the related context of "free will". This they all do by first claiming that the essential change wrought by quantum mechanics is the introduction of "randomness" or "indeterminism" into the dynamics, and by then pointing out, entirely correctly, that the introduction of "randomness", or of general "indeterminism", does not help to rescue the concept of meaningful "free choice" that is at issue. But those arguments completely miss the crucial point, in this context, of the switch from classical to quantum mechanics, namely the logically needed introduction of what von Neumann calls "Process 1". This process is not controlled by "quantum randomness". It is, instead, the necessary logical predecessor to the entry of the element of quantum randomness. It specifies the otherwise-ill-defined set of discrete possibilities between which the logically subsequent random choice will be made. The entry of this physically undetermined but causally efficacious Process 1 into brain dynamics constitutes a failure within quantum mechanics of the classical precept of physical determinism; and a failure that is logically prior to the entry of quantum randomness. There is no apparent reason in quantum theory to deny the precept of general determinism: the principle that every event must, from some deep place, have a sufficient cause. By thus failing even to notice the absolutely crucial point, within this mind-brain context, of the entry into the quantum dynamics of the physically indeterminate but causally efficacious Process 1, the physicalist philosophers disqualify themselves as knowledgeable commentators on the subject of the relevance of quantum mechanics to the mind-brain issues upon which they propound. This failure to grasp the essential nature of the radical dynamical changes wrought by quantum mechanics keeps these philosophers mired in the rationally irresolvable difficulties that flowed from the failed seventeenth century speculation that the causal ideas that worked so well for the planets of the solar system would work equally well for the atomic particles from which our brains are made. Footnotes 1 Astronomy & Civilization, Budapest, August 11, 2009 Anna-Teresa Tymieniecka and Attila Grandpierre (eds.)Analecta HusserlianaThe Yearbook of Phenomenological ResearchAstronomy and Civilization in the New EnlightenmentPassions of the Skies10.1007/978-90-481-9748-4_20(C) Springer Science+Business Media B.V. 2011 # Why is the Universe Just Right for Life? Paul Davies1 (1) The Beyond Center for Fundamental Concepts in Science, Arizona State University, Tempe, AZ, USA Paul Davies Email: Paul.Davies@asu.edu Abstract A longstanding mystery concerning the laws of physics and the cosmological initial conditions is that they are peculiarly well suited to the emergence of life - at least, life as we know it. The favoured explanation is that the region of space we call "the universe" is in fact merely an infinitesimal fragment of a vast and elaborate assemblage of universes, collectively termed "the multiverse." According to the multiverse theory, each universe has its own distinctive laws and initial conditions, perhaps chosen randomly. Only in those universes which, by chance, the circumstances are just right for life will observers like us emerge and puzzle over the weird bio-friendliness of their own particular universe. Although popular, the multiverse theory falls far short of a complete explanation of physical reality, because it assumes a set of meta-laws, including a universe-generating mechanism, which must simply be accepted as a brute fact. I this paper I review the multiverse theory and discuss its shortcomings, and outline the challenge of trying to construct a theory of physical existence that does not depend on arbitrary starting assumptions. ## The Concept of Laws The founding assumption of science is that the physical universe is neither arbitrary nor absurd; it is not just a meaningless jumble of objects and phenomena haphazardly juxtaposed. Rather, there is a coherent scheme of things. This is often expressed by the simple aphorism that there is order in nature. But scientists have gone beyond this vague notion to formulate a system of well-defined laws. The existence of laws of nature is the starting point of science. But right at the outset we encounter an obvious and profound enigma: Where do the laws of nature come from? Galileo, Newton and their contemporaries regarded the laws as thoughts in the mind of God, and their elegant mathematical form as a manifestation of God's rational plan for the universe. Few scientists today would describe the laws of nature using such quaint language. Yet the questions remain of what these laws are and why they have the form that they do. If they aren't the product of divine providence, how can they be explained? By the thirteenth century, European theologians and scholars such as Roger Bacon had arrived at the conclusion that laws of nature possess a mathematical basis, a notion that dates back to the Pythagoreans. Given the cultural background, it is no surprise that when modern science emerged in Christian Europe in the sixteenth and seventeenth centuries, it was perfectly natural for the early scientists to believe that the laws they were discovering in the heavens and on Earth were the mathematical manifestations of God's ingenious handiwork. Today, few scientists would appeal explicitly to a god to explain the laws. But still the fact remains that the universe conforms to an orderly scheme, and is not an arbitrary muddle of events, which prompts one to wonder - God or no God - whether there is some sort of meaning or purpose behind it all. Many scientists are quick to pour scorn even on this weaker suggestion, however. Richard Feynman, arguably the finest theoretical physicist of the mid-twentieth century, thought that "the great accumulation of understanding as to how the physical world behaves only convinces one that this behaviour has a kind of meaninglessness about it".1 This sentiment is echoed by the theoretical physicist and cosmologist Steven Weinberg: "The more the universe seems comprehensible the more it also seems pointless (Weinberg, 1977)." ## Laws Fine-Tuned for Life In attempting to explain the origin of the laws of physics, a salient fact to be taken into account is that the law-like universe we observe is not just any old universe: it has a highly special property, namely, we are part of it. For life to emerge, and then to evolve into conscious beings like ourselves, certain conditions have to be satisfied. Among the many prerequisites for life - at least, for life as we know it - is a good supply of the various chemical elements needed to make biomass. Carbon is the key life-giving element, but oxygen, hydrogen, nitrogen, sulphur and phosphorus are crucial too. Liquid water is another essential ingredient. Life also requires an energy source, and a stable environment, which in our case are provided by the sun. For life to evolve past the level of simple microbes, this life-encouraging setting has to remain benign for a very long time; it took billions of years for life on Earth to reach the point of intelligence. On a larger scale, the universe must be sufficiently old and cool to permit complex chemistry. It has to be orderly enough to allow the untrammelled formation of galaxies and stars. There have to be the right sorts of forces acting between particles of matter to make stable atoms, complex molecules, planets and stars. If almost any of the basic features of the universe, from the properties of atoms to the distribution of the galaxies, were different, life would very probably be impossible.2 Now, it happens that to meet these various requirements, certain stringent conditions must be satisfied in the underlying laws of physics that regulate the universe, so stringent in fact that a bio-friendly universe looks like a fix - or "a put-up job", to use the pithy description of the late British cosmologist Fred Hoyle. It appeared to Hoyle as if a super-intellect had been "monkeying" with the laws of physics (Hoyle, 1982). He was right in his impression. On the face of it, the universe does look as if it has been designed by an intelligent creator expressly for the purpose of spawning sentient beings. Like the porridge in the tale of Goldilocks and the three bears, the universe seems to be "just right" for life, in many intriguing ways. No scientific explanation for the universe can be deemed complete unless it accounts for this appearance of judicious design. Until recently, "the Goldilocks factor" was almost completely ignored by scientists. Now, that is changing fast. Science is at last coming to grips with the enigma of why the universe is so uncannily fit for life. The explanation entails understanding how the universe began and evolved into its present form, and knowing what matter is made of and how it is shaped and structured by the different forces of nature. Above all, it requires us to probe the very nature of physical laws. ## Multiverse Explanation of Fine-Tuning A popular explanation for the Goldilocks enigma is the multiverse theory, according to which what we have all along been calling "the universe" is, in this theory, just an infinitesimal part of a single "bubble", or pocket universe, set amid an infinite assemblage of universes - a multiverse. This follows naturally if we regard the big bang origin of our universe as a natural physical process, in which case it cannot be unique. There will be many big bangs scattered throughout space and time. An explicit model of multiple big bangs is the theory of eternal inflation, which describes an inexhaustible universe-generating mechanism, of which our universe - our bubble - is but one product (Susskind, 2005). Each pocket universe will be born in a burst of heat liberated in that bubble when inflation ceases, will go on to enjoy a life cycle of evolution, and will perhaps eventually suffer a death, but the assemblage as a whole is immortal. Life will arise only in those universes, or cosmic regions, where conditions favour life. Universes which cannot support life will go unobserved. It is therefore no surprise that we find ourselves located in a universe which is suited to life, for observers like us could not have emerged in a sterile universe. If the universes vary at random, then we would be winners in a gigantic cosmic lottery which created the illusion of design. Like many winners of national lotteries, we may mistakenly attribute some deep significance to our having won (being smiled on by Lady Luck, or suchlike) whereas in reality our success boils down to chance. However, to explain the cosmic "coincidences" this way - that is, in terms of observer selection - the laws of physics themselves would have to vary from one cosmic region to another. Is this credible? If so, how could it happen? Laws of physics possess two features that might in principle vary from one universe to another. First, there is the mathematical form of the law, and second, there are various "constants" that come into the equations. Newton's inverse square law of gravitation is an example. The mathematical form relates the gravitational force between two bodies to the distance between them. But Newton's gravitational constant G also comes into the equation: it sets the actual strength of the force. When speculating about whether the laws of physics might be different in another cosmic region, we can imagine two possibilities. One is that the mathematical form of the law is unchanged, but one or more of the constants takes on a different value. The other, more drastic, possibility is that the form of the law is different. The Standard Model of particle physics has about twenty undetermined parameters. These are key numbers such as particle masses and force strengths which cannot be predicted by the Standard Model itself, but must be measured by experiment and inserted into the theory by hand. Nobody knows whether the measured values of these parameters will one day be explained by a deeper unified theory that goes beyond the Standard Model, or whether they are genuinely free parameters which are not determined by any deeper-level laws. If the latter is correct, then the numbers are not God-given and fixed but could take on different values without conflicting with any physical laws. By tradition, physicists refer to these parameters as "constants of nature" because they seem to be the same throughout the observed universe. However, we have no idea why they are constant and (based on our present state of knowledge) no real justification for believing that, on a scale of size much larger than the observed universe, they are constant. If they can take on different values, then the question arises of what determines the values they possess in our cosmic region. A possible answer comes from big bang cosmology. According to orthodox theory, the universe was born with the values of these constants laid down once and for all, from the outset. But some physicists now suggest that perhaps the observed values were generated by some sort of complicated physical processes in the fiery turmoil of the very early universe. If this idea is generally correct, then it follows that the physical processes responsible could have generated different values from the ones we observe, and might indeed have generated different values in other regions of space, or in other universes. If we could magically journey from our cosmic region to another region a trillion light years beyond our horizon we might find that, say, the mass or charge of the electron was different. Only in those cosmic regions where the electron mass and charge have roughly the same values as they do in our region could observers emerge to discover a universe so propitiously fit for life. In this way, the intriguingly life-friendly fine tuning of the Standard Model parameters would be neatly explained as an observer selection effect. According to the best attempts at unifying the fundamental forces of nature, such as string theory, the laws of physics as they manifest themselves in laboratory experiments are generally not the true, primary, underlying laws, but effective, or secondary laws valid at the relatively low energies and temperatures that characterize the present state of the universe compared to the ultra-hot conditions that accompanied the birth of the universe. But these same theories suggest (at least to some theorists) that there might be many different ways that the primary underlying laws might "freeze" into the effective low-energy laws, leading not merely to different relative strengths of the forces, but to different forces entirely - forces with completely different properties than those with which we are familiar. For example, there could be a strong nuclear force with twelve gluons instead of eight, there could be two flavours of electric charge and two distinct sorts of photon, there could be additional forces above and beyond the familiar four. So the possibility arises of a domain structure in which the low-energy physics in each domain would be spectacularly different, not just in the "constants" such as masses and force strengths, but in the very mathematical form of the laws themselves. The universe on a mega-scale would resemble a cosmic United States of America, with different shaped "states" separated by sharp boundaries. What we have hitherto taken to be universal laws of physics, such as the laws of electromagnetism, would be more akin to local by-laws, or state laws, rather than national or federal laws. And of this potpourri of cosmic regions, very few indeed would be suitable for life. ## Opposition to the Multiverse Idea In spite of its widespread appeal, and its apparently neat solution of the Goldilocks enigma, the multiverse has some outspoken critics from both inside and outside the scientific community. There are philosophers who think that multiverse proponents have succumbed to fallacious reasoning in their use of probability theory.3 There are many scientists who dismiss the multiverse as a speculation too far. But the most vociferous critics come from the ranks of theorists working on the most fashionable attempt to universe physics, which is known as string theory or, in its most general version, M theory. Many string/M theorists deny the existence of a set of vastly many different worlds. They expect that future developments will expose this mind-boggling diversity as a mirage, and that when physics is finalized it will yield a unique description - a single world, our world. The argument used by anti-multiverse proponents is that the path to a theory of everything involves a progressive unification of physics, a process in which seemingly different and independent laws are found to be linked at deeper conceptual levels. As more of physics falls within the compass of unification, there are fewer free parameters to fix, and less arbitrariness in the form of the laws. It isn't hard to imagine the logical extreme of this process: all of physics amalgamated into one streamlined set of equations. Maybe if we had such a theory, we would find that there were no free parameters left at all. If that were the case, it would make no sense to consider a world in which, say, the strong force was stronger and the electron lighter, because the values of these quantities wouldn't be independently adjustable - they would be fixed by the theory. So far, however, there is little or no evidence to support that viewpoint. ## Shortcomings of the Multiverse Theory One may ask why the multiverse exists and who or what designed it. Although a strong motivation for introducing the multiverse concept is to get rid of the need for design, this bid is only partially successful. Like the proverbial bump in the carpet, the popular multiverse models merely shift the problem elsewhere - up a level from universe to multiverse. To appreciate this, one only has to list the many assumptions that underpin the multiverse theory. First, there has to be a universe-generating mechanism, such as eternal inflation. This mechanism is supposed to involve a natural, law-like process - in the case of eternal inflation, a quantum "nucleation" of pocket universes, to be precise. But that raises the obvious question of the source of the quantum laws (not to mention the laws of gravitation, including the causal structure of spacetime on which those laws depend) that permit inflation. In the standard multiverse theory, the universe-generating laws are just accepted as given: they don't come out of the multiverse theory. Second, one has to assume that although different pocket universes have different laws, perhaps distributed randomly, nevertheless laws of some sort exist in every universe. Moreover, these laws are very specific in form: they are described by mathematical equations (as opposed to, say, ethical or aesthetic principles). Indeed, the entire subject is based on the assumption that the multiverse can be captured by (a rather restricted subset of) mathematics. Furthermore, if we accept that the multiverse is predicted by something like string/M theory, then that theory, with its specific mathematical form, also has to be accepted as given - as existing without need for explanation. One could imagine a different unified theory - N theory, say - also with a dense landscape of possibilities. There is no limit to the number of possible unified theories one could concoct: O theory, P theory, Q theory... Yet one of these is assumed to be "the right one" - without explanation. Now it may be argued that a decent theory of everything would spring from some deeper level of reasoning, containing natural and elegant mathematical objects which already commend themselves to pure mathematicians for their exquisite properties. It would - dare one say it? - display a sense of ingenious design. (Certainly the theoretical physicists who construct such theories consider their work to be designed with ingenuity.) In the past, mathematical beauty and depth have been a reliable guide to truth. Physicists have been drawn to elegant mathematical relationships which bind the subject together with economy and style, melding disparate qualities in subtle and harmonious ways. But this is to import a new factor into the argument - questions of aesthetics and taste. ## Is There a Unique Final Theory? Let me now turn to the main scientific alternative to the multiverse: the possible existence of a unique final theory of everything, a theory that permits only one universe.4 Einstein once remarked that what interested him most was whether "God had any choice in the creation of the world". If some string theorists are right, the answer is no: the universe has to be as it is. There is only one mathematically self-consistent universe possible. And if there were no choice, then there need be no Chooser. God would have nothing to do because the universe would necessarily be as it is. Intriguing though the idea of a "no-free-parameters" theory may seem, there is a snag. If it were correct it would leave the peculiar bio-friendliness of the universe hanging as a complete coincidence. Here is a hypothetical unique theory which just happens, obligingly, to permit life and mind. But there is another, more direct argument against the idea of a unique final theory. The job of the theoretical physicist is to construct possible mathematical models of the world. These are often what are called toy models: too far removed from reality to qualify as serious descriptions of nature. Physicists construct them sometimes as a thought experiment, to test the consistency of certain mathematical techniques, but usually because the toy model accurately captures some limited aspect of the real world in spite of being hopelessly inadequate about the rest. The attraction is that such slimmed-down world models may be easy to explore mathematically, and the solutions can be a useful guide to the real world, even if the model is obviously unrealistic overall. Such toy models are a description, not of the real world but of impoverished alternatives. Nevertheless, they describe possible worlds. Anyone who wanted to argue that there can be only one truly self-consistent theory of the universe would have to give a reason why these countless mathematical models that populate the pages of theoretical physics and mathematics journals were somehow unacceptable descriptions of a logically possible world.5 It's not necessary to consider radically different universes to make the foregoing point. Let's start with the universe as we know it, and change something by fiat: for example, make the electron heavier and leave everything else alone. Would this arrangement not describe a possible universe, yet one that is different from our universe? "Hold on," cries the no-free-parameters proponent, "you can't just fix the constants of nature willy-nilly and declare that you have a theory of everything! There is much more to a theory than a dry list of numbers. There has to be a unifying mathematical framework from which these numbers emerge as only a small part of the story." That is true. But I can always fit a finite set of parameters to a limitless number of mathematical structures, by trial and error if necessary. Of course, these mathematical structures may well be ugly and complicated, but that is an aesthetic judgement, not a logical one. So there is clearly no unique theory of everything if one is prepared to entertain other possible universes and ugly mathematics. So we are still left with the puzzle of why a theory that permits a life-giving universe is "the chosen one". Stephen Hawking has expressed this more eloquently: "What is it that breathes fire into the equations and makes a universe for them to describe?" (Hawking, 1988) Who, or what, does the choosing? Who, or what, promotes the "merely possible" to the "actually existing"? This question is the analogue of the problem of "who made God" or "who designed the Designer". We still have to accept as "given", without explanation, one particular theory, one specific mathematical description, drawn from a limitless number of possibilities. And the universes described by almost all the other theories would be barren. Perhaps there is no reason at all why "the chosen one" is chosen. Perhaps it is arbitrary. If so, we are left still with the Goldilocks puzzle. What are the chances that a randomly chosen theory of everything would describe a life-permitting universe? Negligible. If any one of these infinitely many possibilities had been the one to "have fire breathed into it" (by a Designer with poor taste perhaps?), we wouldn't know about it because it would have gone unobserved and uncelebrated. So it remains a complete mystery as to why this universe, with life and mind, is "the one".6 My conclusion is that both the multiverse theory and the putative no-free-parameters theory might go a long way to explaining the nature of the physical universe, but nevertheless they would not, and cannot, provide a complete and final explanation of why the universe is fit for life, or why it exists at all. ## The Problem of What Exists We have now reached the core of this entire discussion, the problem that has tantalized philosophers, theologians and scientists for millennia: What is it that determines what exists? The physical world contains certain objects - stars, planets, atoms, living organisms, for example. Why do those things exist rather than others? Why isn't the universe filled with, say, pulsating green jelly, or interwoven chains, or disembodied thoughts... The possibilities are limited only by our imagination. The same sort of conundrum arises when we contemplate the laws of physics. Why does gravity obey an inverse square law rather than, for example, an inverse cubed law? Why are there two varieties of electric charge (+ and −) instead of four? And so on. Invoking a multiverse merely pushes the problem back to "why that multiverse". Resorting to a no-free-parameters single universe described by a unified theory invites the retort "Why that theory?" There are only two of what one might term "natural" states of affairs, by which I mean states of affairs that require no additional justification, no Chooser and no Designer, and are not arbitrary and reasonless. The first is that nothing exists. This state of affairs is certainly simple, and I suppose it could be described as elegant in an austere sort of way, but it is clearly wrong. We can confidently rule it out by observation. The second natural state of affairs is that everything exists. By this I mean that everything that can exist does exist. Now that contention is much harder to knock down. We can't observe everything in the universe, and absence of evidence is not the same as evidence of absence. We cannot be sure that any particular thing we might care to imagine doesn't exist somewhere, perhaps beyond the reach of our most powerful instruments, or in some parallel universe. An enthusiastic proponent of this extravagant hypothesis is Max Tegmark.7 "If the universe is inherently mathematical, then why was only one of the many mathematical structures singled out to describe a universe?" he wondered. "A fundamental asymmetry appears to be built into the heart of reality." To restore the symmetry completely, and eliminate the need for a Cosmic Selector, Tegmark proposed that "every mathematical structure corresponds to a parallel universe". So this is a multiverse with a vengeance. On top of the "standard" multiverse I have already described, consisting of other bubbles in space with other laws of physics, there would be much more: "The elements of this [extended] multiverse do not reside in the same space but exist outside of space and time. Most of them are probably devoid of observers (Tegmark, 2003)." Few scientists are prepared to go as far as Tegmark. But if one stops short of declaring that every universe that can exist does exist, we face a puzzle. If less than everything exists, there must be a prescription that specifies how to separate "the actual" from "the possible-but-in-fact-non-existent". The inevitable questions then arise: What is the prescription that divides them? What, exactly, determines that-which-exists and separates it from that-which-might-have-existed-but-doesn't? From the bottomless pit of possible entities, something plucks out a subset and bestows upon its members the privilege of existing. Something "breathes fire into the equations" and makes a universe or a multiverse for them to describe. And the puzzle doesn't stop there. Not only do we need to identify a "fire-breathing actualizer" to promote the merely-possible to the actually-existing, we need to think about the origin of the rule itself - the rule that decides what gets fire breathed into it and what doesn't. Where did that rule come from? And why does that rule apply rather than some other rule? In short, how did the right stuff get selected? Are we not back with some version of a Designer/Creator/Selector entity, a necessary being who chooses "the Prescription" and "breathes fire" into it? We here encounter an unavoidable problem that confronts all attempts to give a complete account of reality, and that is how to terminate the chain of explanation. In order to "explain" something, in the everyday sense, you have to start somewhere. To avoid an infinite regress - a bottomless tower of turtles according to the famous metaphor - you have at some point to accept something as "given", something which other people can acknowledge as true without further justification. In proving a geometrical theorem, for example, one begins with the axioms of geometry, which are accepted as self-evidently true and are then used to deduce the theorem in a step-by-step logical argument.8 Sticking to the herpetological metaphor, the axioms of geometry represent a levitating super-turtle, a turtle that holds itself up without the need for additional support. The same general argument applies to the search for an ultimate explanation of physical existence. Scientists who seek a theory of everything with no free parameters are happy to accept the equations of that theory (e.g. M theory) as their levitating super-turtle. That is their starting point. The equations must be accepted as "given", and used as the unexplained foundation upon which an account of all physical existence is erected. Multiverse devotees (apart perhaps from Tegmark) accept a package of marvels, including a universe-generating mechanism, quantum mechanics, relativity and a host of other technical prerequisites as their super-turtle. Some theologians cast a necessary God in the role of super-turtle. All three camps denounce the other's super-turtles in equally derisory measure. But there can be no reasoned resolution of this debate, because at the end of the day one super-turtle or another has to be taken on faith (or at least provisionally accepted as a working hypothesis), and a decision about which one to pick will inevitably reflect the cultural prejudices of the devotee. The root of the turtle trouble can be traced to the orthodox nature of reasoned argument. The entire scientific enterprise is predicated on the assumption that there are reasons for why things are as they are. A scientific explanation of a phenomenon is a rational argument that links the phenomenon to something deeper and simpler. That in turn may be linked to something yet deeper, and so on. Following the chain of explanation back (or the turtles down), we may reach the putative final theory - the super-turtle - what then? One can ask: Why that unified theory rather than some other? One answer you may be given is that there is no reason: the unified theory must simply be treated as "the right one", and its consistency with the existence of a moon, or of living observers, is dismissed as an inconsequential fluke. If that is so, then the unified theory - the very basis for all physical reality - itself exists for no reason at all. Anything which exists reasonlessly is by definition absurd. So we are asked to accept that the mighty edifice of scientific rationality - indeed, the very mathematical order of the universe - is ultimately rooted in absurdity! There is no reason at all for the scientific super-turtle's amazing levitating power. A different response to such questions comes from the multiverse theory. Its starting point is not a single, arbitrary set of monolithic laws, with fluky, unexplained bio-friendliness, but a vast array of laws, with the life factor accounted for by observer selection. But unless one opts for the Tegmark "anything goes" extreme, then there is still an unexplained super-turtle in the guise of a particular form of multiverse based on a particular universe-generating mechanism and all the other paraphernalia. So the multiverse likewise retains an element of arbitrariness and absurdity. Its super-turtle also levitates for no reason, so that theory too is ultimately absurd. Monotheistic theologians, for whom God plays the role of super-turtle, have had longer to think about this problem. They believe, or at least some do, that the threat of ultimate absurdity is countered by positing that God is a so-called necessary being. This is an attempt (and one that is not obviously successful) at describing a "self-levitation" mechanism - God explains God's own existence - without which we would be right back to arbitrariness, reasonlessness and absurdity: if God exists reasonlessly, then the theistic explanation is also absurd. My proposed solution to the tower of turtles problem is to seek a self-consistent explanation for physical existence, an explanation in which the presence of life and mind in the universe is linked to the very bio-friendly laws that give rise to life and mind by a subtle form of feedback loop. If this scheme can be made to work, it offers the chance to explain the origin of the laws of physics, together with their peculiar bio-friendliness, scientifically, from entirely within the universe. There is no need to appeal to anything outside the universe, anything transcendent. We will never explain why the laws of physics are so well suited to life so long as we cling to the notion of physical laws as absolute, immutable, transcendent, infinitely-precise, universal mathematical relationships, which exist reasonlessly, and are imprinted on the universe from "without" at the moment of birth. Only a scheme that incorporates malleable or flexible laws, coupled in some way to states of the universe that include observers, will offer a chance of success. While the technical details of this coupling have yet to be worked out, there are pointers in the non-local character of quantum mechanics, which allows acts of observation in the present to affect the nature of reality in the past, without permitting any information to propagate backwards in time. A theory of laws that is based such ideas is currently under construction in a collaboration between this author and Yakir Aharonov, (Davies, 2006). ## Notes 1 Richard Feynman, "The meaning of it all", 1963 John Danz Lecture, published under the same title by Addison Wesley (Reading, MA, 1998), p. 14. 2 I shall restrict my discussion to life as we know it. 3 An excellent in-depth discussion and critique of these issues can be found in Neil Manson (ed.), God and Design (Routledge, London, 2003). 4 The unique, no-free-parameters theory is indifferent about whether there is only one representation of the universe or many. If there are many, they will be in identical quantum states. Because of the inherent uncertainty of quantum mechanics, this does not require the universes to be precise clones. So even the supposedly "unique" universe theory is consistent with a limited form of multiverse. 5 There is also a technical explanation, in terms of the foundations of mathematics and logic, of why a unique final theory is impossible. This has to do with what is known as Godel's incompleteness theorem. See, for example, Chaitin (2005). 6 Leibniz, who was a theist, considered this problem, and famously concluded that ours is the best of all possible worlds. 7 Tegmark was not the first to suggest that all possible universes really exist. The idea was embraced, for example, by the Princeton philosopher David Lewis. 8 For example, one axiom states that any two points in space can be connected by a straight line. References Weinberg, Steven. 1977. The first three minutes. London: Andre Deutsch, 149. Hoyle, Fred. 1982. The universe: past and present reflections. Annual Review of Astronomy and Astrophysics 20: 16.CrossRef Susskind, Leonard. 2005. The cosmic landscape: string theory and the illusion of intelligent design. New York: Little Brown, Chapter 11. Chaitin, Gregory. 2005. Meta math! The quest for omega. New York: Pantheon Books. Davies, Paul. 2006. The Goldilocks Enigma: why is the Universe just right for life? London: Penguin Books. Hawking, Stephen. 1988. A brief history of time. New York: Bantam, 174. Tegmark, Max. 2003. Parallel universes. Scientific American, May: 31. Anna-Teresa Tymieniecka and Attila Grandpierre (eds.)Analecta HusserlianaThe Yearbook of Phenomenological ResearchAstronomy and Civilization in the New EnlightenmentPassions of the Skies10.1007/978-90-481-9748-4_21(C) Springer Science+Business Media B.V. 2011 # The Compelling Case For Panspermia Chandra Wickramasinghe1 (1) Cardiff Centre for Astrobiology, Cardiff University, Cardiff, UK Chandra Wickramasinghe Email: ncwick@googlemail.com Abstract Evidence from astronomy, biology and geosciences all point to an extraterrestrial origin of life. The case for cometary panspermia is briefly described. In this model the conditions within comets are argued to have been more appropriate for the origin of life than any terrestrial setting. The subsequent dispersal of life in the universe also involved comets. Our argument suggests that it is to the comets that we must look for life, rather than to other planets or satellites of the solar system, Overwhelmingly it is in the interiors of comets where we should expect life to persist. Comets are transient, fast-moving vistors, and to dig down into one of them would be a technically difficult operation. But so great have been the advances of space research over only twenty years that perhaps we may look forward to the day when this potentially significant contribution to our understanding of the origins of life will be accomplished Hoyle and Wickramasinghe (1978) ## Introduction The question of the origin of life has been approached in a multitude of different ways over the centuries, embracing art, religion, philosophy and finally science. The contemporary scientific approach to this problem is being shaped mainly within the emergent discipline of astrobiology - a discipline that combines the sciences of astronomy, space science and biology. The fact that water and complex carbon-based organic molecules are ubiquitously present outside the Earth is leading some scientists towards a possibly erroneous point of view: that life is not only present everywhere, but that it is easily generated in situ from non-living matter - the ancient doctrine of spontaneous generation being essentially revived. The astronomical origin of the "stuff" of life at the level of atoms is beyond dispute. The chemical elements C,N,O,P... and the metals that are present in all living systems were synthesised from the most common element hydrogen in nuclear reactions that take place in the deep interiors of stars (Burbidge et al., 1957). The explosions of supernovae scatter these atoms into the clouds of interstellar gas and dust from which new stars, planets and comets form. The combination of atoms into organic molecules can proceed in interstellar clouds via well-attested chemical pathways, but only to a certain limiting level of complexity. The discovery of biochemical molecules in space, including comets and meteorites crosses a limiting threshold, although the precise level of biochemical complexity that can be reached through chemistry alone is still in dispute. The only secure empirical fact relating to the origin of life is encapsulated in a dictum eloquently enunciated by Louis Pasteur Omne vivum e vivo - all life from antecedent life (1857). If life is always derived from antecedent life in a causal chain that is clearly manifest in present day life and through the fossil record, the question naturally arises as to when and where this connection may have ceased. The continuation of the life-from-life chain to a time before the first life appears on our planet and before the Earth itself formed implies the operation of "panspermia". The basic concept of panspermia has an ancient history going back centuries - to the time of classical Greece and even before - referring in general to the widespread dispersal of the "seeds of life" in the cosmos (Hoyle and Wickramasinghe, 2000; Arrhenius, 1908). Critics of panspermia often say that such theories are of limited value because they do not address the fundamental question of origins. Nevertheless the question of whether life originated in situ on Earth, or was delivered here from the wider universe constitutes a scientifically valid line of inquiry that needs to be pursued. Whilst the Francis Crick and Leslie Orgel's idea of directed panspermia transfers the problem of origin to another site, possibly invoking intelligent intervention (Crick and Orgel, 1973). Fred Hoyle and I have attempted to expand the domain in which cosmic abiogenesis may have occurred, focussing in particular on totality of comets in our galaxy. Like Crick and Orgel (1973) we were influenced by the super-astronomical odds against the transition from organic molecules to even the most primitive living system (Hoyle and Wickramasinghe, 1982). The currently fashionable view that all extraterrestrial organics arise abiotically - that is to say through non-biologic processes - has no secure empirical basis and is likely to be flawed. On the Earth it is clear that life processes account for almost all the organic molecules on the planet. If biology can somehow be shown to be widespread on a cosmic scale, the detritus of living cells would also be expected to be widely distributed in the Cosmos. The bulk of the organic molecules in space would then be explained as break-up products of life-molecules. Inorganic processes can scarcely be expected to compete with biology in the ability to synthesise systems of biochemicals resembling the detritus of biology. So wherever complex organics are found in an astronomical setting, one might legitimately infer that biology has spread. ## Abiogenesis But what then of a first origin of life? Charles Darwin, whose bicentenary we celebrated in 2009, and who laid the foundations of evolutionary biology, never once alluded to the origin of life in his 1859 book On the origin of species (Darwin, 1859). He had, however, thought about the problem and formulated his own tentative position in a letter to Joseph Hooker in 1871 thus: >.... It is often said that all the conditions for the first production of a living organism are now present, which could ever have been present. But if (and oh! what a big if!) we could conceive in some warm little pond, with all sorts of ammonia and phosphoric salts, light, heat, electricity, & c., present, that a proteine compound was chemically formed ready to undergo still more complex changes, at the present day such matter would be instantly absorbed, which would not have been the case before living creatures were found. Darwin's prescient remarks provided the basic scientific framework for exploring the problem of abiogenesis throughout the twentieth century and beyond. In the late 1920s Oparin (1953) and Haldane (1929) fleshed out Darwin's thoughts into the familiar "Primordial Soup Theory", proposing that the atmosphere of the primitive Earth comprised of a reducing mixture of hydrogen, methane and ammonia and other compounds from which the monomers of life could be readily generated. Primitive "lightening" and solar ultraviolet provided the energy to dissociate these molecules, and the radicals so formed recombined through a cascade of chemical reactions to yield biochemical monomers such as amino acids, nucleotide bases and sugars. The classic experiments of Miller and Urey (1959) demonstrated the feasibility of the chemical processes proposed by Oparin and Haldane, and this led to the belief that life could be generated de novo as soon as the biochemical monomers were in place. The formation of the first fully-functioning, self-replicating life system with the potential for Darwinian evolution is riddled with the difficulty of beating super-astronomical odds and still remains an elusive concept. ## Interstellar Organics Molecules and the Origin of Life on the Earth In recent years Astrobiology has taken up the challenge of extending the Oparin-Haldane ideas of abiogenesis to a wider cosmic canvas. This has been prompted in large measure by the discovery of biochemically relevant molecules such as polyaromatic hydrocarbons in interstellar space, an identification first reported in the journal Nature by Fred Hoyle and myself in 1977 (Hoyle and Wickramasinghe, 1977, 2000). Such molecules have now been inferred to exist in vast quantity not only within the Milky Way but in external galaxies as well (Wickramasinghe et al., 2005). Figure 1 shows the Orion Nebula which contains giant clouds choc-a-bloc with organic molecules. Here is an active site of star-births, the youngest stars being younger than a few million years, and including many nascent planetary systems (protoplanetary nebulae). This veritable stellar and planetary nursery is considered by many to be a region where a Urey-Miller type chemistry occurs on a grand cosmic scale. I shall argue as an alternative that it may rather represent a graveyard of life - polyaromatic hydrocarbons and other organic molecules present here arising from the destruction and degradation of life. Figure 1. The Orion nebula - giant clouds of gas and dust - a stellar nursery Support for the idea that life originated on Earth in a primordial soup is beginning to wear thin in the light of geological and astronomical evidence. It is becoming clear that life arose on Earth almost at the very first moment that it could have survived. During the period from about 4.3 to 3.8 by ago (the Hadean Epoch) the Earth suffered an episode of heavy bombardment by comets and asteroids. Rocks dating back to the tail end of this epoch reveal evidence of an excess of the lighter isotope 12C compared with 13C pointing to the action of microorganisms that preferentially take up the lighter isotope from the environment (Mojzsis et al., 1996; Manning et al., 2006). ## Origin of Life in Comets If one accepts the calculations showing grotesquely small a priori probabilities for the transition of non-life to life (Crick and Orgel, 1973; Hoyle and Wickramasinghe, 1982), it would appear that only two options remain. The origin of life on Earth was an extremely improbable event that did occur and but will effectively not be repeated elsewhere. Or, a very much bigger system than was available on Earth, and a longer timescale was involved in an initial origination event, after which life was transferred to Earth. The present author in collaboration with Fred Hoyle has argued in favour of the latter option (Hoyle and Wickramasinghe, 1982), whilst others may prefer to discard the probability argument as being insecure, and assert that life must of necessity arise readily by an undiscovered process whenever and wherever the right conditions are found. The molecular clouds in the galaxy are of course much bigger in scale than anything on Earth, but in the gaseous interstellar medium all that one could really hope to achieve is the production of organic molecules through gas-phase chemistry. These organic molecules must then enter a watery medium in suitably high concentrations to begin the presumptive prebiotic chemistry that may have eventually led to life. In the formation of a planetary system such as the solar system (and the proto-planetary nebulae such as are seen in Figure 2) the first solid objects to form are the comets. These icy objects would contain the molecules of the parent interstellar cloud, and for a few million years after they condensed would have liquid water interiors due to the heating effect of radioactive decays (Wickramasinghe et al., 2009). If microbial life was already present in the parent interstellar cloud, the newly formed comets could serve to amplify it on a very short timescale. Figure 2. The egg nebula in Cygnus - a protoplanetary nebula But prior to life being generated anywhere, primordial comets could provide trillions of "warm little ponds" replete with water, organics and nutrients, their huge numbers diminishing vastly the improbability hurdle for life to originate. Recent studies of comet Tempel 1 (Figure 3) have shown evidence of organic molecules, clay particles as well as liquid water, providing an ideal setting for the operation of the "clay theory" of the origin of life (Cairns-Smith, 1966; Napier et al., 2007). It can be argued that a single primordial comet of this kind will be favoured over all the shallow ponds and edges of oceans on Earth by a factor 104, taking into account the total clay surface area for catalytic reactions as well as the timescale of persistence in each scenario. With 1011 comets, the factor favouring solar system comets over the totality of terrestrial "warm little ponds" weighs in at a figure of 1015, and with 109 sun-like stars replete with comets in the entire galaxy we tot up a factor of 1024 in favour of a cometary origin life. Figure 3. Comet Tempel 1 showed evidence of relic frozen lakes and clay indicative of early contact with liquid water The next step in the argument is that once life got started in some comet somewhere, its spread in the cosmos becomes inevitable. Comets themselves provide ideal sites for amplification of surviving microbes that are incorporated into a nascent planetary system. Dormant microorganisms are released in the dust tails of comets can be propelled by the pressure of starlight to reach interstellar clouds. Transport of life in the form of microorganisms and spores within the frozen interiors of comets carries only a negligible risk of destruction, whilst transport in either naked form, within clumps of dust or within meteorites entails varying degrees of risk of inactivation by cosmic rays and UV light. It cannot be overemphasised, however, that the successful seeding of life requires only the minutest survival fraction between successive amplification sites. Of the bacterial particles included in every nascent cometary cloud only one in 1024 needs to remain viable to ensure a positive feedback loop for panspermia. All the indications are that this is indeed a modest requirement that is hard, if not impossible, to violate. ## Astronomical Evidence Identifying the composition of interstellar dust in clouds such as Figure 1 has been a high priority for astronomical research since the early 1930s (see Wickramasinghe, 1967). The dust absorbs and scatters starlight causing extinction of the light from stars, and re-emits the absorbed radiation in the infrared. An important clue relating to dust composition follows from studies of extinction of starlight. The total amount of the dust has to be as large as it can be if nearly all the available carbon and oxygen is condensed into grains. The paradigm in the 1960s that the dust was largely comprised of water-ice was quickly overturned with the advent of infrared observations showing absorptions due to CH, OH, C−O−C linkages consistent with organic polymers. The best agreement for a range of astronomical spectra embracing a wide wavelength interval turned out to be material that is indistinguishable from freeze-dried bacteria and the best overall agreement over the entire profile of interstellar extinction was a mixture of desiccated bacteria, nanobacteria, including biologically derived aromatic molecules as seen in Figure 4. Figure 4. Agreement between interstellar extinction (plus signs) and biological models. Mixtures of hollow bacterial grains, biological aromatic molecules and nanobacteria provide excellent fits to the astronomical data. The 2175A hump in the extinction is caused by biological aromatic molecules (See Wickramasinghe et al. (2009) for details) Although astronomers still seek abiotic models to explain the data such as in of Figure 5, biology provides by far the simplest self-consistent model. In particular, a claim that the strong peak of interstellar extinction at 2175A can be explained by abiotic aromatics (PAH's) could be seriously flawed (Hoyle and Wickramasinghe, 2000; Rauf and Wickramasinghe, 2010). Aromatic molecules resulting from the decay, degradation or combustion of biomaterial may be similar to soot or anthracite. Figures 6 and 7 show striking correspondences between astronomical data and such models. Figure 5. Agreement between the 2175A absorption of biomolecules and the data for dust in the galaxy SBS0909+532 at red shift z=0.8. This could correspond to a distance of nearly 8 billion light years (See Wickramasinghe et al. (2005) for details) Figure 6. Comparison between Orion Bar emission and PAH - autosoot system Figure 7. Emission from dust in Antennae galaxies compared to anthracite, a biological degradation product ## Horizontal Gene Transfer Across the Galaxy Whilst amplification of microorganisms within primordial comets could supply a steady source of primitive life (archeae and bacteria) to interstellar clouds and thence to new planetary systems, the genetic products of evolved life could also be disseminated on a galaxy-wide scale (Napier, 2004; Wallis and Wickramasinghe, 2004; Wickramsinghe and Napier, 2008). Our present-day solar system which is surrounded by an extended halo of some 100 billion comets (the Oort Cloud) moves around the centre of the galaxy with a period of 240 million years. Every 40 million years, on the average, the comet cloud becomes perturbed due to the close passage of a molecular cloud. Gravitational interaction then leads to hundreds of comets from the Oort Cloud being injected into the inner planetary system, some to collide with the Earth. Such collisions can not only cause extinctions of species (as one impact surely did 65 million years ago, killing the dinosaurs), but they could also result in the expulsion of surface material back into space. A fraction of the Earth-debris so expelled survives shock-heating and could be laden with viable microbial ecologies as well as genes of evolved life. Such life-bearing material could reach newly forming planetary systems in the passing molecular cloud within a few hundred million years of an ejection event. A new planetary system thus comes to be infected with terrestrial microbes terrestrial genes that can contribute, via horizontal gene transfer, to an ongoing process of local biological evolution. Once life has got started and evolved on an alien planet or planets of the new system the same process can be repeated (via comet collisions) transferring genetic material carrying local evolutionary "experience" to other molecular clouds and other nascent planetary systems. If every life-bearing planet transfers genes in this way to more than one other planetary system (say 1.1 on the average) with a characteristic time of 40 million year then the number of seeded planets after 9 billion years (lifetime of the galaxy) is (1.1)9,000/40 ∼ 2 × 109. Such a large number of "infected" planets illustrates that Darwinian evolution, involving horizontal gene transfers, must operate not only on the Earth or within the confines of the solar system but on a truly galactic scale. Life throughout the galaxy on this picture would constitute a single connected biosphere. ## Life on Other Planets Much astrobiological attention is being focussed nowadays on the planet Mars with attempts to find evidence of contemporary life, fossil life and potential life habitats. The Jovian moon Europa, the Venusian atmosphere, the outer planets and comets are also on the astrobiologist's agenda but further down the time-line. The unambiguous discovery of life on any one of these solar system objects would be a major scientific breakthrough and would offer the first direct test of the concept of an interconnected biosphere. The discovery of bacteria and archaea occupying the harshest environments on Earth continues to provide indirect support for panspermia. Viable transfers of microbial life from one cosmic habitat to another requires endurance of high and low temperatures as well as exposure to low fluxes of ionising radiation delivered over astronomical timescales, typically millions of years. The closest terrestrial analogue to this latter situation exists for microorganisms exposed to the natural radioactivity of the Earth, an average flux of about 1 rad per year. Quite remarkably microbial survival under such conditions is well documented. Dormant microorganisms in the guts of insects trapped in amber have been revived and cultured after 25-40 million years (Cano and Borucki, 1995); and a microbial population recovered from 8 million year old ices has shown evidence of surviving DNA (Biddle et al., 2007). All this goes to show that arguments used in the past to "disprove" panspermia on the grounds of survivability during interstellar transport are likely to be seriously flawed. ## Microfossils in Meteorites The topic of microfossils in carbonaceous chondrites has sparked bitter controversy in ever since it was first suggested in the mid-1960s (Claus, Nagy and Europa, 1963). Since carbonaceous chondrites are generally believed to be derived from comets, the discovery of fossilised life forms in comets would provide strong prima facie evidence in support of the theory of cometary panspermia. However, claims that all the micro structures (organised elements) discovered in meteorites were artifacts or contaminants led to a general rejection of the microfossil identifications. The situation remained uncertain until early in 1980 when H.D. Pflug found a similar profusion of "organised elements" in ultrathin sections prepared from the Murchison meteorite, a carbonaceous chondrite that fell in Australia on 28 September 1969 (Pflug, 1984). The method adopted by Pflug was to dissolve-out the bulk of minerals present in the thin meteorite section and examine the residue in an electron microscope. These studies made it very difficult to reject the fossil identification. More recent work by Hoover (2005) and his team leaves little room for any other interpretation of these structures than that they are microbial fossils (Figure 8). Figure 8. A structure in the Murchison meteorite compared with living cyanobacteria (Hoover, 2005) ## Concluding Remarks In conclusion we note that comets are beginning to acquire a prime importance and relevance to the problem of the origin of life. It would surely be prudent to study these celestial wanders more carefully. From 1986 onwards infrared spectra of comets have shown consistency with the presence of biologically relevant material, perhaps even intact desiccated bacteria. With some 50-100 tonnes of cometary debris entering the Earth's atmosphere on a daily basis the collection and testing of this material for signs of life should in principle at least be straightforward. Such a project was recently started in 2001 by the Indian Space Research Organisation, ISRO, in partnership with Cardiff University. Samples of stratospheric aerosols collected using balloon-borne cryosamplers were investigated independently in Cardiff, Sheffield and India and have revealed tantalising evidence of microbial life (Harris et al., 2002; Wainwright et al., 2003, 2004). A particularly interesting component of the collected samples was in the form of 10 μm clumps that have were identified by SEM and fluorescence tests as being viable but not culturable microorganisms (Figure 9). Figure 9. Stratospheric dust collected asceptically from an altitude of 41 km showed evidence of clumps of viable but not culturable bacteria. The left panel shows a clump fluourescing under the action of a dye and the right panel shows a scanning microscope image showing a clump of cocci and a bacillus Because such large aggregates are virtually impossible to loft to 41 km a prima facie case for their extraterrestrial cometary origin has been made. However, in view of the profound importance of any conclusion such as this, it is a high priority to repeat projects of this kind. Compared with other Space Projects for solar system exploration the budgets involved are trivial, but the scientific pay-off could be huge. We might ultimately hope for confirmation that Darwinian evolution takes place not just within a closed biosphere on Earth but extends over a large and connected volume of the cosmos. References Arrhenius, S. 1908. Worlds in the making. London: Harper. Bidle, K.D., S. Lee, D.R. Marchant, and P.G. Falkowski. 2007. Fossil genes and microbes in the oldest ice on earth. PNAS 104(33): 13455-13460. Burbidge, E.M., G.R. Burbidge, W.A. Fowler, and F. Hoyle. 1957. Synthesis of the elements in stars. Reviews of Modern Physics 29(4): 547. doi:10.1103/RevModPhys.29.547.CrossRef Cairns-Smith, A.G. 1966. The origin of life and the nature of the primitive gene. Journal of Theoretical Biology 10: 53.CrossRef90178-0) Cano, R.J., and M. Borucki. 1995. Revival and identification of bacterial spores in 25- to 40-million-year-old Dominican amber. Science 268: 1060.CrossRef Crick, F.H.C., and L.E. Orgel. 1973. Directed panspermia. Icarus 19: 341-346.CrossRef90110-3) Darwin, C. 1859. On the origin of species by means of natural selection. London: John Murray. Haldane, J.B.S. 1929. The origin of life. London: Chatto and Windys. Harris M.J. et al. 2002. The detection of living cells in the stratosphere. Proceedings of SPIE conference 4495: 192. Hoover, R.B. 2005. In Perspectives in astrobiology, eds. R.B. Hoover, A.Y. Rozanov, and R.R. Paepe, vol. 366, 43. Amsterdam: IOS Press. Hoyle, F., and N.C. Wickramasinghe. 1977. Nature 270: 323.CrossRef Hoyle, F., and N.C. Wickramasinghe. 1978. Lifecloud, 141. London: J.M. Dent. Hoyle, F., and N.C. Wickramasinghe. 1982. Proofs that life is cosmic, Memoirs of the institute of fundamental studies, vol. 1. Colombo: Govt. Press (http://www.panspermia.org/proofslifeiscosmic.pdf) Hoyle, F. and N.C. Wickramasinghe. 2000. Astronomical origins of life: Steps towards panspermia. Dordrecht: Kluwer Academic Press.CrossRef Manning, C.E., S.J. Mojzsis, and T.M. Harrison. 2006. Geology, age, and origin of supracrustal rocks at Akilia, West Greenland. American Journal of Science 306: 303-366. doi: 10.2475/05.2006.02.CrossRef Miller, S.L. and H.C. Urey. 1959. Science 130: 245.CrossRef Mojzsis, S.J., G. Arrhenius, K.D. McKeegan, T.M. Harrison, A.P. Nutman, and C.R.L. Friend. 1996. Evidence for life on earth by 3800 million years ago. Nature 384(6604): 55-59.CrossRef Napier, W.M. 2004. Monthly Notices of the Royal Astronomical Society 348: 46CrossRef Napier, W.M., J.T. Wickramasinghe, and N.C. Wickramasinghe. 2007. The origin of life in comets. International Journal of Astrobiology 6(4): 321-323.CrossRef Oparin, A.I. 1953. The origin of life (trans. S. Margulis). New York: Dover. Pasteur, L. 1857. Lemoire sur la fermentation appelee lactique. CR Academy of Science 45: 913-916. Pflug, H.D. 1984. In Fundamental studies and the future of science, ed. N.C. Wickramasinghe. Cardiff: University College Cardiff Press. Rauf, K., and C. Wickramasinghe. 2010. Evidence for biodegradation products in the interstellar medium. International Journal of Astrobiology 9(1): 29-34.CrossRef Wainwright, M., N.C. Wickramasinghe, J.V. Narlikar, and P. Rajaratnam. 2003. Microorganisms cultured from stratospheric air samples obtained at 41 km. FEMS Microbiology Letters 218: 161-165.CrossRef Wainwright, M., N.C. Wickramasinghe, J.V. Narlikar, P. Rajaratnam, and J. Perkins. 2004. Confirmation of the presence of viable but non-culturable bacteria in the stratosphere. International Journal of Astrobiology 3(1): 13-15.CrossRef Wallis, M.K., and N.C. Wickramasinghe. 2004. Interstellar transfer of planetary microbiota. Monthly Notices of Royal Astronomical Society 348: 52-61.CrossRef Wickramasinghe, J.T., and W.M. Napier. 2008. Impact cratering and the Oort Cloud. MNRAS 387(1): 153-157.CrossRef Wickramasinghe, J.T., N.C. Wickramasinghe, and M.K. Wallis. 2009. Liquid water and organics in comets: implications for exobiology. International Journal of Astrobiology 8(4): 281-290.CrossRef Wickramasinghe, N.C., J.T. Wickramasinghe, and E. Mediavilla. 2005. The interpretation of a 2175A absorption feature in the gravitational lens galaxy SBS0909+53f2 at z=0.83. Astrophysics and Space Science 298: 453-460.CrossRef Anna-Teresa Tymieniecka and Attila Grandpierre (eds.)Analecta HusserlianaThe Yearbook of Phenomenological ResearchAstronomy and Civilization in the New EnlightenmentPassions of the Skies10.1007/978-90-481-9748-4_22(C) Springer Science+Business Media B.V. 2011 # Nanobionts and the Size Limit of Life Laszlo G. Puskas1 (1) Laboratory for Functional Genomics, Department of Genetics, Biological Research Center of the Hungarian Academy of Sciences, Szeged, Hungary Laszlo G. Puskas Email: puskas.szbk@gmail.com Abstract The existence of nano-sized bacteria (less than 150 nm in diameter) have been proposed for more than 2 decades but remain controversial and the subject of intense scientific debate. The identification of nanobacteria or nanobacteria like fossils from different rock types, Martian metorites and even from biological samples (e.g. human kidney stones) questions the minimal size of life accepted by the scientific community based on present knowledge on organization, enzyme catalysis, genome structure and information content. Our group isolated nanobacteria-like particles from human atherosclerotic plaques and analyzed their DNA and protein content. Based on our observations these particles are formed mainly or exclusively by host proteins and act as crystalization seeds for biocalcification. I propose that nanobacteria-like particles, or so-called "nanobionts" (combining "nano" and "protobionts") can be generated by self assembly from biopolymers simlar to prion-like structures. Unlike known prions these particles are composed of numerous different polymers having small number of chemical units. Unlike early living creatures nanobionts are of smaller complexity. In theory, nanobionts could reach the development stage with self replication capability and could be at the border of life where physical matter starts the odyssey to higher complexity and consciousness. Nanobacteria, bacterial like organisms with unusually small sizes and widespread distribution in geological samples as well as fossil structrures found on meteorites (McKay et al., 1996) indicates possible early and primitive forms of life precursors. Nanobacteria are controversial despite that they have been found in different body fluids, blood infusion products, vaccines and tissues of animal and human origin (Kajander, 2006; Kajander et al., 2001). The same entities have been named to be "nannobacteria" from clay samples. "Nannobacteria" in hardgrounds, calcite cements, sulfide materials and travertines by Folk R.L. were published in early 1992 (Folk, 1992). Most of the critical notes were addressed because of the limited techniques applied when these assumed microbes were described and almost all of the declared evidences were based on exclusively morphological characteristics. The problems with morphology arrise when one applies electronmicrographic pictures, as very drastic sample preparation is done resulting in lots of morphological artefacts. Because of the extreme small size (50-500 nm) and marked pleomorphism, these features are currently not confirmed and supported by conventional microbiology. The identification of nanobacteria or nanobacteria like fossils from different rock types, Martian metorites and even from biological samples (e.g. human kidney stones) questions the minimal size of life accepted by the scientific community based on present knowledge on organization, enzyme catalysis, genome structure and information content. The surface of Martian meteorite ALH84001 reveals structures 100 nm in diameter which resemble terrestrial nanobacteria. Contains polyaromatic hydrocarbons (PAH), carbonate deposits and magnetite crystals similar to remains of bacterial magnetosomes (McKay et al., 1996). Among others we tried to detect the presence of nucleic acid (both DNA and RNA), or any bacteria-like or bacterial proteins by different methodologies (nucleic acid amplification techniques, mass-spectrometry-based protein sequencing and identification). We could detect nucleic acids from only enviromental contamination (from other bacteria) and found only human proteins from nanobacteria cultivations using human serum in the media. From these experiments we cannot exclude the presence of any bacteria-like macromolecules, but it is highly probable that the formation of these agents are highly dependent on the presence of proteins and other macromolecules from the host origin. Therefore, from our and other laboratories' negative experiments we use other term for this controversial small microorganism-like structure to refer them as nanobacteria-like particles. When we used immunodetection of NB antigens in calcified human tissues we were able to show for the first time the presence of these particles in atherosclerotic plaques in the aortic valve and in the carotis (Puskas et al., 2005). Our finding opens the possibility that initialization of inorganic crystallization by these particles may contribute to vascular calcifications. Besides valve calcifications these particles have been implicated in numerous diseases and as infectious agents. They have been isolated from human and animal serum human kidney stones, dental pulp stones, bile and liver and kidney cyst fluids (McKay et al., 1996; Kajander, 2006; Kajander et al., 2001; Kajander and Ciftcioglu, 1998). Hypotheses concerning a role for nanobacteria in tissue calcification and cystogenesis have also appeared (Ciftcioglu et al., 1999). However, the microbiological origin of these particles was queried the importance of biomineralization in pathological calcifications is emphasized. Besides the "classical" nanobacterial particles living and culturable microbes with low nucleic acid content (referring them as LNA bacteria) and with limited size have been recently described. LNA bacteria represent a unique and viable fraction of indigenous aquatic microbial communities (Wang et al., 2009). Cells of all isolates were in the range of 300-400 nm in width and 500-600 nm in length. The biovolume for the cells was on average below 0.05 mm3. These bacteria are extremely small but their size is still ten times bigger in length and 1000× the volume of the predicted smallest nanobacterium-like particle. Therefore, the failure to detect LNA bacteria themselves before and to observe their activity may be because of the limited sensitivity of the applied methods rather than their actual activity status. It is important to emphasize again that failure of detecting any specific, bacteria-like macromolecules from nanobacteria-like particles does not mean negative results, could only mean the limits of the applied methods. The size limit of life is limited by the water content, the hydrophilicity of polymers, the size of ribosome (1/cell: app. 50 nm), the number of information units necessary (genes built up from nucleic acids) and the concentration of small molecules to conduct biochemical processes to 120-150 nm. Although I believe mainly based on our observations that nanobacteria-like particles are formed mainly or exclusively by host proteins and act as crystalization seeds for biocalcification, but could represent one of the earlier forms of macromolecule-assembly, the formation of conformation-based multicomponent systems that governed by self-organizing properties catalyzed by inorganic ions, clay surfaces or amphypathic molecules. I propose that nanobacteria-like particles, or so-called "nanobionts" (combining "nano" and "protobionts") can be generated by self assembly from biopolymers simlar to prion-like structures. King and Diaz-Avalos reported evidence that heritable information of distinct prion strain is encoded by different self-propagating cross-beta folding patterns of the same prion protein (King and Diaz-Avalos, 2004). As demonstrated by Tanaka et al., different conformations may have arisen as a way to adapt to environmental stress and propogate that adaptation to neighboring cells (Tanaka et al., 2006). Self-propagating biopolymers in general are not restricted to proteins. They can build up networks and complex systems. Unlike known prions these particles are composed of numerous different polymers having small number of chemical units. Unlike early living creatures nanobionts are of smaller complexity. In theory, nanobionts could reach the development stage with self replication capability and could be at the border of life where physical matter starts the odyssey to higher complexity and consciousness. The transition from non-living to living matter may have resulted similarly to nanobiont formation from the self-organizing properties of organic molecules and their interactions with a chemically rich inorganic environment. Multiple levels of chemical order (networks of polymers, ions) leads to complex systems that pave the way to living nano-sized protobionts ("nanobionts"). Therefore from the early scientific term from nanobacterial strain through non-living particles there is a way to nanobionts which denotes for the simplicity of building blocks and the physical predisposition of complexes to form ordered structures that initiated cellular formation. > /1/ - Nanobacterium sanguineum - /2/ Nanobacterium-like particles - /3/ nano coacervates - /4/ nano protobionts - /5/ Nanobionts Although during proteome analysis (protein extraction from nanobionts cultivated in culture medium including 10% human serum, gel-electrophoresis, mass-spectrometry analysis) we identified only human proteins, most of these proteins have common affinity to calcium ions, including fibronectin, Protein S, vitronectin etc. Cultivation of nanobionts could be achieved in cell culture media, but could be inhibited in the presence of calcium chelators. Nanobionts have long propagation time and ordered precipitation of calcium apatite at physiological ion concentrations could be detected on their surface. Results that a solution containing RNA, fatty acids and clay produces structures that contain a potentially catalytic surface and a potential informational biopolymer encapsulated within a membrane highlight the ability of mineral surfaces to bring together and organize key components of primordial life (Luisi et al., 2004). Multi-component self-propagating polymers (prion-like structures) in mineralized compartent may be the first nanoscale biosystems as I referred them the nanobionts. Because of their small size, mineral protection by thick calcified shell, high resistancy against radioactivity and heat make nanobionts ideal candidates not only to survive in hostile environments in the universe, but they also have probable ability to resist space travel, which could support the pansmermia hypothesis of life propagation in the Earth and spread of life forms through the Universe (Wickramasinghe, 2004). References Ciftcioglu, N., M. Bjorklund, and K. Kuorikoski, et al. 1999. Nanobacteria: An infectious cause for kidney stone formation. Kidney International 56: 1893-1898.CrossRef Folk, R.L. 1992. Bacteria and nannobacteria revealed in hardgrounds, calcite cements, native sulfur, sulfide materials, and travertines (abstract). Geological Society of America Annual Meeting, Program Abstracts, 104. Kajander, E.O. 2006. Nanobacteria-propagating calcifying nanoparticles. Letters in Applied Microbiology 42(6): 549-552. Kajander, E.O., and N. Ciftcioglu. 1998. Nanobacteria: An alternative mechanism for pathogenic intra- and extracellular calcification and stone formation. The Proceedings of the National Academy of Sciences USA 95: 8274-8279.CrossRef Kajander, E.O., N. Ciftcioglu, M.A. Miller-Hjelle, J.T. Hjelle. 2001. Nanobacteria: Controversial pathogens in nephrolithiasis and polycystic kidney disease. Current Opinion in Nephrology and Hypertension 10(3): 445-452.CrossRef King, C.Y., and R. Diaz-Avalos. 2004. Protein-only transmission of three yeast prion strains. Nature 428(6980): 319-323.CrossRef Luisi, P.L., P.S. Rasi, and F. Mavelli. 2004. A possible route to prebiotic vesicle reproduction. Artif Life 10(3): 297-308.CrossRef McKay, D.S., E.K. Gibson Jr, K.L. Thomas-Keprta, H. Vali, C.S. Romanek, S.J. Clemett, X.D. Chillier, C.R. Maechling, and R.N. Zare. 1996. Search for past life on Mars: Possible relic biogenic activity in martian meteorite ALH84001. Science 273(5277): 924-930.CrossRef Puskas, L.G., L. Tiszlavicz, Z. Razga, L.L. Torday, T. Krenacs, and J.G. Papp. 2005. Detection of nanobacteria-like particles in human atherosclerotic plaques. Acta Biologica Hungarica 56(3-4): 233-245.CrossRef Tanaka, M., S.R. Collins, B.H. Toyama, and J.S. Weissman. 2006. The physical basis of how prion conformations determine strain phenotypes. Nature 442(7102): 585-589.CrossRef Wang, Y., F. Hammes, N. Boon, M. Chami, and T. Egli. 2009. Isolation and characterization of low nucleic acid (LNA)-content bacteria. ISME Journal 3(8): 889-902.CrossRef Wickramasinghe, C. 2004. The universe: A cryogenic habitat for microbial life. Cryobiology 48(2): 113-125.CrossRef Anna-Teresa Tymieniecka and Attila Grandpierre (eds.)Analecta HusserlianaThe Yearbook of Phenomenological ResearchAstronomy and Civilization in the New EnlightenmentPassions of the Skies10.1007/978-90-481-9748-4_23(C) Springer Science+Business Media B.V. 2011 # The Russian Cosmism and the Modern Theory of Complexity: The Comparative Analysis Helena Knyazeva1 (1) Institute of Philosophy, Russian Academy of Sciences, Moscow, Russia Helena Knyazeva Email: knyazeva@iph.ras.ru Abstract From the standpoint of the modern theory of complexity, one can discover new, nontrivial senses in the notions of main representatives of the Russian cosmism (Nicolay A. Berdyayev, Sergey N. Bulgakov, Vladimir I. Vernadsky, Alexander K. Gorsky, Valerian N. Muravyov, Vladimir S. Solovyov, Nicolay A. Umov, Nicolay A. Fyodorov, Pavel A. Florensky, Konstantin E. Tsiolkovsky, etc.). The most influential their notions are the following: the constructive role of chaos in evolution, the active creative activities of a man in achieving final objects, the animated nature of any thing in cosmos and seeds of life scattered in the universe, the integrity of biosphere and noosphere, the mastering of time and the purposeful opening up new media of habitation. The problems of evolutionary aims and integrity, of the active role of man in choosing of a preferable path of evolution are central in the modern theory of complexity (the theory of self-organization of complex systems, or synergetics) as well. The problems of wholeness and of purpose in different aspects are central in the modern theory of complex systems, which is named also synergetics. It is a holistic theory, and holism is a basis of a new thinking of the twenty-first century. From the standpoint of the modern theory of complexity, one can discover new, nontrivial senses in ideas put forward by the representatives of the Russian cosmism (Nicolay A. Berdyayev, Sergey N. Bulgakov, Vladimir I. Vernadsky, Alexander K. Gorsky, Valerian N. Muravyov, Vladimir S. Solovyov, Nicolay A. Umov, Nicolay A. Fyodorov, Pavel A. Florensky, Konstantin E. Tsiolkovsky). These are idea of creative role of chaos in evolution and the constructive activities of a man in achieving final objects, the animated nature of any thing in cosmos and seeds of life scattered in the universe, the integrity of biosphere and noosphere, the mastering of time and the purposeful opening up new media of habitation. ## Active Role of a Man in the Process of Cosmic Evolution The idea that a man is embedded in cosmos and participates in all past and future events goes through works of the Russian cosmists. A man is able to actively influence the course of evolution to humankind's good. N.A. Berdyayev (1874-1948) wrote: "The mental elements of a man are cosmic by their nature... One can found all stratifications of the world, all its composition in the man" (Berdyaev, 1994, p. 82). There is a deep affinity between a man and nature. That is why he is able to re-create the world from within of it. He is an intermediate participant of the process of cosmic evolution. Another Russian thinker S.N. Bulgakov (1871-1944) noted: "The human creative work is metaphysically justified by his real participation in the Divine Sophia, who leads the divine forces of Logos in the world... The man can cognize nature and exert influence upon it as well as 'conquer' it, he can be its 'tsar' only because he carries in himself, although in a latent form, all its metaphysical stock and - to the degree of its development and actualization - he masters nature" (Bulgakov, 1993, pp. 158, 159). V.N. Muravyov advanced an idea that the mission of a human being in the universe consists of mastering of time, of gaining the victory over time, particularly rejuvenation of human organism and attaining of human immortality. In his philosophical opus "Mastering of Time", he wrote that nature should turn into the history, and the history should be actively and consciously built by a man by means of transformation of cosmos for his own benefit, by means of improvement of life, nature and cosmos. "Life which is consciously built by a man is culture. Culture is the scope of results attained by man in his work of transformation of the world. Culture is a world, which is modified and variable by man according to the ideals his mind... The man should become not only homo sapiens, but also a real sovereign of nature, homo creator" (Muravyov, 1993, p. 198). From the point of view of the theory of complexity, the constructive role of a man in evolution is expressed in his ability to master time. Mastering of time is a key action of a certain man in a key moment of time, a way of resonant (organized in a right topological way) influence upon a system. To manage time, to put it more precisely to master time, is to know how to unify complex structures in a resonant way, i.e. to create a common tempo-world which is able to accelerate development of a produced whole and its constituent parts. The path of co-evolution is a mutually beneficial path into the future. ## Attraction to Certain Forms Variations in nature are not absolutely random, "blind"; primordially, there are preferences to certain structures. As V.S. Solovyov (1853-1900) put it, "Nature demonstrates an aspiration for life or desire to live" (Solovyov, 1988, p. 372). The selective retention and the choosing of forms occur on the basis of an available spectrum of paths of evolution. Each complex system has not a single but a multitude of paths of evolution, which are determined by a spectrum of structure-attractors. There are different variants of development. In spite of the existence of a whole set of possible evolutionary paths, many structure-attractors remain hidden. Many possibilities will not be actualized. Many inner purposes cannot be achieved within given parameters of the medium. It looks as if a lot of things exist in a latent world. The attractors as future states are pre-determined (they are determined by their own properties of a given open nonlinear medium). Patterns precede processes. They can be interpreted as memory of the future, "remembrance of future activities". According to S.N. Bulgakov, "the world is flexible, it can be recreated and even in different ways". The world can really be reconstructed. However, not anyhow, not in any arbitrary and thinkable way! It can be reconstructed in accordance with its own forms, spectra of structure-attractors of evolution. The creative and constructive activities of a man has natural limits in form of "own aspirations", inner potencies of natural and cosmic media (systems). ## Potentially the Best World Our world, although it is not perhaps the best of all possible worlds, may and should become such a world, because it is potentially the best one. N.F. Fyodorov (1829-1903) in his work "The Philosophy of the Common Task" called upon the conscious control over the forces of blind nature and the rebuilding of the world in man's own way for the sake of humankind. For example, he thought that, in the case of cosmic catastrophe and of extinction of Sun, Earth might be launched as a spaceship. He put forward the ideas of immortality for all, revival of the dead, restoring life and making it infinite, transformation of physical forms. In particular, the man must become an autotrophic self-feeding creature. To him, the full victory will be achieved only when everyone is returned to a transformed immortal life. These ideas are revived now in the movement of transhumanism. Every complex system has not the only paths of evolution, but a multitude of paths determined by a spectrum of structure-attractors. According to the theory of complexity, the human creative activity to improve the world has natural constrains. These constrains go from cosmos itself, from the inner potencies (trends) of complex systems. ## Reviving Chaos In the Russian cosmism, chaos is understood as "reviving" and creative. V.S. Solovyov underlines that "gusts of primordial forces and primordial weakness which are alien to beauty engender it already in the inorganic world, when becoming willy-nilly - in different aspects of nature - material for more or less expression of the world idea or the positive all-unity" (Solovyov, 1988, pp. 371, 372). From the point of view of the theory of complexity, one must not fight against chaos that eats away structures. On the contrary, structures appear on a chaotic basis and due to chaos. Chaos serves as a mechanism of going out to structure-attractors of evolution. To see the beauty and constructive nature of chaos is tour de force, great deed of this theory. The small and the chaotic are beautiful, because they open the possibility of the birth of something new. Beauty may be considered from the synergetic point of view as an intermediate phenomenon between chaos and order. Beauty is not full symmetry but a certain symmetry breaking. The theory of complexity allows to understanding destruction as a creative principle and "passion for destruction as a creative passion" (Mikhail Bakunin), for only when ridding of the former structures, turning the processes in a reverse direction, on the splinters of the old, an attractive new may be created. Order and chaos, organization and disorganization, construction and destruction seem to be well-balanced in the world. Thus, it is senseless to resist chaos, or to strive to completely eliminate the negative, destructive elements from the world. Chaos is a necessary condition for self-organization. Besides this, chaos serves as a basis for integration of relatively simple evolutionary structures into more complex ones. It is a mechanism of coordinating their tempos of evolution. Chaos, fluctuations on micro-level, can also be a way of evolutionary switching, allowing a periodical transition from one evolutionary regime to another one. ## Ubiquity of Seeds of Life The Russian cosmists were convinced that the hierarchical scale of evolutionary forms of nature is persistent. They believed in the animated nature of cosmic entities. Konstantin E. Tsiolkovsky (1857-1935) wrote: "The whole Universe is alive but the force of sensibility becomes apparent in all its magnificence only for the highest animals" (Tsiolkovsky, 1993, p. 266). "Atom is always living and always happy in spite of enormous spaces of nonexistence or states in inorganic matter" (Tsiolkovsky, 1993, p. 275). "All the bodies of cosmos are responsive... Dead bodies are sometimes even more responsive than living ones" (Tsiolkovsky, 1993, p. 265). These thoughts could be found naive ones but the modern theory of complexity reveals a profound rational sense in them. This theory builds bridges between the lifeless and living nature, between quasi purposeful behavior of natural systems and rationality of a man, between the birth of something new in nature and the human creative activity. The theory discovers universal patterns of self-organization. Structures in plasma or molecules in convection currents in liquids or gazes behave like living creatures, because they are able to self-organization and to self-completing of an integral structure. Responsiveness of forms of lifeless nature signifies that they are sensitive to resonant influences in the states of instability. The lifeless nature has memory, in other words, processes, which is going on in a complex structure today are influenced by its "prehistory". ## Great Mystery of Connection of Time There is a profound connection of space and time in evolutionary forms of nature. V. I. Vernadsky (1863-1945) noted: "Great mystery of yesterday-today-tomorrow which penetrates us, while we live, applies to all nature. Space-time is not a stationary abstract construction or a phenomenon. It contains yesterday-today-tomorrow. All space-time as a whole is imbued with it in an all-embracing way" (Vernadsky, 1988, p. 249). The spatial configuration, "architecture" of a complex metastable evolving structure contains information. As if time would taken off in this structure. For us, external observers, it signifies that different temporal stages of evolution of this structure are present in it today, are "impressed" in its architecture. Information of the history and perspectives of evolution of this structure can be retrieved by analyzing a synchronic shear of this structure at the present moment of time. Certain fragments (spatial arias) of this shear show the character of the past development of the structure as a whole, whereas other fragments show the character its future development. In other words, the complex structure can be presented as a spatial development of discrete separated stages of its development. This interesting law of spatial organization of complex evolutionary structures results from the fact that structure-attractors are described by invariant-group solutions. It is known that space and time are not free in invariants; they are connected in a certain way. We could say as if spatialization of time and temporalization of space would take place. "Zum Raum wird hier die Zeit" ("Time turns into space here"), - A.K. Gorsky turns our attention to Wagner's saying. From the point of view of the theory of complexity, possible senses of paradoxical poetic images become clear, such as, for instance, "the past is still ahead" (Marina Tsvetayeva), "the earlier depends on the later" (N. Hartmann), "remembrance of the future". The future is here and now, it is something unrevealed in the present. The course of processes in the present depends on the attitudes and aims, on structure-attractors of evolution. ## Hierarchical Scale of Living Beings The modern theory of complexity considers evolution of the world as an evolution of hierarchically subordinated media. It develops the notion of the Russian cosmists that "nature is an organic hierarchy of living creatures... The world is throughout a hierarchy of living creatures, original personalities which are capable of the creative increase of being" (Berdyayev, 1994, pp. 89, 143). The hierarchical scale includes both footsteps of the living nature and the lifeless nature. Evolution manifests itself as a creation more and more complex nonlinear media, which are capable to integrate an increasing amount of simple structures and to form more and more complex organization. Each new medium with new properties and new nonlinearities possesses its own spectrum of forms. By going up the stairs, acceleration of tempos of evolution occurs. Evolution is not only the creation of increasingly complex structures. By going up the footsteps of complexity from the inanimate nature to animate nature and from the living beings to a man, processes are "packed up" more closely, they contract and their course is accelerated. The path of evolutionary ascent is a path of creation of more and more complex integrated structures. This is the path of integration of multitude of structures into a comprehensive whole. The path of transformation of biosphere in noosphere, a sphere of collective mind is connected with the gradual "reconstruction of the whole biosphere in interests of freely thinking mankind as a united whole"(Vernadsky, 1993, p. 341). The theory of complexity discovers laws of nonlinear synthesis of structures, of their co-evolution. Co-evolution is per se "the art to live together". To follow the rules of co-evolutions signifies to construct a preferable and sustainable future. An important task can be set: to define order parameters of evolution of states that determine a corridor of their sustainable co-evolution. General rules of co-evolution of complex social, economic and geopolitical structures on national, international and global scales, which arise from the methodological analysis of mathematical models, can be summarized in a form of the following key notions (Knyazeva and Kurdyumov, 2001, 2002): (a) it is a common tempo of development that is a key indicator of connection of complex structures into a single whole; (b) non-uniqueness and involuntariness of ways of assembling of a whole from parts; (c) structures-parts enter the whole not in an invariable form, they are transformed and became deformed in a certain way in accordance with the peculiarities of an emerging evolutionary whole; (d) for assemblage of a new complex structure, for re-crystallization of a medium, one need to create situation at the edge of chaos when small fluctuations are able to initiate a phase transition, to throw down the system in another state, and to set another course to the process of morphogenesis, another way of assembling of the complex whole. "The very nature of co-evolution is to attain the edge of chaos"(Solovyov, 1988, pp. 371, 372); (e) to make a dynamically evolving integral structure, a proper topology of combination of structures is of great importance; (f) in case of right, resonant unification of complex structures into the whole, a united super complex structure begins to develop at a higher rate ("it is profitable to live and to develop together"). Co-evolution is not simply a process of adjustment of parts to each other by formatting a complex whole, of their resonant positional relationship and of synchronization of tempos of development, but it is enactive cognition of the world by a human being, synergism of cognizing and constructing subject and of a medium surrounding him. This is also an interactive connection between human organizations and single individuals, the universal collaboration, complicity and solidarity, concerted efforts in construction and rebuilding of the world, and thereby of one's own mentality. This is disclosure of universal affinity of all with everything and of mysterious connection between the past, the present and the future. References Berdyayev, N.A. 1994. Sense of creativity. In Philosophy of creativity, culture and art (in Russian). Moscow: Iskusstvo. Berdyayev, N.A. 1994. Philosophy of creativity, culture and art, vol. 1, 82 (in Russian). Moscow: Iskusstvo. Bulgakov, S.N. 1993. Philosophy of economy, vol. 1 (in Russian). Moscow: Nauka. Knyazeva, H. and Kurdyumov, S.P. 2001. Nonlinear synthesis and co-evolution of complex systems. In World futures, vol. 57, 239-261. Knyazeva, H. and Kurdyumov, S.P. 2002. Foundations of Synergetics. Sankt Petersburg: Aletheia. Muravyov, V.N. 1993. Universal productive mathematics. In Russian cosmism, 198 (in Russian). Moscow: Pedagogika-Press. Solovyov, V.S. 1988. Beauty in nature. In Works in 2 volumes, 372 (in Russian). Moscow: Mysl. Tsiolkovsky, K.E. 1993. Monism of the universe. In Russian cosmism (in Russian). Moscow: Pedagogika-Press. Vernadsky, V.I. 1988. The philosophical thoughts of naturalist. Moscow: Nauka. Vernadsky, V.I. 1993. The thoughts of naturalist about nature and man. In Russian cosmism (in Russian). Moscow: Pedagogika-Press. Anna-Teresa Tymieniecka and Attila Grandpierre (eds.)Analecta HusserlianaThe Yearbook of Phenomenological ResearchAstronomy and Civilization in the New EnlightenmentPassions of the Skies10.1007/978-90-481-9748-4_24(C) Springer Science+Business Media B.V. 2011 # Astrobiology: From Extremophiles in the Solar System to Extraterrestrial Civilizations Joseph Seckbach1 and Julian Chela-Flores2, 3 (1) Hebrew University of Jerusalem, Jerusalem, Israel (2) The Abdus Salam ICTP, Trieste, Italia (3) Instituto de Estudios Avanzados, IDEA, Caracas, Venezuela Joseph Seckbach (Corresponding author) Email: seckbach@huji.ac.il Julian Chela-Flores Email: chelaf@ictp.it Abstract Life on Earth is ubiquitous. Most of the organisms that we know thrive in normal environments that we consider to be ambient habitats. Extremophiles are among the microorganisms living on the edge of life under severe conditions. In recent years microorganisms have been discovered living in extreme environments, such as very high temperature (up to 115°C), and also at very low temperature (∼ minus 20°C). In addition, they can also withstand a variety of stresses, amongst them we mention both ends of the pH range; very strong acidity vs. high alkalinity; saturated salt solutions and high hydrostatic pressure. Astrobiology considers the possibility that extraterrestrial civilizations may be present in some exoplanets in the large suite that has been discovered so far. The instruments of research are radio telescopes. Astrobiology also raises the possibility of life elsewhere in the Solar System. (The most promising examples are Mars, Europa, and possibly Titan and Enceladus). We suggest that if microbial communities can thrive under extreme conditions on Earth, they could also emerge on extraterrestrial environments. Proceedings of "Astronomy and Civilization", Budapest (August 2009). ## Introduction We know that life exists on Earth in almost every ecological niche. One of the prerequisites for life is the availability of liquid water, sources of energy and a reasonable supply of organic molecules. From our experience with the Earth biota, wherever there is water, there is a good opportunity of finding living organisms. The search for extraterrestrial life is encouraged by a comparison between organisms living in severe environmental conditions on Earth and the physical and chemical conditions that exist on some Solar System bodies. The extremophiles that could tolerate more that one factor of harsh conditions are called poly-extremophiles. There are unicellular and even multicellular organisms that are classified as hyperthermophiles (heat lovers), psychrophiles (cold lovers), halophiles (salt lovers), barophiles (living under high pressures), acidophiles (living in media of the lower scale of pH). At the other end of the pH scale they are called alkaliphiles (namely, microbes that live at the higher range of the pH scale). Thermo-acidophilic microbes thrive in elevated thermo-environments with acidic levels that exist ubiquitously in hot acidic springs. Cyanidium caldarium, is a classical example of an acido-thermophilic red alga that thrives in places such as hot-springs (< 57° and in the range 0.2-4 pH). This algal group shows a higher growth rate (expressed as number of cells and higher oxygen production when cultured with a stream of pure CO2, rather than when bubbled with a stream of air (Seckbach, 2010). It has been reported that Cyanidium cells resisted being submerged in sulfuric acid (1 N H2SO4). This is a practical method for purifying cultures in the laboratory and eliminating other microbial contamination (Allen, 1959). The psychrophiles thrive in cold environments, such as within the territories found in the Siberian permafrost, around the North Pole in Arctic soils, and they may also grow in Antarctica. Barophilic microorganisms can tolerate a pressure of 1,000 atmospheres on the seafloor, while other barophilic microorganisms have been detected in the subsurface of dry land. In hypersaline areas (such as the Dead Sea, Israel) we find halophilic bacteria (Arahal et al., 1999) and algae that can balance the osmotic pressure of hypotonic external solutions (Oren, 1988). Chroococcidiopsis is one of the most primitive cyanobacterium known so far. This microbe survives in a wide range of extreme habitats that are hostile to most other forms of life. Chroococcidiopsis grows in hot springs, in hypersaline habitats, in a number of hot, arid deserts throughout the world, as well as in the frigid Ross Desert in Antarctica (Fewer et al., 2002). Recently, the segmented microscopic animals tardigrades, (0.1-1.5 mm) have been under investigations (Goldstein and Blaxter, 2002; Horikawa, 2008). These "water bears" are polyextremophilic, and are able to tolerate a temperature range from about 0°C up to + 151°C (much more that other known microbial prokaryotic extremophiles, Bertolani et al., 2004). But even low Earth orbit extreme temperatures are possible: tardigrades can survive being heated for a few minutes to 151°C, or being chilled for days at -200°C, or for a few minutes at -272°C, 1° warmer than absolute zero (Jonsson et al., 2008). These extraordinary temperatures were discovered by an ESA project of research into the fundamental physiology of the tardigrade, named TARDIS. Tardigrades are also known to resist high radiation, vacuum, and anhydrous condition for a decade in a dehydrated stage and can tolerate a pressure of up to 6,000 atmospheres. These aquatic creatures are ideal candidates for extraterrestrial life and for withstanding long periods in space. They have already been used in space and have survived such stress. For further information see in Google the images of this animal (http://en.wikipedia.org/wiki/Tardigrade), and in Tardigrade - New World Encyclopedia (http://www.newworldencyclopedia.org/entry/Tardigrada). Several chapters dealing with relevant topics as this paper have been published in the Cellular Origin, Life in Extreme Habitats and Astrobiology series http://www.springer.com/series/5775 ## Some Microbes May be Dormant for Long Periods in Harsh Conditions Some microorganisms live in desiccation conditions (in dormant stage and at minimum metabolic rates). In such circumstances, these microbes, or their spores, could last in a dormant stage for millions of years before being revived. Recently, researchers have breathed new life into bacteria trapped deep under glacial ice in Greenland for over 120,000 years. In addition, scientists found an ancient ecosystem below the "Blood Falls" in an Antarctic glacier (Mikucki and Priscu, 2007; Mikucki, et al., 2009). It was determined that this community had survived millions of years in a salty pool without light or oxygen. Grom (2009) decribes the phenomenon as follows: > Scientists have found life in an ecosystem trapped underneath a glacier in Antarctica for nearly 2 million years. The microbes, they suggest, are surviving the dark, oxygen-free waters by drawing energy from sulfur and iron. The findings provide insight into how life may have survived "Snowball Earth" - periods when some scientists speculate that the planet was entombed in ice - and hint at the possibility of life in other inhospitable environments, such as Mars and Jupiter's icy moon Europa. Among the biological samples, there was a diversity of bacteria that thrive in cold, salty water loaded with iron and sulfur. The water averages -10°C (the high salt concentration prevents the water from freezing). These bacterial cells convert iron and sulfur into their nourishment (chemosynthesis). The fact that life can thrive in one of the most extreme environments on Earth, supports the hypothesis that it has emerged in extraterrestrial ecosystems as well. Cano and Borucki (1995) reported the revival and identification of bacterial spores within the intact body of a bee that was trapped in amber for 25-40 million years. Vreeland et al. (2000) have claimed to reawaken bacteria from spores inside a 250 million-year-old salt crystal. There has been some controversy regarding these ancient extant bacteria (Nickle et al., 2002; Oard, 2001), or whether they may represent the most ancient life forms on Earth (Hoyle, 2001). Other authors await confirmation of the Vreeland et al. results in different salt deposits (Adam, 2000). ## Astrobiology Does life exist beyond our planet and, if so, is it comparable to what we know here on Earth? These are some of the most fascinating questions facing science today, particularly astrobiology, the study of the origin, evolution, distribution and destiny of life in the universe. Three strategies have been devised for the search for extraterrestrial life: firstly, the study of the cellular makeup of exotic organisms on Earth; secondly, the search for organic matter and living micro-organisms beyond Earth; and last but not least, the use of radio telescopes to detect signals of intelligent behavior in the universe. The first strategy has focused on understanding how life began on Earth. Research has shown exotic organisms living in inhospitable environments, such as the seafloor, the Antarctic glacial sheets and volcanic lava streams - all of which display temperatures and pressures that may have been present during the process of the Earth's evolution. Perhaps one of the most unexpected recent discoveries has been that there are underground ecosystems, which to a large extent are independent of sunlight, extending our old concept of what was a habitable zone in a given solar system. Research into our own origins not only broadens our appreciation of the ability of extremophiles to conquer every accessible niche (cf., Part I), but such investigation also helps us understand the environmental extremes tolerated by simple organisms. The second strategy for deciding if we are not alone in the universe is a search for the simplest forms of organic matter - amino acids or proteins - that may be embedded in ancient rocks of planets, comets or meteorites, or even suspended in interstellar clouds. The search has focused elsewhere in the Solar System: Mars, Europa (a moon of Jupiter), and Titan and Enceladus (satellites of Saturn). The discovery of meteorites from Mars suggests that all the terrestrial planets (Mercury, Venus, the Earth, the Moon and Mars) at one stage in the past may have been in biological intercourse. There is compelling evidence that liquid water has flowed in the geologically recent past on Mars (or may even be flowing now). The third strategy used in the search of life beyond Earth is the most relevant one to the subject matter of the present book. It relies on radio telescopes such as the huge one at the National Astronomy and Ionosphere Center in Arecibo, USA. These "dishes" actually have two roles to play: first and foremost, they help to examine wavelengths that cannot be seen by the human eye; for example, radio waves and microwaves. Such information has proven to be essential for understanding the movement and behavior of planets and stars. Secondly, radio telescopes also seek anomalies in microwaves and radio waves wafting across the universe. Such anomalies may represent the imprint of intelligent life. Thus far astronomers have been scanning the radio and microwave spectrum for almost half a century with no reliable signal yet from an extraterrestrial civilization. But this initial difficulty does not imply that the initiative is likely to be abandoned (Ekers et al., 2002). ## Is Extraterrestrial Life a Possibility that Can be Tested? Data and photographs transmitted by the Voyagers revealed previously unknown details about each of the giant planets and their moons. Close-up images from the spacecraft uncovered a variety of phenomena in the Jupiter system: most surprising amongst them is the volcanic activity on Io, one of its so-called Galilean satellites. Amongst the Voyager discoveries one of the most significant was the icy surface of the Jovian satellite Europa. The excitement surrounding Europa is due to the subsequent Galileo mission (1995-2003). This mission has changed the way we look at the Solar System and especially Europa (and even to the possibility of exo-moons that may be inhabitable). This mission was the first to conduct long-term observations of the Jovian system from orbit. It found evidence of subsurface saltwater on Europa, Ganymede and Callisto and further revealed the intensity of volcanic activity on Io. From the similarity of the processes that gave rise to planets and satellites, we may expect that hot springs may lie at the bottom of the ocean triggered by tidal stresses and radiogenic energy. It has been assumed in the past that Jupiter's proto-nebula must have contained many organic compounds. Organisms similar to thermophiles could possibly exist at the bottom of Europa's ocean. However, given the incomplete understanding of the evolution of early life on Earth, at present we should allow for the possibility that microorganisms are a possible Europan biota (cf., Section 4.2). We may add that up to the present time we do not fully understand the evolution of the earliest ancestor of all life on Earth. Indeed, plate tectonics has obliterated fossils of the early organisms from the crust of the Earth, which would constitute the only record of the evolution of early life. Testing whether life is extant on the icy satellites of the Outer Solar System depends on the choice of the right instrumentation. The British Penetrator Consortium is developing an attractive possibility. Penetrators are being developed for preliminary trials on our own Moon. The MoonLITE mission is a proposed, UK-led lunar science mission comprising four scientific penetrators that will make in-situ measurements at widely separated locations on the Moon with a suite of scientific instruments that will perform a variety of measurements on the lunar surface. There is a related proposal for ESA, under the name of LunarEX (Smith et al., 2008), consisting of small projectiles that can be delivered at high velocity to reach just beneath the surface of satellites for probing samples of surficial chemical elements. They are appropriate for in-situ chemical laboratories. Eventually, these instruments could be tested on the icy surface of Europa and Ganymede in our next visit to the Jovian System (cf., Section 4.2). ### Mars The present view on the surface of Mars shows that Mars in the past was wet and warmer than today. There photos show several contours of water bodies carved in the surface, such as tunnels, deep rivers, lakes, canyons, and other structures where water used to run. Therefore, our nearest-neighbor planet is a candidate for having supported life in the past. We cannot exclude its presence in some isolated environments. The possibility of extending the biosphere deep into the silicate crust in another terrestrial planet deserves special attention. The emergence of life on Mars is pertinent to astrobiology, since we cannot exclude the analogy with organisms that have been found to inhabit deep in the silicate crust of the Earth. Such microbes may have been deposited with the original sediment. Life, in these conditions may have evolved during an early "clement period" that may have occurred contemporary with our own Early Archean: the Noachian Epoch, or Early Hesperian in Mars stratigraphy, according to the standard terminology (Sleep, 1994). Possible candidates for sites in which life may have evolved are located in the Tharsis region located on Mars' equator, at the western end of Valles Marineris, where volcanic activity has taken place since, by analogy with the Earth, the heat from underground magma may have produced hot springs, which are known to be possible sources of hyperthermophilic microorganisms (cf., Parts I and II). Knowledge of these possible locations raises the question whether life may have survived till the present confined to regions where pockets of liquid water may occur. In the short term the Mars missions that are being planned now will add valuable insights as to the possibility of extant, or extinct life on Mars. For instance, the Mars Science Laboratory (MSL), a NASA rover is expected to be launched in 2011. The MSL rover will include instruments for the analysis of soil samples. It will also investigate the past or present ability of Mars to support microbial life. On the other hand, ExoMars (Exobiology in Mars) is planned for 2018. This will be collaboration between ESA and NASA. A robotic rover will be sent to the surface of Mars. It will deploy a rover carrying analytical instruments dedicated astrobiology and geology. The ExoMars spacecraft will consist of an orbiter, the carrier module. The rover itself will carry a scientific payload. One of its aims is to search for possible biosignatures of Martian life, past or present. Especially significant will be the European orbiter, whose aim includes tracking down sources of methane that have been detected in the past (Lefevre and Forget, 2009). Confirming the presence of methane is a high priority; nevertheless, an abiogenic origin is thought to be equally plausible (Atreya et al., 2007). ### Europa The Galileo Space Mission (1995-2003) has provided ample evidence for an ocean on Europa underneath its frozen icy surface. One of the primary goals of astrobiology is to determine whether life ever existed in places other than the Earth and, if so, what were the environmental conditions that made it possible. The discovery of an independent life form, a separate tree of life from our own on Europa, would not only be fascinating in its own right, but it would shed revealing light on the microbes that inhabited the Earth more than 4 billion years ago, when higher temperatures were common and the continual bombardment of meteorites and comets made the surface of the Earth a hostile environment. From the point of view of the possibility of the existence of life on Europa, we should consider a lake called Vostok (Karl et al., 1999), which is the largest of about 80 subglacial lakes in Antarctica. Its surface is of approximately 14,000 km2 and its volume is 1,800 km3. Indeed this Ontario-sized lake in Eastern Antarctica is also deep, with a maximum depth of 670 m. On the other hand, from the point of view of microbiology, the habitat-analogue provided by Lake Vostok for the Europa environment seems appropriate. Lake Vostok appears to be harboring hydrothermal vents beneath the water surface. This is suggestive of what may be occurring on Europa. The circulation of pure water in Lake Vostok will be driven by the differences between the density of meltwater and lake water. Geothermal heating will warm the bottom water to a temperature higher than that of the upper layers. The water density will decrease with increasing temperature resulting in an unstable water column. This leads to vertical convective circulation in the lake, in which cold meltwater sinks down the water column and water warmed by geothermal heat ascends up the water column (Siegert et al., 2001). Similarly, Europa may also have geothermally-heated warm water under its ice-crust. Processes of the type that occur in Lake Vostok may be taking place on Europa, where biogenic sulfur may be reaching the surface (Singer, 2003). Early discussions considered the possibility exploring Europa's habitability in terms of direct use of a submersible called a hydrobot (Horvath et al., 1997). This question is still relevant a decade later, in terms of new NASA tests of an autonomous underwater vehicle (AUV) called ENDURANCE for the Astrobiology Science and Technology for Exploring Planets (ASTEP) program (Doran et al., 2007), a worthy successor of our cryobot-hydrobot early planning. In relation with the distribution and destiny of life in the universe we have argued that if the experiments on evolution were to be successful, the science of the distribution of life in the universe would lie on solid scientific bases, for instance, direct verification of whether the transition prokaryote-eukaryote has taken place within the Solar System bodies (Chela-Flores, 1998, 2000). Beyond Galileo a return to the Jupiter System is being considered in the next decade with the Europa Jupiter System Mission (EJSM), a worldwide collaboration that will point mainly on Europa and Ganymede, the largest satellite in the Solar System. The mission consists of two flight elements operating in the Jovian system: the NASA-led Jupiter Europa Orbiter (JEO), and the ESA-led Jupiter Ganymede Orbiter (JGO). JEO and JGO will explore Europa and Ganymede, respectively (Grassett et al., 2009). Possible biomarkers accessible to EJSM have been discussed recently (Chela-Flores and Kumar, 2008). ### Is Habitability Possible Elsewhere? Titan is a potential cradle for life. After the early successes of the Cassini-Huygens Mission, many interesting questions have been raised, including the source of methane, and possible ammonia-water ocean, inside this large satellite that resembles the Archaean Earth in some respects. For instance, Titan has a nitrogen atmosphere, and so does the Earth, including its atmosphere before life. Titan has organics that are almost certainly supplied in the absence of life. Not all the Earth's prebiotic ingredients are present on Titan though, because the Earth probably had CO2 unlike Titan (Coustenis and Taylor, 2008). Other reasons for focusing on Enceladus is that Cassini flew within 175 km in 2005 confirming the presence of an atmosphere: their instruments found that the atmosphere contains water vapor comprising up to about 65%, with molecular hydrogen at about 20%. The rest is mostly carbon dioxide and some combination of molecular nitrogen and carbon monoxide. Another Cassini instrument showed that the south pole is warmer than near the equator. The poles should be colder because the Sun shines so obliquely there. However, in small areas of the pole, concentrated near the fractures known as the "tiger stripes", the temperatures can reach temperatures of well under -110 K (-261 F). This should be compared with the equatorial temperature of approximately 80 K. Cassini has also confirmed that icy jets shooting up to 500 km are ejected from Enceladus, a tiny satellite of Saturn. The presence of liquid water in its interior raises this moon to a prime candidate for the search for life. Saturn's moon Enceladus emits plumes of water vapour and ice particles from fractures near its south pole, suggesting the possibility of a subsurface ocean. The water plumes could be caused by a liquid ocean many kilometres underground, rather than by geysers erupting from a salty ocean just beneath the moon's surface (Postberg et al., 2009). ## Conclusions All the above facts serve to encourage us to intensify our search for life on Earth's closest neighbors (terrestrial planets and satellites in the Outer Solar System). Further investigations, and especially the forthcoming missions to Europa and the various missions to Mars, will shed additional light on the potential extraterrestrial life on or inside Mars and Europa. A central role would be played by appropriately chosen instrumentation and we have described the high hopes that penetrators promise to yield in our search for life in Solar System exploration. We conclude that if life can thrive in some of the most extreme environments on earth, perhaps it can meet the challenges of existing elsewhere in the Solar System, including a europan biota under its icy surface sustained by chemosynthesis on hydrothermal vents at the seafloor. Acknowledgment The senior author (JS) thanks the Israeli and Hungarian Academies of Sciences and Humanities for their kindly support towards and during the conference of Astronomy and Civilization in Budapest (Aug. 2009). References Adam D. 2000. Hardcore hibernation. Published online. Nature 19 October. doi:10.1038/news001019-9. Allen, M.B. 1959. Studies with Cyanidium caldarium, an anomalously pigmented chlorophyte. Arch Mikrobiol Berlin, Heidelberg 32: 270-277.CrossRef Arahal, D.R., M.C. Marquex, B.E. Volcani, K.H. Schleifer, and A. Ventosa. 1999. Bacillus marismortui sp. nov., a new moderately halophilic species from the Dead Sea. International Journal of Systematic and Evolutionary Microbiology 49: 521-530. Atreya, S.K., P.R. Mahaffy, and A.S. Wong. 2007. Methane and related trace species on Mars: Origin, loss, implications for life, and habitability. Planetary and Space Science 55: 358-369.CrossRef Bertolani, R., R. Guidetti, K.I. Jonsson, T. Altiero, D. Boschini, and L. Rebecchi. 2004. Experiences with dormancy in tardigrades. Journal of Limnology 63(Suppl 1): 16-25. Cano, R., and M. Borucki. 1995. Revival and identification of bacterial spores in 25 to 40 million year old Dominican amber. Science 268: 1060-1064.CrossRef Chela-Flores, J. 1998. A search for extraterrestrial eukaryotes: Physical and biochemical aspects of exobiology. Origins of Life and Evolution of the Biosphere 28: 583-596. http://www.ictp.trieste.it/~chelaf/searching_for_extraterr.html Chela-Flores, J. 2000. Testing the Drake Equation in the solar system. In A new era in astronomy, eds. G.A. Lemarchand and K. Meech, vol. 213, 402-410, ASP Conference Series. Genentech: San Francisco. http://www.ictp.trieste.it/~chelaf/TestingDrakeEq.html Chela-Flores, J., and N. Kumar. 2008. Returning to Europa: Can traces of surficial life be detected? International Journal of Astrobiology 7(3): 263-269 (copyright holder: Cambridge University Press). http://www.ictp.it/~chelaf/JCFKumar.pdf Coustenis, A., and F.W Taylor. 2008. Titan exploring an earthlike world. 2nd ed. Singapore: WSP, 412 pp. Doran, P.T., W. Stone, J. Priscu, C. McKay, A. Johnson, and B. Chen. 2007. Environmentally non-disturbing under-ice robotic Antarctic explorer (ENDURANCE). American Geophysical Union, Fall Meeting, abstract #P52A-05. Ekers, R.D., D. Kent Cullers, J. Billingham, and L.K. Scheffer. 2002, SETI 2020: A roadmap for the search for extraterrestrial intelligence. Mountain View: SETI Press, 549 pp. Fewer, D., T. Friedl and B. Budel. 2002. Chroococcidiopsis and heterocyst differentiating cyanobacteria are each others closest living relatives. Molecular Phylogenetics and Evolution 23: 82-90.CrossRef Goldstein, B., and M. Blaxter. 2002. Quick guide: Tardigrades. Current Biology 12: R475.CrossRef00959-4) Grasset, O., J.-P. Lebreton, M. Blanc, M. Dougherty, C. Erd, R. Greeley, B. 2009. Pappalardo and the joint science definition team, "The Jupiter Ganymede Orbiter as part of the ESA/NASA Europa jupiter system mission (EJSM)," EPSC Abstracts 4: EPSC2009-784, European Planetary Science Congress, Rome. Grom, J. 2009 Ancient ecosystem discovered beneath Antarctic glacier. Science Now. Daily News, 16 April. Horikawa, D.D. 2008. The Tradigrade Ramazzottium varieornatus as a model animal for Astrobiological studies. Biological Sciences in Space 22(3): 93-98.CrossRef Horvath, J., F. Carsey, J. Cutts, J. Jones, E. Johnson, B., Landry, L. Lane, G. Lynch, J. Chela-Flores, T.-W. Jeng, and A. Bradley. 1997. Searching for ice and ocean biogenic activity on Europa and Earth. In Instruments, methods and missions for investigation of extraterrestrial microorganisms, ed. R.B. Hoover, 490-500. SPIE Proceedings, 3111, San Diego. http://www.ictp.it/~chelaf/searching_for_ice.html Hoyle, B. 2001. Ancient bacteria may be oldest life form. American Society for Microbiology News 67. http://newsarchive.asm.org/jan01/topic4.asp. Jonsson, K.I., E. Rabbow, R.O. Schill, M. Harms-Ringdahl, and P. Rettberg. 2008. Tardigrades survive exposure to space in low Earth orbit. Current Biology 18: R729-R731.CrossRef Karl, D.M., D.F. Bird, K. Bjorkman, T. Houlihan, R. Shackelford, and L. Tupas. 1999. Microorganisms in the accreted ice of Lake Vostok, Antarctica. Science 286: 2144-2147.CrossRef Lefevre, F., and F. Forget. 2009. Observed variations of methane on Mars unexplained by known atmospheric chemistry and physics. Nature 460: 720-723.CrossRef Mikucki, J.A., and J.C. Priscu. 2007. Bacterial diversity associated with Blood Falls, a subglacial outflow from the Taylor Glacier, Antarctica. Applied and Environmental Microbiology 73: 4029-4039.CrossRef Mikucki, J.A., A. Pearson, D.T. Johnston, A.V. Turchyn, J. Farquhar, D.P. Schrag, A.D. Anbar, J.C. Priscu, and P.A. Lee. 2009. A contemporary microbially maintained subglacial ferrous 'ocean'. Science 324: 397-400.CrossRef Nickle, D.C., G.H. Learn, M.W. Rain, J.I. Mullins, and J.E. Mittler. 2002. Curiously modern DNA for a '250 Million-Year-Old' bacterium. Journal of Molecular Evolution 54: 134-137.CrossRef Oard, M.J. 2001. Aren't 250 million year old live bacteria a bit much? Creation Ministries International, Article 2415. Oren, A. 1988. The microbial ecology of the Dead Sea. In Advances in microbial ecology, ed. K.C. Marshall, vol. 10, 193-229. New York: Plenum Publishing Company. Postberg, F., S. Kempf, J. Schmidt, N. Brilliantov, A. Beinsen, B. Abel, U. Buck, and R. Srama. 2009. Sodium salts in E-ring ice grains from an ocean below the surface of Enceladus. Nature 459: 1098-1101.CrossRef Seckbach, J. 2010. Overview of Cyanidian biology. In Red algae in genome age, eds. J. Seckbach and D. Chapman. Dordrecht: Springer, pp. 343-354. Siegert, M.J., J.C. Ellis-Evans, M. Tranter, C. Mayer, J. Petit, A. Salamantin, and J.C. Priscu. 2001. Physical, chemical and biological processes in Lake Vostok and other Antarctic subglacial lakes. Nature (London) 414: 603-609.CrossRef Singer, E. 2003. Vital clues from Europa. New Scientist Magazine 2414: 22-23. http://www.ictp.it/~chelaf/VitalClues.pdf Sleep, N.H. 1994. Martian plate tectonics. Journal of Geophysical Research 99: 5639-5655.CrossRef Smith, A., I.A. Crawford, R.A. Gowen, A.J. Ball, S.J. Barber, P. Church, A.J. Coates, Y. Gao, A.D. Griffiths, A. Hagermann, K.H. Joy, A. Phipps, W.T. Pike, R. Scott, S. Sheridan, M. Sweeting, D. Talboys, V. Tong, N. Wells, J. Biele, J. Chela-Flores, B. Dabrowski, J. Flannagan, M. Grande, J. Grygorczuk, G. Kargl, O.B. Khavroshkin, G. Klingelhoefer, M. Knapmeyer, W. Marczewski, S. McKenna-Lawlor, L. Richter, D.A. Rothery, K. Seweryn, S. Ulamec, R. Wawrzaszek, M. Wieczorek, I.P. Wright, and M. Sims. 2008. LunarEX - A proposal to CosmicVision. Experimental Astronomy. 10.1007/s10686-008-9109-6. http://www.ictp.it/~chelaf/Penetrator.pdf Vreeland, R.H., W.D. Rosenzweig, and D.W. Powers. 2000. Isolation of a 250 million-year-old halotolerant bacterium from a primary salt crystal. Nature 470: 1075-1077. # Part 5 THE WORLD OF LIFE , ASTRONOMY AND THE HUMAN SPIRIT Anna-Teresa Tymieniecka and Attila Grandpierre (eds.)Analecta HusserlianaThe Yearbook of Phenomenological ResearchAstronomy and Civilization in the New EnlightenmentPassions of the Skies10.1007/978-90-481-9748-4_25(C) Springer Science+Business Media B.V. 2011 # Astronomy and the Soul Nicholas Campion1 (1) School of Archaeology, History and Anthropology, Sophia Centre for the Study of Cosmology in Culture, University of Wales, Trinity Saint David, UK Nicholas Campion Email: n.campion@lamp.ac.uk Abstract Astronomers today talk of the visual awe of the night sky as both a motive for their love of the subject and an explanation for astronomy's origins. In other words, the sight of the stars can have a psychological effect, exciting the imagination and stimulating the emotions. This talk will examine classical and medieval notions of the connection between consciousness and the stars through concepts of the psyche - or soul - developed by Plato and Aristotle and influential in Medieval and Renaissance astronomy. It will consider the consequences of such ideas for western astronomy up to the seventeenth century. This being international year of astronomy, I am exploring Galileo's role as one of the last astronomers in this tradition. The history of astronomy tends, for perfectly good reasons, to be dominated by developments in mathematics and technology, by our ability first to measure the location of celestial bodies and then, more recently, to understand their structure and composition. Our understanding of the history of astronomy therefore ends to exclude certain wider cultural issues, such as the sometimes close connection between astronomical, philosophical, religious and political ideas. It is my contention that, by looking at astronomy's wider relationship with culture and civilisation in the past, we can enhance our understanding of its role in the present. In this paper I will examine one aspect of classical and medieval astronomical thought, the relationship between astronomy and theories of the soul. In so doing I will coin the phrase "psychological astronomy". We can approach the relationship between astronomy and psychology from two perspectives. First is the capacity of the stars to inspire awe, wisdom, poetry and spiritual enlightenment. Second is the tradition, emerging from classical philosophy, that the celestial and psychological realms are actually connected. As far as the first is concerned, we have plenty of evidence also from classical philosophy. The Athenian philosopher Plato (428/427-348/347 BCE) wrote "we ought to fly away from earth to heaven as quickly as we can; and to fly away is to become like God, as far as this is possible; and to become like him, is to become holy, just, and wise".1 In the second century CE the Roman emperor Marcus Aurelius, who was deeply influenced by Plato gave the following remedy for world-weariness: "Survey the circling stars as though yourself were in mid-course with them. Often picture the changing and re-changing dance of the elements. Visions of this kind purge away the dross of our earth-bound life".2 One's soul, the emperor believed, could be cleansed by an imaginative union with the stars. There is a actually an entire school of thought which holds that the visual wonder of the heavens, lies at the origin of all astronomy (Pannekoek, 1961, pp. 19-20). However, it is with the second, the belief that the celestial and psychological realms are actually connected, that I am concerned in this paper. The International Year of Astronomy has rightly focused our attention on the consequences of Galileo's work, his role in the foundation of modern physics and the dramatic implications for astronomy of the publication of his telescopic observations in the Sidereus Nuncius. Galileo has a right to be considered the single most important figure in the creation of the modern world; more so, I would argue, than Charles Darwin, who we are also commemorating this year. As a historian, my interest in Galileo concerns not just his impact on future ways of thinking, but with the intellectual milieu from which he emerged. He was the seminal figure in a liminal moment in western civilisation, standing on the boundary between medieval and modern worlds. Galileo, though, did not come into the world as the founder of modern observational astronomy. In 1564, when he was born, the dominant views of the cosmos were derived from either classical philosophy or scripture, both of which shared, to one degree or another, the belief that psyche, or soul, was an important part of the structure of the universe. I wish to consider Galileo's relationship with this world. I am concerned with Galileo as a conservative rather than a revolutionary. Yet, as we shall see, his revolutionary challenge to the existing world view may have found some support in his very conservatism. It is well known that Galileo was slow to abandon Ptolemaic geocentrism, taking a more cautious view than his close friend Johannes Kepler, only coming round to Copericanism in 1597. I wish to take as my cue for this paper Galileo's interest in another facet of Ptolemy's astronomy, which I am designating "psychological", as opposed to say the "theoretical" astronomy which characterised Medieval practice, and the "observational" astronomy which resulted from the invention of the telescope. In terms of an understanding of astronomy's role in civilisation, the function of such a "psychological" astronomy has been largely overlooked. Yet it's clear that it was a part of the Ptolemaic cannon, which still dominated astronomical ideas in the sixteenth century. Notably, Ptolemy divided the work of the astronomer into two phases: the first was concerned with the measurement of celestial positions, the second with the measurement of their effects (Ptolemy, 1940). Those effects might be felt in the natural world but also in the psychological, the realm of the soul. It is clear that Galileo was interested in Ptolemy's psychological astronomy, at least early in his career. We know this from his account of planetary positions at his daughters' births, an incident briefly discussed by Sobel (1999, pp. 29-30). Here is Gailileo's account of his daughter Virginia's character: > To start with, Mercury and the Moon are in separate places, sharing no aspect but having a certain discord, and this denotes a jarring between the rational and sensitive powers of the soul.3 Galileo, then, employed a form of psychological astronomy in which Mercury ruled the rational part of the soul and the Moon the "sensitive". By sensitive in this context is meant the physical, the instincts and desires, and the power of bodily senses to stir up the mind. It seems that Galileo's prime source in this respect was Ptolemy. If we turn to Ptolemy we find the following statement: > Of the qualities of the soul, those which concern the reason and the mind are apprehended by means of the condition of Mercury... and the qualities of the sensory and irrational part are discovered from the one of the luminaries which is the more corporeal, that is, the moon (Ptolemy, 1940). It is clear, then, that Galileo was relying on Ptolemy for his division of the soul into two parts, one rational and Mercurial, the other sensitive and lunar. To gain a clearer view of Galileo's philosophical inclinations, at least early in his life, we therefore need to locate Ptolemy's own theoretical astronomy in previous classical cosmology.4 All the schools of Classical and Hellenistic Greek cosmology assumed the existence of soul as the animating force in the cosmos, without which life would not exist. The major schools with which I am concerned, the Platonists, Aristotelians and Stoics, had different concepts of the soul's nature and function, but all agreed that soul permeated all things in the cosmos and enabled human beings to move, experience emotions, and think rationally. Such ideas were highly influential in later European astronomy - Aristotle's from the twelfth century onwards and Plato's from the fifteenth. The best summary of all the different varieties of soul was composed by the third century philosopher, Iamblichus, who makes it clear that the concept of psyche had been an integral part of mainstream Greek cosmology since at least the sixth century BCE.5 The most substantial extant ancient discussions on the nature of soul in western literature are found in the extensive writings of the classical philosophers Plato (428/427-348/347 BCE) and Aristotle (384 BC-322 BC).6 It is their philosophies which I shall examine. Ideas that the soul might be immortal and undertake a journey to the stars are evident in Egyptian thought, and occur in Greece amongst the Orphics, perhaps from the sixth century BCE onwards, possibly earlier.7 The concept finds its fullest expression in Plato's psychological theory - his view on the nature and function of psyche - which, in turn needs to be understood in terms of his theory of the soul's origin in the stars and classification into different functions. As Bartel van der Waerden argued, Plato's theory of soul takes us to the heart of the development of this particular feature of Greek astronomy: "The soul comes from the heavens", he wrote, "where it partook of the circulation of the stars. It unites itself with a body and forms with it a living being. This explains how human character comes to be determined by the heavens".8 Each soul, Plato wrote in Timaeus, has its own star.9 He was, of course, speaking metaphorically but, in his view, metaphor was sometimes the best means of revealing truth. Plato set out his theory of the soul's origin in the stars in Timaeus and elaborated it in the Republic in his famous Myth of Er, in which the precise mechanics of the soul's incarnation into human form were set out.10 The Myth tells of the soul of a soldier by the name of Er, who witnessed the means by which the soul selects a possible life and then descends through the planetary spheres to the Earth, a process during which the soul's future life is spun into a web of fate. From the cosmogony which is so carefully set out in Timaeus, we can draw two significant conclusions. The first is that soul pervades the entire cosmos. The second is that soul takes priority over matter. Plato was most emphatic on this point. "God", he wrote, "constructed Soul to be older than Body and prior in birth and excellence, since she was to be the mistress and ruler".11"Soul", he wrote in Phaedrus, "has the care of all that is soulless".12 It exists independently of body and may incarnate - or may not. The Cosmos, for Plato, was a "Living Creature endowed with soul and reason owing to the Providence of God".13 The concept of the entire universe as alive and resting in soul, or psyche, also enabled Plato to see the cosmos as psychological in the modern sense, as having personality, driven by manners, habits, opinions, desires, pleasures, pains and fears14. Plato's ideas on the soul evolved throughout his various writings. However, as with his cosmology, we can generalise. The divine unfolded in stages, first through soul and mind, and finally through its self-realisation in physical form. Human beings, Plato believed, consisted of four different parts; on the one hand, the body and, on the other a soul divided into three. In Phaedrus Plato attributed this three-fold structure to Socrates and represented it metaphorically as a charioteer and his two horses.15 The highest part, as he explained in Timaeus, was the charioteer himself, the rational soul, mind or intellect, which discerns what is true, judges what is real and makes rational decisions.16 Next was the spirited soul, the active part, the will, whose function was to carry out what reason has decided. Last, and lowest, was the appetitive soul, the seat of emotion and desire, which needed to be restrained by the higher, rational, soul if the individual was to be saved from self-destructive behaviour. This was a matter not just of personal welfare but of great political significance. Again, without making any statements of detail, Plato argued that, in general, if the body and all three parts of the soul are balanced in each individual, then even the state itself will function smoothly.17 Plato delighted in setting out general principles, leaving his followers to struggle over the detail. So it was that his musings on the soul, stars and the question of incarnation led him to a profound concern with the whole question of what he called "better" and "worse" births. He believed that children born at the appropriate season and phase of the planetary cycles would be "better" and more likely to grow into upright, virtuous citizens. He even hinted that it would actually be possible to breed such people, an aspiration which could be achieved if couples married, and hence conceived their children, at the right time.18 Those children who were born at "worse" times would be more likely to grow into selfish, decadent adults and, as their number grew, society would slip into terminal decline. However, Plato never specified when children should be born and when they shouldn't. He set out a theoretical framework, but made no steps to elaborate it. The details were left to those of his successors amongst the Hellenistic philosophers, including Ptolemy, to work out. In Galileo's view, following Plato, his daughter Virginia's awkward character was quite clearly the result of birth at a "worse" time. The question, then, of the relationship between the soul and nature, in Plato's works contained one major uncertainty. This was as follows. While soul in general was more powerful than matter, nature as a whole was dependent on soul. Therefore, those base feelings and desires, the functions of the lower souls, of which Plato was so suspicious, seemed on the one hand to be products of soul but, on the other, might overwhelm the rational soul, that higher faculty on which one's eternal life and future incarnations depended. The soul, in a sense, was at war with itself. Galileo, who would have been well aware of Platonic notions of the soul through their widespread circulation in Renaissance Italy, as well as familiar with Ptolemy, would have understood the notion that, psychologically, Virginia was at war with herself. Aristotle's theories of soul are no less simple to disentangle than Plato's, although most scholars regard them as contrasting with each other, and modern views of both philosophers' work tends to make much of the difference between their competing views of nature. This contrast been such a part of accepted wisdom for so long that both philosophers' works tend to be read in terms of the differences between them rather than the similarities. The major difference, as Aristotle makes clear in Book I of De Anima, is that there is no world-soul: the entire cosmos is not infused with psyche as a primary substance. However, when we come to the individual soul, certain similarities between Plato and Aristotle are evident. The Aristotelian soul, like the Platonic, is a kind of animating force, without which the natural world could not operate. "Soul", Aristotle wrote, "is substance in the sense of being the form of a natural body, which potentially has life. And substance in this sense is actuality. The soul, then, is the actuality of the kind of body we have described".19 That is, it is soul, exactly as in the Platonic sense, which allows matter to live and turns human beings into individuals. Soul is the "cause" of the body, and so, in a sense, has priority over it.20 Like Plato, Aristotle also employed a tripartite division of the soul into three levels, which were arranged hierarchically, in ascending order from the lowest, the "nutritive" (possessed by plants, animals and people), to the sensitive (possessed by animals and people, but not plants) and, finally, the highest, the intellectual (possessed by people alone).21 Aristotle's descriptions of the lower two souls differ slightly from Plato's equivalents. For example, Aristotle's sensitive soul is that which allows individuals to use their senses, such as sight and touch, and cope with the desires, pains and pleasures which the senses arouse. The sensitive soul has to deal with the consequences of physical desire. Although, unlike Plato, Aristotle did not relate the soul explicitly to the stars, he did presuppose a world in which the entire terrestrial realm is connected to the celestial spheres and the soul-star connection is therefore implicit.22 In Platonic theory too, if there are no rigid separating points between humanity and the cosmos, then humanity contains both the same substance as the rest of the cosmos, including the stars, and a small part of divinity itself.23 For Aristotle, the soul's relationship with celestial motions was not explicit, but it was implicit: the soul is moved by the heavens. Aristotle rejected the concept of the world soul in the terms in which Plato had presented it, as a living entity, but his logic required that, if all things in the cosmos were linked to all other things, life could not be confined to the Earth. "The fact is" he wrote, "that we are inclined to think of the stars as mere bodies or units, occurring in a certain order but completely lifeless; whereas we ought to think of them as partaking of life and initiative. Once we do this, the events will no longer be surprising".24 The cosmos, therefore was alive and purposeful. Moreover, with the exception of a fragment of the intellectual soul, the "agent" or "active" intellect, the Aristotelian soul was entirely embedded in the material world.25 The Aristotelian naturalistic perspective was adapted and emphasised by the Stoics, founded by Zeno of Citium (c.334-262 BCE). Zeno shared much with Plato, in particular the concept of an intelligent, reasoning cosmos. However, whereas Plato insisted that psyche, as intangible consciousness, was the source of the material world, Zeno insisted that matter was the origin of everything. Even "voice", he claimed, was a "body".26 Zeno's concept of the soul therefore shared much with Aristotle's. His work on the soul is lost but we have an account of his ideas from the summary by Diogenes Laertius in the third/fourth centuries CE. "They believe", Diogenes wrote of the Stoics, "that... soul is a nature capable of sense-perception. And this soul is the inborn pneuma in us... by this means we live and breathe and by this we are moved".27 Ptolemy, as Robbins noted, appears to have been deeply attracted to Aristotle's philosophical naturalism.28 He also seems to have absorbed Stoic influences, which can only have deepened his sense that the natural world provided a home for psyche, rather than the other way round. Ptolemy's preferred model of the soul appears to have been Plato's standard three-fold division arranged in hierarchical order as rational, emotional and "cupidinous".29 His discussion is too brief for us to ascertain whether he also considered Aristotle's three faculties of soul. In either case he would have believed that self-control of the lower two parts of the soul was necessary if the rational-intellectual part was to achieve its full potential. Planetary associations with psychological qualities are not original to Ptolemy and can be traced to the Corpus Hermeticum, composed in the second century CE, in Hellenistic Egypt.30 However, whereas the Corpus Hermeticum's concern was with the soul's use of the stars to escape from nature, Ptolemy's purpose was to describe the soul's life within nature. The natural world was something to accept gracefully, not an arena of suffering from which to escape. In the Harmonics Ptolemy used the Platonic-Aristotelian division of the soul into three and divided the rational soul into seven qualities all of which are varieties of sharp, critical thinking, experience and wisdom, in a clear, but undefined, analogy with the planets, which are not mentioned explicitly.31 The soul was then embedded, in Pythagorean style, in a series of mathematical formulae and musical scales related to the zodiac signs and planets. The rising of Mercury and Venus, for example, related to a particular sound, a harmony which, if one could hear it, would represent the perfect contemplation of the divine. Ptolemy set out hid detailed rules for identifying the condition of the soul, or psyche in the Tetrabiblos, composed around 120 CE, although there he appears to have been concerned only with two levels of the soul, rather than, as in the Harmonics, three.32 Iamblichus, who was also much concerned with humanity's relationship with the stars, also considered that there were two types of soul, the higher, intellectual, rational variety, and the lower, animal, version.33 In the Tetrabiblos Ptolemy also employed a simple division of soul into "rational" and "irrational" parts. The higher part of the soul was the "rational" the character of which, Ptolemy claimed, was determined by the placing of Mercury. The lower part, the "irrational", was characterised by the Moon and its associated stars. Ptolemy had therefore taken Plato's system and related the rational soul to Mercury and both the spirited and appetitive souls to the Moon. From Aristotle's parallel scheme, he associated the intellectual soul with Mercury and both the nutritive and sensitive souls to the Moon. By choosing one planetary ruler to accommodate the lower two souls in each case, he had, in effect, compressed the scheme of three souls into two. It is this version that Galileo used. In the Stoic conception, which was undoubtedly an influence on Ptolemy, animals were compelled to action by a movement in the soul/psyche called the horme - an impulse or drive.34 There is a kind of celestial mechanics at work here, in which the movement of a planet is connected to a disturbance in the individual soul, and with a consequent tendency to action. The planets' psychic, or psychological, and physical functions were related to the essential nature of the cosmos, as well as to humanity, a system in which person and planet, mind and body, were absolutely interrelated. Ptolemy's views in this respect are significant precisely because of his reputation in the Middle Ages and Renaissance; the translation of the Almagest and Tetrabiblos into Latin in the twelfth century, established him as a central authority in all cosmological matters. To conclude then, it is widely understood that Galileo, like any revolutionary thinker, has to draw on previous precedents, just as Kepler relied on Pythagoras and Newton on scripture. Galileo, for example, found supporting arguments in Augustine (McMullin 1998, pp. 271-347). So, why should Galileo's use of Ptolemy's psychological astronomy concern us? The answer is partly one of tracing Galileo's intellectual lineage to, for example, Platonic psychological theory and tripartite division of the soul. However, as we have seen, Ptolemy's significant influences in the Tetrabiblos were Aristotelian and Stoic, both of which emphasised the soul's location in matter and this, I suggest, is what mattered to Galileo. It was Hugh Lawson Tancred, who edited Aristotle's work on the soul in English, who spotted the potential importance of this for later cosmology when he asked, quite rightly, of Aristotle's intentions, "is he not directly anticipating the Physicalist theories so dominant in contemporary philosophy of psychology?"35 I wish to conclude, then by suggesting that Galileo's use of Ptolemy's naturalistic psychology may have encouraged his own materialistic inclinations and his development of a celestial mechanics which did not rely, as was commonly held in the Renaissance, on Platonic theories of consciousness. Whereas many commentators imply that Galileo's work should be understood in the context of anti-Aristotelian trends in the sixteenth century, I would like to suggest the opposite, that his work may be understood as emerging out of an Aristotelian context. Lastly, then, it is the history of the notion of the soul's connection with the stars which both informs of us one particular feature of the history of astronomy - Galileo's philosophical context - and enhances our awareness of astronomy as a means of enchantment. ## Notes 1 Plato, Theaetetus, trans. Benjamin Jowett, Indianapolis: The Library of Liberal Arts, 1949, 176, p. 41. 2 Aurelius (1964, p. 112); see also IX.29, p. 144. See Plato, Republic, 2 Vols, trans. Paul Shorey, Cambridge, London: Harvard University Press 1937, 516B. 3 Campion (2003, p. 102) Galielo's text translated by Grazia Mirti. Mercury was in Virgo and the Moon in Libra and therefroe, according to Ptolemy, had no relationship: see Tetrabiblos I. 13 4 For the best discussion of the intellectual context of Ptolemy's work see Taub (1993). 5 Iamblichus, De Anima, trans. John F. Finamore and John M. Dillon, Leiden, Brill, 2002. 6 The literature on Plato and Aristotle's views of soul is extensive. However, for Plato I have used J. Tate, "Review: Plato's Teleology", Reviewed work: De nous in het systeem van Plato's philosophie by Johannes Hubertus Mathias Marie Loenen, The Classical Review, New Series, vol. 3, No. 3/4 (Dec., 1953), p. 156. See also the very fine and still relevant general summary in Roberts, Eric J., "Plato's View of the Soul", Mind (July 1905), New Series Vol.14, no 55, pp. 371-389. For Aristotle my discussion is based would recommend on the Hugh Tancred-Lawson's "Introduction" to his translation of Aristotle, De Anima, (London: Penguin, 1986), pp. 11-111, and Richard Sorabji, "Body and Soul in Aristotle", Philosophy, vol. 49, No. 187 (Jan., 1974), p. 63. 7 See my discussion in Nicholas Campion, A history of western astrology, vol. 1. The Ancient World (London: Continuum, 2009), esp. Chaps 6,7,8. 8 See van der Waerden (1974, p. 147). 9 Plato Timaeus 41E-42A 10 Plato Republic X 614-621. 11 Plato, Timaeus, trans. R.G.Bury (Cambridge Mass., London: Harvard University Press, 1931) 34C. 12 Plato, Phaedrus, trans H.N.Fowler (Cambridge Mass., London: Harvard University Press, 1914), 246 b-c. 13 Plato, Timaeus 30B-C. 14 Plato, Symposium, trans. W.R.M.Lamb (Cambridge, Mass., London: Harvard University Press) 1914, 207E. 15 Plato, Phaedrus 246A, 253 C-D. 16 See Plato, Timaeus 28A. 17 Plato, Plato, Republic, 2 Vols., trans. Paul Shorey (Cambridge Mass., London: Harvard University Press, 1937) 443D. 18 Plato Republic VIII, 546 A. 19 Aristotle, On the Soul, trans. W.S.Hett (Cambridge Mass., London: Harvard University Press, 1936), II.I.412a. 20 Aristotle, On the Soul II.IV.415b 21 Aristotle, On the Soul II.III 414a-b. 22 Aristotle's words from the Meterologica were entirely unambiguous: "The whole terrestrial region then is compounded of these four bodies [fire, earth air, water] and it is the conditions which affect them which, we have said, are the subject of our inquiry. This region must be continuous with the motions of the heavens, which therefore regulate its whole capacity for movement. For the celestial element as source of all motion, must be regarded as first cause". See Aristotle, Meterologica, trans. H.D.P.Lee (Cambridge Mass., London: Harvard University Press, 1937), 339a19-24. 23 Plato, Timaeus 42 C-D. 24 Aristotle, On the Heavens, trans. W.K.C.Guthrie (Cambridge Mass., London: Harvard University Press, 1921), II.xii.292a. 25 Aristotle, On the Soul, III.V.430a. See also Victor Carston, "Aristotle's Two Intellects: A Modest Proposal", Phronesis, Vol. 44, No. 3 (Aug., 1999), 199. 26 Diogenes Laertius 7.55-158. 27 Diogenes Laertius 7.156-7. 28 Introduction, p. ix in Claudius Ptolemy, Tetrabiblos, trans. F.E.Robbins (Cambridge Mass: Harvard University Press, 1940). 29 Ptolemy (2000, III.96.27); see also 97.16. 30 Libellus I.25, in Scott, Hermetica, vol. 1, p. 129. 31 Ptolemy, Harmonics, II, pp. 12-13. 32 Ptolemy, Tetrabiblos III.13. See also the translation in Claudius Ptolemy, Tetrabiblos, trans. Robert Schmidt, vol. 3, (Cumberland MD: Golden Hind Press, 1996), II.14. 33 Iamblichus, De Anima, trans. John F. Finamore and John M. Dillon, Leiden, Brill, 2002, Ch. VII. See also the translator's introduction, 15. 34 See the discussion in Sandbach (1975) esp. pp. 60-61. 35 Hugh Lawson-Tancred, "Introduction", p. 37. References Aurelius, Marcus. 1964. Meditations (trans: Maxwell Staniforth). Harmondsworth, Middlesex: Penguin. Campion, Nicholas, and Nick Kollerstrom. 2003. Galileo's astrology, vol. 7 no 1. Bristol: Cinnabar Books 2004/Culture and Cosmos, Spring/Summer, 102. Bristol: Cinnabar Books. McMullin, Ernan. 1998. Galileo on science and scripture. In The Cambridge companion to Galileo, ed. Peter Machamer, 271-347. Cambridge: Cambridge University Press. Pannekoek, A. 1961. A history of astronomy. London: George Allen and Unwin Ltd., 19-20 Ptolemy, Claudius. 1940 Tetrabiblos (trans: Robbins, F.E.). Cambridge, London: Harvard University Press. Ptolemy, Claudius. 2000. Harmonics: Translation and commentary (trans: Solomon, J.). Leiden: E.J. Brill. Sandbach, F.H. 1975. The stoics. Bristol: The Bristol Press Sobel, Dava. 1999. Galileo's daughter: A drama of science, faith and love. London: Fourth Estate, 29-30. Taub, Liba Chaia. 1993. Ptolemy's universe: The natural, philosophical and ethical foundations of Ptolemy's astronomy. Chicago and La Salle: Open Court. van der Waerden, Bartel.1974. Science awakening, vol. II, The birth of astronomy. Leyden and New York: Oxford University Press. Anna-Teresa Tymieniecka and Attila Grandpierre (eds.)Analecta HusserlianaThe Yearbook of Phenomenological ResearchAstronomy and Civilization in the New EnlightenmentPassions of the Skies10.1007/978-90-481-9748-4_26(C) Springer Science+Business Media B.V. 2011 # Rationality and Wonder: From Scientific Cosmology to Philosophy and Theology William R. Stoeger1 (1) Vatican Observatory Research Group, Steward Observatory, The University of Arizona, Tucson, AZ, USA William R. Stoeger Email: wstoeger@as.arizona.edu Abstract Through astronomy, physics, cosmology, biology and the other sciences we have come to understand a great deal about nature and our amazing universe. We can sketch their main features in very broad strokes - evolution, relationality, nested levels of organization, complexity and potentiality for life and consciousness, contingency, transience and fragility, and order with some directionality. The universe itself has developed from a very simple, homogeneous system into one of incredible complexity - through the efficacy of the interactions which dominate it, and the emerging, highly differentiated relationships which operate within the macroscopic and microscopic systems and subsystems which form within it. But the universe, life and we ourselves are sources of wonder and inspiration - there is an enormous surplus of understanding, meaning, and significance which is nourished by scientific understanding but transcends it. They present themselves as inexhaustibly rich and deep - ultimately as Mystery. Though scientific rationality encounters limits to its capabilities to probe this Mystery more deeply, its incredible success within its competencies points to and validates our rational and personal quest for understanding and meaning beyond the cosmological limit - through the arts, philosophy, theology and the personal engagement from which they arise. In this presentation I shall explore some of the key ways we engage reality, the reality - the universe and nature - which gives us birth. I shall begin by reflecting briefly on how we achieve understanding, how meaning is constructed, and on the mystery which embraces both understanding and meaning. "Mystery" does not connote that we have no knowledge or understanding of ourselves or of reality, but rather that, although we continually grow in our understanding, the reality we are and of which we are a part is inexhaustibly rich. We never get the bottom of it. Included in this will be a brief characterization of the natural sciences, philosophy and theology as forms of knowledge. Next, I shall give a thumb-nail sketch of the principal characteristics of the universe - of reality - and of its evolution from the Big Bang to the present, including some important reflections on the processes involved in emergence and evolution, and on the different meanings of "the laws of nature." Connected with this, I shall indicate the constraints our scientific understanding of nature and cosmic and terrestrial history place on philosophy and theology, as well as the limitations of the natural sciences in achieving a comprehensive and full understanding of reality. This will segue to a discussion of C.S. Peirce's "retroduction" as the foundation of scientific rationality, and by extension as an inferential basis of human rationality in general. Its unqualified success within the sphere of the natural sciences strongly supports the competency of rationality beyond that sphere - beyond "the cosmological limit" - in philosophy and theology. Thus, intelligibility is attainable as questions of meaning, purpose, value, and ultimate origin are posed - not complete intelligibility but a gradual sifting out of the less inadequate answers from the much less adequate responses. Mystery is successfully probed - partially - but continually deepens. This surplus of understanding and meaning which we encounter in the mystery of reality leads to realization of the Sacred - to that which somehow connects us to the underlying unity and depth of nature and the universe - to our origin and end. Though we only dimly understand these aspects of reality we must take a personal stance towards them - which involves respect, reverence, contemplation, commitment and participation. Is our self-engagement and our engagement with the larger reality of which we are a part ultimately fruitful and life-giving or not - for ourselves and others? ## Understanding, Meaning and Mystery There are several different strategies for increasing our understanding of something. We can analyze the object or system into its components, and try to model adequately the relationships among them. We can also situate it within the larger system or context of which it is a part, and explore all its connections to - and dependencies on - this context. We might call this "the synthetic approach." Finally, we can determine the origins (both intermediate and ultimate), together with the purpose or ends, of the object or system under investigation - what functions it fulfills, why it exists, what it will become. These three strategies are complementary, and all of them are important in the long run. As we explore the world around us our central challenge is to understand through these approaches the rich diversity we encounter within the overarching unity of nature. Though we may understand something, we may not really know what it means. Thorough understanding leads to meaning, but the two are very different concepts. "Meaning" has different meanings! But here I shall use this term to denote the significance of an object, event, pattern of behavior, etc. relative to the larger systems or contexts in which it functions, and relative to the overall relationships it enjoys within them. It implies an openess to, and an engagement with, reality - and an orientation towards certain ends or goals. Meaning is constructed on the basis of our limited understandings, experiences, sense of relationship, and yearnings. It gradually evolves and undergoes testing and modification, as we use it to guide our individual and community lives within the world and within society. We formally pursue our quest for understanding and meaning within the natural sciences, philosophy and theology. Properly conceived they complement one another in attaining these goals. This can be seen more clearly if we venture a description of each set of disciplines. The natural sciences are disciplines oriented towards a detailed qualitative and quantitative understanding and modeling of the regularities, processes, structures, and interrelationships (the laws of nature) which characterize reality - relying on rigorous, repeatable analysis and experiment (observation). In contrast, philosophy - going beyond the important area of philosophy of language - deals with ultimate questions and the pervasive aspects of reality - and not with well-defined, easily isolated phenomena. It often involves investigation of those features of nature and the universe which are presupposed by the specialized sciences. Before briefly discussing theology, we must first say something about religious faith, upon which theology is based. The best definition of faith I have heard is that of Avery Dulles: Faith is our ongoing positive response to perceived divine revelation in discernment and commitment (Dulles, S. J., Avery, 1997). Theology, then, according the famous definition of Anselm of Canterbury,1 is "faith seeking understanding." It is the discipline directed towards understanding God, the presence and action of God in our world, and our response to that transcendent reality. But in all this we must recognize "mystery." The universe, life, ourselves, and the reality in which we are immersed defy any adequate, complete or full understanding - and present themselves to us as inexhaustibly rich. We always have more questions. We do come to understand a great deal through the natural sciences, philosophy and theology - and other less formal reflections on reality - and we gradually arrive at deeper understanding and meaning. We find ourselves continually invited to go even deeper - beyond where understanding is reliable. But we never come close to achieving full understanding - and it's clear that we never shall. For instance, we know a great deal now from the sciences about intermediate origins and ends, but, when we pose the question of ultimate origins and ends, we encounter dense mists. Much of what is Mystery is deeply experienced and intuited - and is essential for constructing Meaning. But at the same time, it is only dimly comprehended (e.g. the Particular as particular). ## The Key Features of the Universe If we stand back for a moment and survey all that the sciences have revealed to us about reality and the universe at large, what are its key general features? Certainly, one thing we immediately recognize is that is evolving - changing and developing on all scales - with new systems and organisms emerging within it. That's true biologically, but it is also true cosmically. In fact, cosmic evolution puts the building blocks in place for the initiation of biological evolution. But there are also other more pervasive important characteristics. Certainly one of them is the universe's order and intelligibility. Though it is very complex in some ways, it is also simple enough to be modeled and precisely described by us. It could have been otherwise! Furthermore, it is marked by pervasive relationality. At every level relationships among components (e.g. atoms within molecules) and with the larger immediate context are central to its microscopic and its macroscopic structure - and essential to innumerable nested levels of organization and complexity, which in turn enable the rich differentiation and continual emergence of systems, organisms, persons, communities, and ecologies. In fact it appears that the interacting and overlapping relationships which objects and systems enjoy with one another is precisely what makes each one what it is. Many of these relationships - whether internal or external - are therefore constitutive. Along with this relationality and hierarchical structuring are two other notable features: the formational and functional integrity2 (relative autonomy and intrinsic dynamism) and the unity and solidarity that nature manifests. Given the existence and intrinsic order of the universe and nature, there is no need - and no evidence - for any extrinsic control of natural processes, nor for any micromanaging intervention. The emergence of new systems and organisms occurs as a result of the laws of nature themselves - those we understand, and those we don't. Other closely associated characteristics are contingency - understood both as the dependence of each system on something else (its lack of necessity) and as involving a certain amount of chance (but chance always within a larger framework of dynamic order) - and the transience and fragility of all the systems and organisms which emerge in the course of cosmic and terrestrial evolution. There is certainly emergence, but emergence inevitably rests on the demise and dissolution of earlier systems and organisms. Nothing lasts forever. In fact, a very good case can be made for the absolute necessity of fragility and transience in an evolving universe. Evolution would quickly come to a halt, if everything that emerged were eternal. Directionality is also notable within the universe - not a fixed unique endpoint - but rather at any particular juncture an orientation towards a limited range of outcomes - based on the given conditions at any initial point we consider and the laws of nature dominating then. The universe itself has been continually evolving towards cooler, lumpier, and more complex configurations over the last 13.7 billion years. Thus also, since the Big Bang, time has obviously been very, very important. Finally, the universe appears to be fine-tuned for complexity - the "anthropic principle." From what we know of physics and cosmology, very slightly different values of the fundamental physical constants or the key parameters characterizing the universe would have rendered the universe completely sterile. We do not yet know how best to explain this apparent fine-tuning. Connected with it, of course, is the important recognition that our universe is life-bearing. Life and consciousness have emerged in at least one locale - and therefore are possible elsewhere, especially when we consider the staggering number of stellar systems in the universe. At an intermediate level of explanation, such cosmic fine-tuning can be explained by a really existing collection of many universes - a multiverse - which represent a wide range of possible values of the fundamental constants and cosmic parameters. At the ultimate level of explanation, however, the sciences cannot provide an answer - why is this universe, and this multiverse, the way it is, such that life and consciousness have emerged in at least one location within them. At an even more fundamental level, they cannot provide an account for the existence of the universe or multiverse, nor for its intrinsic order. ## The Stages of Cosmic Evolution Before quickly summarizing the various stages of cosmic and biological evolution, it is important to recognize that the continual emergence of novelty and complexity which has occurred in the 13.7 billion year history of our universe has required a stable dynamical order. The relationships, processes, regularities and structures which constitute that order - as described by physics, chemistry and biology - have enabled the overall cosmic system, and all the subsystems which have emerged within it, to function as wholes, to maintain their organization and integrity, to develop and differentiate, and to provide secure plateaus from which further novelty and complexity have been achieved. We often refer to the collection of these relationships, processes, regularities and structures as "the laws of nature." In appealing to them as explanations for what has emerged in the universe, it is important to distinguish between the laws of nature - the relationships, processes, regularities and structures - as they actually function in reality, and the laws of nature - our laws of nature - as we imperfectly understand them and have modeled them (William R. Stoeger, S. J., 1993). The reason for this distinction is that, as we well recognize, our understanding - even with our sophisticated scientific expertise - falls far short of an adequate or complete comprehension of all the relationships, processes and regularities which are actually involved in nature, and in what has emerged and is emerging from our evolutionary history. In fact, it seems clear that some of these relationships and regularities are not vulnerable to investigation by the natural sciences, but only by other modes of inquiry - for instance those of philosophy and theology. In this very brief outline I shall situate biological evolution within the larger context provided by cosmic evolution. This is in recognition of the essential, absolutely necessary conditions for the emergence to life which cosmic evolution establishes - honoring the fact that it sets the stage for complexity and life and produces the building blocks and the environments (e.g. the chemical elements, the simple molecules, and the stars, planets, moons and comets) needed for the emergence of life. We need cool, highly structured, complex and richly differentiated chemical environments even for life to be possible. Cosmic evolution itself can be described very simply. The universe, during its history from the Big Bang to the present, has been continually expanding and cooling. And, as it expands and cools, global and local conditions change, and new things become possible. Thus cosmic evolution involves going from earlier, hotter, smoother, more simple states to ever cooler, lumpier, more complex and richly differentiated states. Very early in the universe's history - until about 300,000 years after the Big Bang - the universe was a very simple system of smoothly distributed gas expanding and cooling, with no stars, galaxies, or any discernible structure at all. And it was chemically impoverished - with just hydrogen, helium and a little bit of lithium, the lightest metal. As is now very well known, it is only with stars that all the heavier elements were produced. The general stages of cosmic evolution are the following: 1. From the Big Bang to the end of the Planck era - during this extremely short period of time (much less than a millionth of second after the Big Bang) the universe was so hot that space and time as we know them did not exist, and the four fundamental interactions of physics were unified. We have no adequate understanding or model of this period. At the end of this period, space and time - and gravity - as we know them emerged. 2. Inflation: Extremely rapid expansion and supercooling of the universe - still well within the first second after the Big Bang - which generated the primordial density fluctuations, the seeds for the formation of galaxies and stars. 3. Exit from inflation and the reheating of the universe. 4. Early "classical" cosmological evolution: Gentle expansion and cooling of the universe as an almost homogeneous, undifferentiated system. 5. Late "classical" cosmological evolution: Structure formation (galaxies, clusters of galaxies, stars), leading to the synthesis of all elements heavier than helium and lithium. 6. Uninstructed chemical evolution (Kuppers, 1983): Synthesis of simple and complex molecules. 7. Instructed chemical evolution3: Reproducing systems of information carrying molecules (RNA, DNA, proteins) and the initiation of natural selection. 8. Biological evolution: Natural selection, prokaryotes, eukaryotes, multicelluarity, etc. 9. Cultural evolution: Social , political, religious, economic structures, along with ideas, literature, arts, sciences. The natural sciences have given us a fairly reliable - and increasingly precise - account of all these stages of cosmic evolution, and the incredibly intricate and complex achievements within each of them, especially with regard to biological evolution. Again the laws of nature - not only as we understand them but particularly as they actually function - are fundamentally responsible for this remarkable history of emergence. This leads us to consider the strengths and limitations of the natural sciences themselves, which will lead us to considerations which take us beyond them. ## The Constraints Imposed by, and the Limitations of, the Natural Sciences Other modes of reflection and inquiry - particularly philosophy and theology - insofar as their investigations touch on the natural world must respect and honor the competencies and reliable conclusions of the natural sciences. As a particular example, consider philosophy's and theology's discourse concerning God's action in the world. It is obvious that the findings of the natural sciences impose severe restrictions on how theology can conceive God's creative action in nature, and God's special action in history. This is actually a significant contribution to both philosophy and theology, as it forces both disciplines to purify their concepts and their language, as well as the considerations they employ in arriving at their conclusions. On this subject, it has become clear that the understandings we have from the sciences help reinforce some of the best traditional formulations of divine action that we have - in terms of "primary causality," "creation from nothing," and "continuing creation," as long as these are properly understood. At the same time the findings of the natural sciences push us towards radical formulations of divine action - consistent with these earlier insights - in terms of divine immanence, kenosis and incarnation (and other strongly Trinitarian perspectives). Although we are deeply impressed by the competencies and strengths of the natural sciences, we also become aware of their limitations. For instance, as we do more and more fundamental work in physics and cosmology, we realize that these disciplines cannot really deal with ultimate questions - for instance, why there is something rather than absolutely nothing, or why there is this type of order, rather than some other type of order. The natural sciences presuppose existence and order, then attempt to describe and model the order they find. They may raise the question of its ultimate origin, but are unable to use their methods to search for an answer. Therefore, physics and cosmology cannot shed light directly on the ultimate origin of the regularities, relationships and processes we find in nature. Other limitations of the natural sciences are: their inability to deal directly with values, or with what endows our lives with value, orientation and meaning (they presuppose certain values, but are not capable of investigating or delving into the notion and basis of values as such); their inability to deal with events or situations which cannot be subsumed under a general law (the particular precisely as particular), or with personal relationships precisely as personal; and their blindness to the transcendent - they cannot deal directly or critically with experiences or patterns of experience which might indicate or constitute divine revelation. As many have emphasized, it is very helpful to specify both the strengths and weaknesses, the competencies and limitations, of the various disciplines, in order to facilitate dialog among their practitioners and to help each of them function more effectively within our complex and intricately interacting society. ## Retroduction and Scientific Rationality Now we shall discuss the inferential basis of scientific rationality, and how it leads us to a validation of human rationality in general - and in particular to its quest for understanding and meaning beyond the limits of the natural sciences. Over the last 25 years or so there has been considerable research done on the basis of scientific rationality. Among these efforts Ernan McMullin compellingly argues4 - philosophically and historically - that C.S. Peirce's concept of "retroduction"5 comes closest to describing how successful science is actually done. What is retroduction? According to Peirce it is a "movement of invention" that involves "moving backward in thought from observed effect to unobserved cause." Using the informed imagination we construct hypotheses, often employing or appealing to hidden structures, relationships or realities, and then examine what consequences these have. We then see if we can observe these consequences, and therefore determine to what extent the hypotheses "work." In practice, of course, under the pressure of careful experiment and observation, these hypotheses are gradually modified and fine-tuned - and some cases completely replaced. However, in this process, retroduction is the inferential guide. In retroductive reasoning it is the criterion of the long-term fruitfulness and success of the hypotheses which gives the assurance that something very much like the content of the hypotheses (theory) actually exists, even though we may never be able to detect it directly. Thus, retroduction as its actually functions in the sciences leads to ontological conclusions. The long-term fruitfulness and success of a theory or set of hypotheses include successful prediction of observation or experimental results, but go far beyond that. Paul Allen summarizes the principal criteria in the following way (Allen, 2006, pp. 71-72). A fruitful and successful theory must: (1) account for all relevant data (empirical adequacy); (2) provide long-term explanatory success and stimulate further fruitful lines of inquiry (theory fertility); (3) establish the compatibility of previously disparate domains of results (unifying power); and (4) manifest consistency (or coherence) with other established theories (inter-theoretic consonance). All these criteria must be met in order for a theory to be considered fruitful and successful in the long term. There are two closely related central meta-conclusions that we can draw from our reflections on retroduction, which have been strongly emphasized by McMullin, and especially by Paul Allen (2006). The first is that the "universe as a whole" is the "ultimate" and most comprehensive object of the natural science's retroductive inquiries. These have led to concluding to the existence and the characteristics of the physical system(s) within which all else fits and it to be understood - including ourselves. The second meta-conclusion is that the cosmology's, physics' and the other natural sciences' successful use of retroductive inference directly leads to an understanding and particularly a validation of human rationality in its search for knowledge. These two conclusions provide a basis for rationally transcending the limits of the natural sciences themselves. ## Intelligibility Beyond "the Cosmological Limit" As Allen6 stresses, in cosmology and in quantum field theories - however advanced they become - the limit of scientific critical realism and scientific rationality is reached, what he refers to as "the Cosmological Limit." However, cosmology and physics, having successfully attained their object, raise further questions which they themselves are not equipped to answer, but which certainly seem legitimate: Questions about deeper meaning, purpose, ultimate origin and destiny, the role of consciousness, value. These immediately move us from the natural sciences to philosophy, psychology, sociology, the humanities, theology. Furthermore, the unqualified success of scientific rationality as evidenced in the natural sciences, including quantum theory and cosmology, validates the quest of the informed imagination and retroductive inference on issues going beyond the natural sciences. Their capabilities are not limited to scientific questions. What takes us beyond this cosmological limit? As Allen points out,7 despite the limitations of the natural sciences, retroduction does not cease. Informed imagination still operates and searches - further questions are posed. "Scientific rationality is retroductive and imaginative, and therefore transcendent of science altogether, once the cosmological limit is defined."8 Thus. there is a surplus of understanding and meaning revealed in the self-transcending operations of scientific inquiry which invite the extension of retroductive rationality and inquiry beyond the cosmological limit,9 to embrace issues of meaning, purpose, ultimate explanation, etc. The key insight is that human rationality is self-transcendent and heuristic.10 This means that it is always moving beyond where it has arrived - even if it has to employ new approaches, methods, and criteria of evidence in its quest - and that it is, as a formulator of hypotheses, radically but flexibly anticipatory in that quest - constantly "trying new models and approaches on for size." ## Encountering Mystery and The Sacred: How We Engage Reality As we realize that we have arrived at the cosmological limit, and then continue to strive to move beyond it with our concerns and questions, we quickly begin to sense that there are aspects of reality which are fundamental, incredibly rich and profound that we shall never be able to comprehend adequately or master. And yet they exist, are very insistent and demand our attention. In a very real sense, we cannot grasp them - they grasp us. This is the dawning - and eventually consuming - awareness of Mystery, of the inexhaustible richness and depth, at the heart of the reality that embraces us. Along with this sense of Mystery is an evolving awareness of the Sacred - of that which reveals, and connects us to, the underlying unity of nature and the universe, to our origin and our destiny, inviting reverence, contemplation, commitment, participation. The Sacred overlaps Mystery - the inexhaustible depth and richness we encounter as we search for further understanding and meaning. It is experienced in deeper and deeper ways, is partially understood, but is often inarticulable. Furthermore, it almost always involves personal, social, cultural, religious and spiritual dimensions. Most importantly, in its authentic forms, it provides personal and social orientation and meaning, and moves us towards an awareness of a unity which relishes diversity. One of the crucial outcomes of the personal and communal integration of all of our understandings, meanings, and of our growing appreciation of Mystery and the Sacred is how it strongly affects the way we engage reality. It has passive, actively passive, and active dimensions, and in its fully developed form enables an openness to what is revealed by the full range of our experience. It is constantly enabling us to see more deeply into ourselves and into the reality around us with appreciation and with a sense of the distinctiveness we possess in the overall unity of nature. Finally, it guides our participation in, and the attitudes we bring to, our projects and our relationships and involvements. Among the criteria which nourish and authenticate our engagement are: wonder, humility, respect, care, communication and reconciliation. Here I have moved from a general consideration of the natural sciences, and the knowledge and understanding of ourselves and our world they enable, to a consideration of the foundations for our rational encounter with aspects of reality beyond the sciences, and what types of engagement with reality that leads to. Mystery and the Sacred are important aspects of what we encounter in that quest - not that there is no understanding or critique possible, but that the every growing partial understandings we attain invite - and even demand - that we engage at levels and in ways that which go beyond what rationality can securely and clearly establish, but which lead to fruitful and ultimately successful courses of action and behavior. ## Notes 1 Anselm of Canterbury, Proslogion, Preface (Prooemiium), in St. Anselm's 'Proslogion' with 'A Reply on Behalf of the Fool' by Gaunilo and 'The Author's Reply to Gaunilo,' trans. by M. J. Charlesworth (Oxford: Clarendon Press, 1965), pp. 101-105. 2 Coined by Van Till (1986). The essence of functional and formation integrity goes back to Basil of Caesarea (Hexameron) and Augustine (De Genesi ad Litteram), as Van Till stresses. 3 Ibid. 4 See for instance McMullin (1992, p. 112). 5 See C.S. Peirce, in his Collected Papers, Vols. 1-6, C. Hartshorne and P. Weiss, editors (Cambridge, MA: Harvard University Press, 1931-1935), Vol. 1, para. 65, and Vol. 5, para. 188; also in his Collected Papers, Vols. 7 & 8, A. Burks, editor (Cambridge, MA: Harvard University Press, 1958), Vol. 7, paras. 202-207, 218-222. 6 Ibid., pp. 103-120. 7 Ibid., pp. 122-125. 8 Ibid., p. 124. 9 Ibid., pp. 116-117, p. 153. 10 Ibid., p. 123, p. 153. References Allen, Paul L. 2006. Ernan McMullin and critical realism in the science-theology dialogue. Aldershot: Ashgate Publishing Co, 201. Dulles, A. 1997. The meaning of faith considered in relationship to justice. In The faith that does justice, ed. John C. Haughey, 10-46. New York: Paulist Press. Kuppers, B.-O. 1983. The Molecular Theory of Evolution. New York: Springer, 2. McMullin, Ernan. 1992. The inference that makes science. Milwaukee, WI: Marquette University Press, 112. Stoeger, W.R. 1993. Contemporary physics and the ontological status of the laws of nature. In Quantum cosmology and the laws of nature: Scientific perspectives on divine action, eds. Robert John Russell, Nancey Murphy, and C.J. Isham, 209-234. Vatican City State and Berkeley, CA: Vatican Observatory and the Center for Theology and the Natural Sciences. Van Till, H.J. 1986. The fourth day: What the bible and the heavens are telling us about creation. Grand Rapids: Eerdmans. Anna-Teresa Tymieniecka and Attila Grandpierre (eds.)Analecta HusserlianaThe Yearbook of Phenomenological ResearchAstronomy and Civilization in the New EnlightenmentPassions of the Skies10.1007/978-90-481-9748-4_27(C) Springer Science+Business Media B.V. 2011 # Positive Contribution of Religion to Cosmology Marian Ambrozy1 (1) Pavol Ušak Oliva's Gymnazium, Poprad, Slovakia, Europe Marian Ambrozy Email: american4@post.sk Abstract In comparison of religion and cosmology as a natural science there is a primer distinguishing feature that is different language. In this sense there exist possible compromises in usage of the common language or the usage of only one of those languages in the common communication. Even if it seems that the science and theology blend together, but in the positive sense it is not the necessary but the contingent relation. Even if there is a different answer, sometimes they can examine the same problem from their own point of view and with different competencies for the answers. The example of the common question and their mutual problem, but of course with the different answers, it is the problem of the origin of the universe. Theology of Judaism, Christianity and Islam together with several myths of Bonism and Zoroastrism explain the origination of universe by the chief intelligible entity, but on the other side cosmology explains this origin in the language that deals with the step by step destruction of interactions, formation of leptons and hadrons up to the formation of systems and planets. This language has even the limits in the form of non-extrapolation of the general theory of relativity in the space-time fields smaller than 10-33 cm and 10-43 s. Situation is complicated by the incompatibility between VTR and quantum theory. While in this situation religion and theology are able to answer the question of the origin of the universe using their own tools, the cosmology in the recent paradigm starts the way of speculations. Various theories and hypothesis try to answer it, but in the principle they are not able to find the solution by any tool. Even though the religion could find some deeper answers, the basic grounds of the answers is its' faith in the basal claims. Transcendental theology tries to answer the questions that can not be answered by the competency, language and scientifical patterns limited cosmology. Religion shows the existence of the different world from the world of phenomena. By this means helps also scientifically oriented intellectual to create his holistic picture of world even beyond the competencies of cosmology. In order to determine positive contribution of religion, whether Judaism, Christianity or Islam, to astronomy, cosmology or cosmogony, we need to define our understanding of the relation between science and religion. Before we start, we need to realize that both religion and theology often address the same issues as science, however, they do it differently. First of all, they use different languages. "Common, but different too principles between philosophy and other sciences point at the fact, that philosophy in relation with sciences is sort of preunderstanding of the meaning of the science, as well as it's determination" (Dirgova, 2007, p.17). As Thomas S. Kuhn says, terms used by science depend considerably on the prevalent paradigm. Prevalent paradigm is an ambiguous term. What matters are the results of research that are generally accepted. The term, besides other functions, "fulfills the function of a demarcation criterion for distinguishing between what is considered science and what is not" (Vicenik, 1981, p. 10). Paradigm determines the language of science to a considerable extent. Language of science uses terms more or less usuall at times when science does not change its fundamental approach. On the other hand, the language of religion is determined by denomination. European cultural tradition is dominated by Judaism, Christianity and Islam. Protestant Christian theology, for example, defends the position of sola scriptura according to which theologia naturalis represents a path that is impassable or at least unconventional and which basically cannot lead to undisputable theological knowledge. Catholic theology is not against such approach. The five ways of getting closer to God as presented by Thomas Aquinas can serve as an example supporting this assertion. Islamic theology shares a similar approach. For example, in relation to legal matters it applies the so called Ijmā', i.e. answers of the scholars of Islam to certain questions. "Consensus among religious and legal authorities gave answers to many issues that were addressed neither by Koran nor Sunnah" (Hruškovič, 1997, p. 29). This means that on levels other than religious Islamic theology accepts also answers not coming exclusively from the text it holds sacred. Mu'tazilites as the oldest mutakallims "were creators of a new type of theology (kallam): theology both speculative and scholastic, armed with tools of Greek philosophy" (Bondy, 1995, p. 14). Despite dogmatic nature of Islamic theology it has to be stated that it does not reject argumentation via tools of reason and science. On the other hand, however, Muslims partially criticize European approach to grasping of the world (Poliakova, 2007). As we can see, theology in its numerous denominations attempts to speak about the same issues science speaks about. Nevertheless, languages of science and theology cannot be identical. "A scientist and a theologian develop a similar kind of knowledge, try to find answers to the same questions, however, languages, terminology, and conceptual schemes they apply are different. As a result, it sometimes seems that science and theology are indepent from each other" (Hrkut, 2008, p. 62). Jan Hrkut assumes that it is possible to start a dialogue between science and religion via a shared view, i.e. via reduction to a common language or to a language of one of the two disciplines. Certain terms thus should be used by both science and theology which possibility we do not consider impossible. Jan Hrkut believes that science and theology do not study the same. We agree with his opinion that their relation is not necessary but contingent. Nevertheless, science and theology do meet at certain points, deal with the same questions and tackle the same problems trying to find the answers. There are certain issues both of them address and there are certain types of answers they produce that could be labeled as commesurable. The answers are not identical; however, they do not contradict each other either. The questions target the same issue and even though the answers differ, they do not contradict each other. Despite the aforementioned we dare to say that in certain cases science and theology study the same subject but the answers they provide differ. One of the topics both science and theology deal with is the description of the origins of the universe. Naturally, the answers they provide differ both in terms of language and content. Physical cosmology searches for the answers regarding the origins of the universe. The answer cosmology presents is generally known. "According to quantum theory, the force of gravity and the force characterising the so called grand unification (GUT) united when Planck energy reached Ep- 1019 to 1020 GeV (and when temperature was T-10 32 K, density of energy of the universe reached p-1094 g.cm3 and linear dimension of the universe was 10-34 cm)" (Blažek, 1997, p. 97). It happened at the point of time before 10-43 s. What happened before cannot be described by the language of contemporary physics. It is the sphere of interest of quantum cosmology. However, it is assumed that the stated time witnessed the separation of forces of grand unification (GUT) and the force of gravity. It is assumed that GUT broke into two interactions, electroweak and strong, when the age of the universe was 10-35 s. According to cosmologists, this phase lasted probably till 10-11 s. The period between this moment until 10 s physicists describe as another phase. It was then the electroweak interaction proven by Weinberg and Salam in 1967 and 1968 allegedly broke. From the viewpoint of particles development it is a very interesting period of time during which certain leptons and nucleons annihilated and bosons and heavy quarks disappeared. The rest consisted of photons, neutrinos, electrons and u- and d- gluons. Recently, scientists discuss the possibility of inflation start at temperature of the universe 1032 K. Very likely, the supersymetry would be destroyed and the symmetry of grand unification would be proven. Cosmologists count with the time 10-44 s, i.e. the Planck era. However, the above mentioned theories have not solved the problem of transformation of the energy of the vacuum into the radiation field which means we still do not know the way how preconditions necessary for the emergence of galaxies originate. "With respect to this serious physical problem it is not possible to consider the conclusions of the said approaches physically serious" (Blažek et al., 2006, p. 228). Modern research has revealed further results. There are areas in the universe located opposite each other whereas they are so far away from each other that they could never get in contact. The temperature in these areas is the same which fact indicates the probability of inflation involvement but there are also small deviations. There is an assumption that the said deviations, even though they do not exceed the level of 10-5 K, were caused by original small fluctuations at the phase of universe development before 10-35 s. At this point, it is necessary to add more information. Inflation was described and explained by Alan Guth at the end of 1979. Alan Guth found out that the universe expands much faster than the hitherto known standard model had assumed. During inflation, the universe doubles its size every 10-35 s. Naturally, the speed of expansion grew correspondingly. "Area originally 10-36 times smaller than proton inflated (that is how this model acquired its name) to an area with a diameter of 10 cm in a moment lasting less than one blink of an eye" (Gribbin, 2002, p. 284). In its initial stages of development the Guth model was not entirely consistent with other knowledge of cosmology. "Solution proposed by Guth was very remarkable.... Though we do not have a theory that could satisfactorily explain the energy of vacuum, Guth discovered that at the end of the grand unification era vacuum could have had different and much higher density of energy that it has today. This strange status is called false vacuum in order to distinguish it from the real vacuum. This situation did not last long as the energy of vacuum soon got to the value observed today" (Jones and Lambourne, 2003, p. 276). Soviet physicist Andrej Linde helped to improve this model. He dealt with the problem of transition from the state of false vacuum. From the viewpoint of general theory of relativity it is vacuum, however, from the viewpoint of quantum physics it is not. Vacuum cannot be defined in such a way. It can be considered a space of fast changing quantum fields. Quantum field oscillates aournd the state of minimum energy. Such oscillating quantum field slowly gets into the state of minimum energy. Production of pairs of particles is actually transformation of energy of oscillation into particles themselves. During this process the temperature of the universe reaches extreme 1027 K. The universe is then actually created from a scalar field. Linde calls it chaotic inflation. Chaos can be considered the first necessary precondition for origination of such universe. This theory claims that originally the universe was not hot and therefore it speaks of secondary heating up of the universe. It is assumed that there existed a field with a zero spin acquiring much higher values in certain areas as a result of quantum fluctuations. It is interesting that Linde in his theory admits that a similar process could occur again which "indicates the existence of countless other universes" (Ferris, 2005, p. 257). This way of thinking is certainly linked with many serious consequences. If we speak of inflation we speak of a generally accepted theory which is not in contradiction with the standard model. On the other hand, the standard model does not confirm inflation, "other explanation of phenomena explained by inflation cannot be excluded" (Blažek, 1997, p. 94). This theory includes also other parameters which have to be adjusted to be aligned with observations. Inflation probably took place in the beginning of this era. As the inflation theory explains, this was the period when the bases of future galaxies were formed. So much to the standard model as presented by accepted cosmology. It has to be added, however, that "certain known facts a priori exclude the feasibility of some models of the universe cosmology presents as there is inner discrepancy between them" (Hanisko, 2009, p. 234). Here we mean various models assuming the existence of Euklidic universe, even distribution of substance and other hypothetical ideas which contradict empirically observed facts. So much to the generally known answer of contemporary cosmology. Physics deals with the issue of describing the origins of the universe. Religion tries to answer the same question. The answers of religion to this question are different depending on denomination. Many of them, e.g. traditional Hellenistic religion, Shinto religion, in specific modified form also Hinduism and others, base their answers on the assumption that the universe did not originate as such but was created out of chaos. The most wide-spread religions in Europe and Middle East are Judaism, Christianity and Islam. They have common basis and identical cosmology. The answer is clear. "In the beginning God created the heavens and the earth." /Gn, 1,1/ This unambiguous sentence of the first book of the Scripture was interpreted by one of greatest experts professor Heriban as follows: "In the beginning should be understood as in the beginning of time, in the beginning of God's work. Before, there was nothing, except for God. 'He created', in Hebrew 'bara', means he created out of nothing. The verb in this form expresses exclusively the acts of God independent of substance. 'God', not created by anybody, is eternal" (Heriban, 2007, p. 38). Koran, the holy text of Islam, puts it similarly: "Who created the heavens and the earth and what is between them in six periods, and He is firmly established on the throne of authority; the Beneficent God" (Koran, 1991, p. 249). /LXIV, 60/59/ Only few other religions, especially zoroastrianism and bonism, share the above mentioned approach with Judaism, Christianity and Islam. In case of bonism, however, we can identify only some myths of non-consistent bon cosmogony. The aforementioned religions claim that the world was created from nothing. These religions thus directly address the origins of the universe and try to explain it from theological and metaphysical viewpoints. Cosmology has certain boundary, the so called Planck era, through which it cannot get to the very beginning. Events preceeding the Planck era are studied by quantum cosmology. Knowledge of quantum cosmology consists of vague non-consistent hypotheses. This part of cosmology is studied from several viewpoints. In physical cosmology there is "totally acceptable temptation to consider singularity a natural boundary of extrapolation of the general theory of relativity" (Tursunov, 1980, p. 171). The situation is different, however. "Based on current estimates the characteristic time and space limits of the boundary of cosmological extrapolation of the Einstein's theory of gravitation represent 10-33cm and 10-43 s" (Tursunov, 1980, p. 172). In cosmogony, this fact is of vital importance for formulation of hypotheses since "according to our current understanding it will not be possible to find out how the universe developed after this interval" (Blažek and Ďurček, 2001, p. 181). We need to realize that in spite of the fact that Paul M. Dirac unified quantum theory and special theory of relativity, we are still missing the unification of the general theory of relativity and quantum mechanics, i.e. gravitation resists overall unification of interactions. The standard model and the general theory of relativity are not compatible. As academician Zeldovič explains, it is easy to determine areas where quantum phenomena play important role but it is difficult to find out what is going on in these areas and to define a problem. This makes the formulation of unified theory of quantum cosmology difficult. For a long time scientists believed that "Weyl's experiment in the area of geometrization of physics was the only experiment that brought new information since Einstein" (Sviderskij, 1956, p. 245). Since then many new theories regarding interconnection of geometry, physics and micro world emerged. There are several views that are not mutually consistent. Discrepancies among them lie in different application of geometries, different views on the quantum status of the universe in its earliest stages as well as in the different basic approach to the understanding of the origins of the universe. "There exists no physical theory describing the Planck era t<10-44s. It is believed that when the universe was younger than the Planck era the basic interactions had similar forces. However, without consistent physical theory it is very difficult to describe the events of that period of time" (Jones and Lambourne, 2003, p. 269). There are theories which attempted to do so such as theories by Hawking, Penrose, Vilenkin, and Edward Tryon. The said scientists have come up with various hypotheses, e.g. twistor theory, theory claiming that universe has no time boundaries or that it originated as a result of vacuum fluctuation. Taking into consideration current physical paradigm, we have no possibility to prove or falsify these theories as it is not possible to describe reality before the Planck era. At a first glance, these are attempts to answer the same question. The ways the questions are formulated slightly differ even though there is just one question - the origin of the universe. Quantum cosmology deals with the question of the origins of the universe. According to contemporary paradigm, cosmology cannot answer this question. Religion puts the question similarly. Can it thus be said that the answers provided by religion and quantum cosmology are similar? It is not possible to give a positive answer. Both cosmology and religion target their question at the origins of the universe. Science is aware of its limits therefore it either believes the question is unanswerable or scientists present scientific hypotheses in the form of quantum cosmology aware of the fact that these cannot be tested. Questions and answers of religion go deeper. If it was possible to prove some of the answers of quantum cosmology, it would be in the physical and not transcendental and metaphysical sense. Cosmology and religion deal with the same question - the origins of the universe. However, they answer the question differently. They study the same field, however, each of the disciplines looks at it from a different angle which fact is reflected in their answers. None of the disciplnes may overstep its sphere of competence. Cosmology as any other natural science does not mention God. "Rahner himself suggested that methodology of science should, from methodology viewpoint, remain atheistic as God is not an individual factor in the series of related events" (Sarka, 2008a, p. 38). What is, after all, the positive contribution of religion to cosmology? "Interest of scientists in theology was provoked not only by personal reasons but also by attempts to bring common readers closer to specific issues of natural sciences" (Mlynarčik, 2008, p. 101). Theology tries to come up with answers in areas where science is not able to give answers as it simply does not have competence to do so. Theology exceeds into transcendental sphere and is thus transcendental. "Entire reality cannot be identified with our physical understanding which is often based on hypotheses and fragments" (Sarka, 2008b, p. 79). Religion thus exceeds into transcendental spheres and majority of Christian denominations use the Scripture and traditions as their source of information. Religious answers show that reality cannot be judged only by our senses. Without religious questions there would be no transcendental questions going beyond the measurable that can be perceived empirically. And what is the meaning of it all for a scientist or a person deeply interested in scientific research? We agree with the words of theologian Robert Sarka: "Belief without science could become a fanatic ideology trying to interprete the world despotically according to a priori given concepts not reflecting human knowledge. On the other hand, science without religion could become a modern form of black magic unscrupulously attempting to take control of reality independently from ethical and human values" (Sarka, 2008a, p. 40). This is not only about ethos. Religion does not ignore questions. It pushes them to other levels where cosmology or natural sciences are not able to provide the answers. Religion points out a sphere of existence wider than the empirically observable present. On the other hand, religion is important for science also from the viewpoint of consensus in the aspect of overall understanding of reality. For a person thinking transcendentally it is important to see that scientific knowledge and theology are not in the state of incompatibility. We could suppose that scientists has a very similar language code in main topics whitch connect them usually or divided them into different philosophical or ideological groups. But different religions could due to cultural icompability. "Cultural incompability appear from premise that each civilization has its fixed system of rules " (Žarnovičanova, 2008, p. 141). In such case, the meaning of theology for a scientist applying holistic thinking is in the fact that it shows him that scientific knowledge can or cannot be interpreted in accordance with his beliefs. In positive case, religion together with science including cosmology, help build ideology holistically including both scientific and religious knowledge that do not contradict each other. Answering the questions that do not contradict empirical scientific research is the positive contribution of theology to a scientist and intellectual as it helps build holistic, consequent picture of the world going beyond spheres perceived empirically. References Blažek, Mikulaš. 1997. Úvod do sučasnej kozmologie, Bratislava. ISBN 80-7141-170-1. Blažek, Mikulaš and Karol Ďurček. 2001. Filozofický a fyzikalny pohľad na kozmologiu, Bratislava. ISBN 80-7141-297-X. Blažek, Mikulaš and Karol Ďurček, Ľuboš Rojka. 2006. Filozofický a fyzikalny pohľad na vesmir, Bratislava. ISBN 80-224-0929-4. Bondy, Egon. 1995. Středověka islamska a židovska filosofie, filosofie renesace a reformace, Praha. ISBN 80-85239-30-2. Dirgova, Eva- Littva, Vladimir: Úvod do filozofie 1 Starovek, Ružomberok, 2007. ISBN 978-80-8084-210-9. Ferris, Timothy. 2005. Všetko o vesmire, Bratislava. ISBN 80-88993-85-7. Gribbin, John. 2002. Patrani po velkem třesku, Praha. ISBN 80-7249-046-X. Hanisko, Peter. 2009. Vývoj nazorov na vznik a vývoj vesmiru. In Týždeň vedy a techniky, Ružomberok. ISBN 978-80.8084-426-4. Heriban, Jozef. 2007. Úvod ku Genezis. In Svate Pismo, Trnava. ISBN 978-80-7162-652-7. Hrkut, Jan. 2008. Vzťah vedy a naboženstva (nezavislosť). In Vzťah vedy a naboženstva, eds. Ladislav Kvasz and Eugen Zeleňak, Ružomberok. 2006. ISBN 978-80-8084-349-6. Hruškovič, Ivan. 1997. Islamský pravny system a proces jeho formovania, Bratislava. ISBN 80-7160-081. Jones, M.H., and R.J.A. Lambourne, eds. 2003. An introduction to galaxies and cosmology. Cambridge: The Open University, Cambridge University Press. ISBN 0 521 837383. Koran, Praha. Odeon. 1991, ISBN 80-207-0444-2. Mlynarčik, Peter. 2008. Filozoficke aspekty Božieho posobenia vo svete. In: Veda a naboženstvo, Bratislava. ISBN 978-80-7141-599-2. Poliakova, Maria. 2007. Spojitosť a kauzalita konfliktov Zapadu so svetom islamu In: Theologos 1/2007, Prešov. ISSN 1335-5570. Sarka, Robert. 2008. Porovnanie vedy a teologie. In Vzťah vedy a naboženstva, eds. Ladislav Kvasz and Eugen Zeleňak, Ružomberok. ISBN 978-80-8084-349-6. Sarka, Robert. 2008. Veda a teologia ako spojenci. In Vzťah vedy a naboženstva, eds. Ladislav Kvasz and Eugen Zeleňak, Ružomberok. ISBN 978-80-8084-349-6. Sviderskij, I.B. 1956. Filosofskoe značenie prostranstvo- vremennych predstavlenij vo fyzike, Leningrad, M-56922. Tursunov, Akbar. 1980. Filozofia a sučasna kozmologia, Bratislava, 75-075-80. Vicenik, Jozef. 1981. Thomas S. Kuhn a jeho koncepcia vývinu vedy. In Štruktura vedeckých revolucii, ed. T.S. Kuhn, Bratislava. Žarnovičanova, Ružena. 2008. Psychoedukacia ako jeden z intervenčných pristupov k emocionalne a socialne narušeným v ramci inkluzie. In eds. Peter Seidler, Viera Kurincova, and Juraj Komora, Cesty k inkluzii, Nitra. ISBN 978-80-8094-446-9. Anna-Teresa Tymieniecka and Attila Grandpierre (eds.)Analecta HusserlianaThe Yearbook of Phenomenological ResearchAstronomy and Civilization in the New EnlightenmentPassions of the Skies10.1007/978-90-481-9748-4_28(C) Springer Science+Business Media B.V. 2011 # Principle of Greatest Happiness Katalin Martinas1 (1) Atomic Physics Department, ELTE, Budapest, Hungary Katalin Martinas Email: kati.martinas@gmail.com Abstract Happiness research has become a hot topic in social sciences in Western countries in particular in economics recently. Nevertheless there is a considerable scientific pessimism over whether it is even possible to affect sustainable increases in happiness. In this paper we argue that the principle of greatest happiness can and must serve, as fundamental law of human behavior in social sciences, especially that in economics. We outline a new approach to economic theory, where the governing law of human actions is based on the Greatest Happiness Principle (GHP). The work was sponsored by the Hungarian Research Fund, OTKA K 61586. ## Introduction In this paper we argue that the principle of greatest happiness is the basic law of a relevant economic theory. To underline the principle a short summary of the history and emergence of the concept of happiness is presented. At the end we outline the axiomatic foundations of a theory of social economics based on the greatest happiness principle and indicate its promise to improve the prospects of mankind. What is happiness? Every day of our lives, we use the word "happy" in a sense which means "feeling good," "having fun," having a good time, or somehow experiencing a lively pleasure of joy. We say to our friends when they seem despondent or out of sorts, "I hope you will feel happier tomorrow." It is clear that this usage is not the happiness we mean here. What makes a human life good - what makes it worth living and what must we do, not just merely to live, but to live well? What is the best? The best is the well-being and the well doing in the present, and in the past and in the future. That is the life satisfaction and the happiness. Happiness means living a good life, or flourishing - as the word eudaimonia in Aristotelian formulation, rather than simply an emotion. The happiness economics became a flourishing part of economics, see the excellent books on economics and happiness (Bruni and Porta, 2005, 2007). The goal of happiness economics is to determine from what source people derive their well-being Layard identifies seven main factors, which affect happiness (the Big Seven): financial situation, work, family relationships, community and friends, health, personal freedom and personal values (Layard, 2005, p. 63). That can be the answer for the great paradox of the past 50 years: in western societies happiness did not change. From the big seven, three have improved: health, income and the quality of work. But some have deteriorated: family relationships, the personal values and safety which is prerequisite of the personal freedom. In this paper we stress that for theoretical economics the basic postulate of human nature is the GHP. The modern economic theory is historically based on the GHP, but it was simplified to be compatible with the natural science framework of the nineteenth century - that is with the Newtonian paradigm. The results of the twenty-first century natural sciences allow the construction of a less restrictive mathematical economics based on the GHP. There are many objections against GHP, as the governing law of human actions. The first objection against GHP is, that it is not right, as sometimes we are unhappy; we are not in the state of greatest happiness. Yes, the happiness is a governing law of human actions; it is the aim of the actions, and not the result. From mathematics it is well known, that the maximum always depend on the constraints, and when the constraints do not allow the actions, which would make us happy, then we cannot be in the sate of maximum happiness. That principle is better formulated in the form that our decisions satisfy the pursuit of happiness principle. The second objection is that happiness is subjective, so there is no measure for it. In modern time there are a lot of researches on the field of happiness. The scientific measure of happiness is based on one simple idea. The scientists ask people "How happy are you on scale 1-7 or 1-10?" The interesting thing is that measures produce real answers that are meaningful and characteristic for the group under investigation (already there are a lot of results of cross-country comparisons too (Caporale et al., 2009). As an example we cite the results of Sonja Lyubomirsky (Lyubomirsky et al., 2005), who addresses the following questions: (1) What makes people happy? (2) Is happiness a good thing?; and (3) How can we make people happier still? She proposes that a person's chronic happiness level is governed by three major factors: a genetically determined set point for happiness (40%), happiness-relevant circumstantial factors (10%), and happiness-relevant activities and practices (50%). These relatively weak associations with the material and other circumstances have been deemed surprising and paradoxical, but it is a fact. The pursuit of happiness as a social goal - as opposed to being a personal matter- opens the way to authoriter policies is a usual contra argument. But the greatest happiness of most people has obtained a constitutional value already in the US declaration of independence of 1776. > We hold these truths to be self-evident, that all men are created equal, that they are endowed by their Creator with certain unalienable Rights, that among these are Life, Liberty and the pursuit of Happiness. - That to secure these rights, Governments are instituted among Men, deriving their just powers from the consent of the governed. ## History of The Greatest Happiness Principle For Herodotus the happiness can be assigned to the whole life: Via Croesus and Solon discussion (Herodotus I.29) he gave the description of the happy life. > Croesus: Stranger of Athens, we have heard much of thy wisdom and of thy travels through many lands, from love of knowledge and a wish to see the world. I am curious therefore to inquire of thee, whom, of all the men that thou hast seen, thou deemest the most happy? Solon: Tellus of Athens, sire. > First, because his country was flourishing in his days, he himself had sons both beautiful and good, he lived to see children born to each of them, and these children all grew up; after a life spent in what our people look upon as comfort, his end was surpassingly glorious. In a battle between the Athenians and their neighbors near Eleusis, he came to the assistance of his countrymen, routed the foe, and died upon the field most gallantly. The Athenians gave him a public funeral on the spot where he fell, and paid him the highest honours. Aristotle looked for final goal of human life. This final goal he identifies on the basis of an appeal to experience as eudaimonia, a word traditionally translated as happiness. Eudaimonia carries the notion of objective success, the proper conditions of a person's life. Eudaimonia is a good life (well being and well acting) for the individual and it includes also success for one's immediate family, and for one's descendants. Aristotle in the Nicomachian Ethics (Book1, 6) said that happiness is desirable in itself and never for the sake of something else. But honor, pleasure, reason, and every virtue we choose indeed for themselves, but we choose them also for the sake of happiness, judging that by means of them we shall be happy. Happiness, on the other hand, no one chooses for the sake of these, nor, in general, for anything other than itself. Happiness, then, is something final and self-sufficient. He gave a deep definition in (Aristotle 1, 8). > Happiness then is the best, noblest, and most pleasant thing in the world, and these attributes are not severed as in the inscription at Delos- > > Most noble is that which is justest, and best is health; > > But pleasantest is it to win what we love. Our present ethical systems can be divided into two main branches, namely deontological and teleological. Philosophers label duty-based ethics deontological. In duty based ethics the happiness is not an end, it is not a good, it spoils the human moral. "Teleological" or result oriented are also called consequentialist because they deal in consequences. Consequentialist ethics comes from Nineteenth Century British philosophers Burke, Jeremy Bentham (1748-1832) and John Stuart Mill. Utilitarianism is guided by what's known as the "greatest happiness principle," in which what we're looking to do is to act in such a manner as to maximize the pleasure and minimize the pain calculated in the sum of all individuals. We're to try to calculate how much overall pleasure or happiness will be the consequence (and how much pain/unhappiness avoided) of an action, and that is our guide to ethics. ### Greatest Happiness Principle and Economics Modern analysis revealed that happy people gain tangible benefits in many different life domains from their positive state of mind, including larger social rewards and superior work outcomes (greater creativity, increased productivity, higher quality of work, and higher income). Nevertheless in modern main stream economics the happiness does not appear. As a proof I cite my case. With Robert U. Ayres we prepared a book on reappraisal of microeconomics (Ayres and Martinas, 2005), where the decision principle for economic actions was formulated as "avoid the avoidable losses" instead of utility/profit maximization. When I realized that it is a special formulation of the greatest happiness principle for economic acttions, I could discover that this principle is present in the scientific paradigm. The nineteenth century gave two economic theories, the Marxism and the neoclassical economics. According to Marx, the supreme end of man is an immanent and material one, and consists of happiness. This material happiness must be obtained through organized collectivism. Marx might see "the pursuit of happiness" as a fundamental right that men are born with in a communist state, but one that is unobtainable by the working class in a capitalist society. Also, the definition of "happiness," according to Marx, would be a social state in which all men are truly treated equal, and where no man oppresses another through restraints such as corrupt government. But it is arguable that Marx was implicitly working on the assumption that society ought to be organized to optimize the happiness of the greatest number of people (Page, 2008, p. 772.). On the other hand the basic concept of neoclassical economics, the utility is based on the GHP. Bentham's added to hedonism the ethical doctrine that human conduct should be directed to maximize the happiness of the greatest number of people. Jeremy Bentham postulated the greatest happiness principle, but he reduced the problems of individual and social motivation to a single principle, the principle of utility. Bentham's elements are simple pleasures and pains. Every human act is, and should be, based on a calculation of probable pleasant and painful outcomes. Bentham defined his principle in the following fashion (Bentham, p. 76): > By the principle of utility is meant that principle which approves or disapproves of every action whatsoever, according to the tendency which it appears to have to augment or diminish the happiness of the party whose interest is in question... not only of every action of a private individual, but of every measure of government. Jevons referred to Bentham's calculus but made it much simpler to enable the mathematical instrument to be introduced. He rejected Mill's attempt to make utilitarianism a morally reasonable philosophy by introducing qualities of feelings (Sigot, 2002). Jevons redirected the focus of analysis away from collective welfare considerations toward the level of individual decisions. He did not give up moral matters, but he opened the way for the modern utility, which is already free of ethics. Jevons introduced the distinction between total utility, and he established the equimarginal principle, as the rule for choices between commodities. Jevons's vast improvements over Bentham's performance consist in the following features of his formal utility analysis: (1) his clear distinction between total utility and marginal utility, (2) his discussion of the nature of marginal utility, and (3) his establishment of the equimarginal principle, as it relates to alternative uses of the same commodity and to choices between commodities. Since that time we use the simple utility approach not because we think it is good, but because that is what we can work with. Utility maximization lead to a Newtonian-type mathematical theory of rational decisions, where rationality implies that the driving force of actions is the utility maximization, that is the desire to obtain the more money, the more wealth, the more material possessions. Governing rule for the human actions is not further the GHP, but the greed. In modern economic theory greed is a code word for purposeful behavior. Nevertheless, it is a new phenomenon. Greedy individuals were considered to be harmful to society, as their motives often appear to disregard the welfare of others. Further, greed was the synonym of avarice. So they were considered as hopeless people, who are not able to enjoy the richness of the life, they love only the money. Greed is listed as one of the Christian seven deadly sins, but desire to increase one's material wealth has become acceptable in Western culture. The greed, the desire to acquire the greatest possible wealth has been understood as indispensable for human prosperity. Nowadays many economic rationalists agree that greed is the only consistent human motivation. The acceptance and need for greed lead to the misunderstanding of the role of competition. Competition is a fundamental good in utilitarian economics. Competition is a process, which ensures the maximum efficiency of the economy. The greed implies competition, so greed produces preferable economic outcomes most times and under most conditions. The resulting inequalities are the price for the perfect economy. Neoclassical theories and oversimplified models are being used to provide policy advice at the highest levels of government, some of which is dangerously shortsighted and - we think - fundamentally perverse. We are uncomfortable with any theory that assumes existing trends are optimal - that this is, in effect, "the best of all possible worlds". We want to call attention to this fundamental problem and offer some suggestions as to viable alternative models. In summary the governing law of economic decisions is the greatest happiness principle, but in modern economic the demand for mathematical simplicity replaced it with the principle of maximal greediness. The source of the error is that the utility of the good was considered as the main (and later) the only source of happiness, so the law PGH changed to the utility maximum principle. As economic activity is not our whole activity, the PGH does not calls for utility/profit maximization, but demands only for the ability to "avoid the avoidable losses" (Ayres and Martinas, 2005). In this mathematical model the economic decisions are not defined only by the expected profit but the expected profit is a driving force. A parameter, called willingness, connects the decision and the driving force. These parmeters reflect the expectations about the future possibilities and future changes, so they depend on the ethical norms. ## Conclusions Modern economic theory historically is based on the PGH, but the simplifications changed it to the PGG (principle of greatest greediness). In an alternative (less simplified) economic theory based on the PGH the driving force of economic development is not the competition but pursuit of happiness and the cooperation. Acknowledgments The author wishes to express her gratitude to A. Grandpierre, D. Herrera, N. Medve and A. Margitay-Becht, A. Schubert for the valuable discussions. References Aristotle, Nicomachean Ethics, Translated by W. D. Ross. Ayres, Rober U, and Katalin Martinas. 2005. Reappraisal of microeconomics. Northampton: Elgar. Bentham, Jeremy. 1962. Principles of morals and legislation, ed. John Bowring 17, London, 1838-1843; Reprinted New York: Clarendon Press. Luigino Bruni, Pier Luigi Porta, eds. 2005. Economics and happiness: Framing the analysis. Oxford: Oxford University Press. Luigino Bruni, Pier Luigi Porta, eds. 2007. Handbook on economics of happiness. Elgar Edgar: Cheltenham. Caporale, Guglielmo Maria, Yannis Georgellis, Nicholas Tsitsianis, Ya Ping Yin. 2009. Income and happiness across Europe: Do reference values matter? Journal of Economic Psychology 30(1): 42-51.CrossRef Herodotus, Histories, (George Rawlinson transl.) http://classics.mit.edu/Herodotus/history.html Layard, Richard. 2005. Happiness - lessons from a new science. The Penguin Press. Lyubomirsky, Sonja, Kennon M. Sheldon, David Schkade. 2005. Pursuing happiness: The architecture of sustainable change. Review of General Psychology 9(2): 111-131.CrossRef Page, James. 2008. Peace education: Exploring ethical and philosophical foundations. Charlotte: Information Age Publishing. Sigot, Nathalie. 2002. Jevons's debt to bentham: Mathematical economy, morals and psychology. The Manchester School 70: 262-278.CrossRef Anna-Teresa Tymieniecka and Attila Grandpierre (eds.)Analecta HusserlianaThe Yearbook of Phenomenological ResearchAstronomy and Civilization in the New EnlightenmentPassions of the Skies10.1007/978-90-481-9748-4_29(C) Springer Science+Business Media B.V. 2011 # Astronomy: Brightest and Most Fascinating Shining Path for Mankind Future H. Minoo1 and S.M.T. Bathaee1 (1) K.N.T. University, Tehran, Iran H. Minoo Email: hminoo@wanadoo.fr Abstract The correlations and interactions between astronomy and civilization give rise to many important and fundamental questions.1 The present contribution is mainly concerned with the following two questions: Q1: Why is astronomy so important for the mankind? Q2: What are the most significant and genuine contributions of astronomy to civilization, and how can it improve the perspectives of mankind? Based on the effect of "Accelerating Phenomenon" introduced and explained in section "Accelerating Phenomenon", a threshold level of civilization Cth is introduced and defined in section "Threshold Level of Civilization (Cth)". Cth is the minimum level of civilization required to reach happy and peaceful life for mankind on earth, without wars and armies. Cth give birth to some other very interesting results, presented also in section "Threshold Level of Civilization (Cth)". In order to reach Cth it is fundamentally very important that mankind be committed entirely to two basic principles P1 and P2 presented in section "Basic Principles 'P1' and 'P2'". The concept of civilization is reexamined more closely in section "Worldwide Expression for C(t)". An expression is derived for the level of civilization C(t) as a function of time (t). It is anticipated that by taking into account only the effect of "Accelerating Phenomenon", leads to tth1 = 2090 year, where tth represents the time when the level of Cth is reached by mankind global civilization. While an active and efficient contribution from astronomy and astronomers in addition to the effect of "Accelerating Phenomenon" could bring down considerably tth to much lower values such as tth2 = 2050 year (see section "Worldwide Expression for C(t)"). This decrease of tth could be a brilliant contribution of astronomy concerning the two questions raised at the beginning of this section, and indicates why astronomy is the brightest and most fascinating shining path for mankind future. ## Accelerating Phenomenon The frontiers and boundaries of mankind knowledge are expanding very rapidly and the rate of increase of knowledge has a positive acceleration. 1. In astronomy this acceleration is particularly important and impressive (a) Before Galileo: The mankind quest for understanding the universe started from the beginning of our civilization, initially by naked-eye astronomy and lasted more than 4000 years. (b) Galileo era: Then with Galileo came 400 years of astronomy with evermore powerful telescopes. (c) Space Astronomy: During the last 40 years, the rate of data received and collected by space astronomy is increased considerably with many space missions exceeding the Terabyte information flow. 2. This "Acceleration Phenomenon" exists in any domain and any branch of mankind activities such as basic and applied sciences, engineering, and technologies and in particular in social sciences. ## Threshold Level of Civilization (Cth) Resulting from "Acceleration Phenomenon" the level of our knowledge, our maturity and our civilization C(t) increases as a function of time (t) very rapidly with a positive acceleration and in near future (time tth) will reach the threshold level (Cth). 1. (Cth) is defined as the minimum level of civilization required to reach happy and peaceful life for mankind on earth, without wars and armies.2 The immediate consequence of this definition of Cth is that for t ≥ tth following very interesting results can be anticipated: 2. Man-powers, funds, resources and other possibilities diverted from armed forces and military purposes and channeled to astronomy activities: research, developments, equipments, space missions, data gathering, etc. 3. Blooming of astronomy. 4. Increasing new demands for additional man-power in order to process, to study and to analyze evermore flow of information and data received and collected from spacecrafts and satellites. Consequently, it will result into an elegant and satisfactory solution to unemployment problem of mankind. 5. It is anticipated that by taking into account only the effect of "Accelerating Phenomenon" leads to Δt ≈ 80 years, where (1) And to is the present time. Moreover, the inclusion and addition of an active and efficient contribution from astronomy and astronomers could bring Δ t to much lower values such as Δ t ≈40 years. ## Basic Principles "P1" and "P2" In order to reach the threshold level of civilization (Cth) it is fundamentally very important that mankind be committed entirely to two following basic principles: > "P1": Truth, honesty and in particular intellectual honesty, reliability, loyalty, credibility, trustworthiness, sincerity, fairness, justice, genuineness, veracity, integrity, etc. > > "P2": Altruism, selflessness, unselfish concern for welfare of others, have the belief and the doctrine that the general welfare of society3 is the proper goal of an individual's actions, respect and love for mankind, etc. These principles are most important and deeply fundamental for the cohesion, union, stability, welfare and happiness of the society.3 The respect of the "P1" and "P2" creates an attractive force between elements of a society and has for effect to bring closer these elements. The non-respect of "P1" and "P2" has opposite effect and engender a repulsive force and has for effect to disperse and to disintegrate the elements of a society. From the beginning of mankind civilization until now, at the root of all armed conflicts and wars lied the non-respect of these principles "P1" and "P2" either by one side or by both opposing sides. ## Worldwide Expression For C(t) The level of worldwide civilization C(t) as a function of time (t) is defined and expressed by the following relation: (2) Where, CM is the upper limit of C(t) attainable by mankind at any time, n(t) is the total number of persons (worldwide) deeply committed to the two principles "P1" and "P2" at a given time (t), and N(t) is the entire worldwide population at a given time (t). (3) = total mankind knowledge + total social and cultural developments [social organization of a higher order, marked by the development and use of a written language + advances in arts, etc.] at a given time (t). k M is the upper limit of k(t) attainable by mankind at any time. α and β are two parameters with: (4) At the present time (to): (5) Thus, (6) And, (7) Where, C(10) is the level of mankind civilization in year 2010. Figure 1 shows the variations of n(t)/N(t) as a function of time (t) following two proposed models: Figure 1. Two proposed models (I) and (II) for variations of n(t)/N(t) Model (I) takes into account only the effect of "Acceleration Phenomenon", while model (II) considers the contributions from astronomy and astronomers in addition to the effect of "Acceleration Phenomenon". The variations of C(t)/C(10) according to the proposed models (I) and (II), and corresponding threshold times tth1 and tth2 are shown in Figure 2. It is postulated that: (8) Figure 2. Variations of C(t)/C(10) according to two proposed models (I) and (II), and corresponding threshold times t(th). tth2=2050 in case of model (II), tth2=2090 in case of model (I) Following to this postulate, it is found that: (9) ## Concerning Questions Q1 and Q2 Following this study and analysis, the prime duty of astronomy and astronomers, their role for the present world picture, their main and essential contribution for the time interval Δt = tth- to is: 1. To make every genuine effort in order to make sure that any healthy person on earth (from birth, childhood, kindergarten, elementary school, high school, university, active and professional period, etc until the end of life) is well educated, strongly armed, deeply adhered and committed to these two basic principles "P1" and "P2". 2. In particular, special care and attention must be devoted to guarantee that decision-makers4 in each society3 and in any international organization (such as United Europe Community, United Nations Organizations, UNESCO, UNICEF, etc.) are entirely and completely devoted and committed to these two basic principles "P1" and "P2". 3. Before the election of any decision-maker4 personality, extreme care has to be employed in order to make sure that: (a) In the platform of the election these two basic principles "P1" and "P2" are included and have priority over other items. (b) The best qualified candidate (deeply committed and strongly believer of these two basic principles) is elected. 4. As it is stated in the synopsis of this conference1: to "invest work securing the long-timescale impact of the conference on the wide public with the help of local and global press, videos, television and radio program". ## Conclusion In connection to question Q1, preceding section (section "Concerning Questions Q1 and Q2") gives brief summary of the most significant and genuine contributions of astronomy to civilization, and how it can improve the perspective of mankind by decreasing the duration Δt (as can be seen in section "Worldwide Expression for C(t)" and Figures 1 and 2). These Contributions lead brilliantly to the brightest and most fascinating shining path for mankind future: Astronomy. That is why astronomy is so important for mankind (e.g. question Q1). ## Notes 1 Synopsis, Astronomy and Civilization, Budapest, Hungary, August 10-13, 2009. 2 With this definition of Cth, civilization is considered as being a state or level of maturity opposite to (and higher than) a state of barbarism (or level of Cth is higher than primitive or savage level). Consequently, the level of civilization of a society [3] having an army and armed forces and engaged in armed conflicts and cold wars is lower than Cth. 3 Society can be replaced according to need by: a group, a village, a town, a city, a country, or the entire global population. 4 Decision-makers: personalities who have the responsibility to make or to take decisions. Anna-Teresa Tymieniecka and Attila Grandpierre (eds.)Analecta HusserlianaThe Yearbook of Phenomenological ResearchAstronomy and Civilization in the New EnlightenmentPassions of the Skies10.1007/978-90-481-9748-4_30(C) Springer Science+Business Media B.V. 2011 # A Theistic Model of Physical Temporality Anthony P. Stone1 (1) Theological Research and Communication Institute, New Delhi, India Anthony P. Stone Email: stone-catend@ntlworld.com Abstract Experience suggests that any form of time is an advancing sequence of states of affairs, which is ordered but not necessarily measured. The observed temporality of the universe is attributed to the divine life. Time in God is taken to be unmeasured. The model postulates a program running in God's time and represented by a black box, which produces a temporal universe chosen from the tree of actualizable worlds. Physical time is then a totally ordered independent variable for physical processes, with its measures derived from these processes. As usual, physical theories are regarded as more particular models of the resulting temporal universe. The theistic model is applied to relativity, quantum mechanics, philosophy, and theology. To avoid speculation, God's time is further described by intervals of unknown internal structure. With God's time in the background, there is a conceptual integration of God and the universe. ## Introduction Astronomical observations of a basic sort helped ancient people to develop a sense of the advance of time. Thus the succession of days is finely expressed by an ancient poet in one of the earliest hymns from India. He addresses Dawn, and the sound of the original has a repetitive rhythm suitable to its theme: > īyuṣīṇāmupamā śaśvatīnām vibhātīnām prathamoṣā vyaśvait. > > After the uncountable dawns that have passed away, > > the first bright and shining dawn burst into sight. > > Rig Veda, 1.113.15b, author's translation Later on, the number of days from a chosen epoch was the standard way of calculating mean planetary positions in the Indian astronomy of the first millennium A.D. (Somayaji, 1971, p. 73). Many recent writers have thought of God as having some sort of temporality, and I follow a number of theologians in taking physical time to depend on God. The proposed model of God's time is as follows. ## God's Time God's time has a present of varying content, and this content forms a totally ordered sequence of states of affairs called junctures. God's present juncture is the last of the sequence. The sequence of junctures is therefore growing, and each new juncture is "after" all other junctures. Equally, existing junctures are all "before" a new juncture. God's past consists of the junctures before the present juncture. However, God's future does not exist, but will be whatever junctures occur after the present. We have no idea whether God's junctures are continuous, merely dense, discrete, or any combination of these, and whether their cardinality is the same or different in different intervals. Speculation seems to be unwarranted.1 No metric is ascribed to God's junctures.2 This means it is not the case that God's time "flows equably," as Newton imagined absolute time to do.3 The nature of God's time is discussed further in the section applications. ## Physical Temporality There is only one time, God's time, and all other forms and aspects of time derive from it. In the theistic model, God experiences a totally ordered sequence of junctures, and this is made the basis for a totally ordered sequence of junctures in the physical world. We then have a basis for postulating that physical junctures are the changing content of an objective universal physical present. How this agrees with relativity is explained in the next section. In order to allow for various futures, I work with the abstract tree of possible worlds branching at the present (Figure 1). Each possible world represents a total course of events.4 At the present juncture there is the possibility that any branch may become the future. Branches not followed are removed. The class of possible worlds reduces to the class of actualizable worlds if we accept that some possible worlds would never be actualized by God. The advance of God's time is transferred to the physical world by a "program for becoming." Unwarranted speculation will be avoided by representing the program for becoming as a black box (Figure 2). The black box represents the "causal joint" between God and the world, which is a difficult puzzle (Wildman, 2004, pp. 31-75). Figure 1. Tree of possible worlds Figure 2. Simplified diagram of the program for becoming The input into the black box is the growing sequence of God's junctures, and such things as the tree of actualizable worlds, the relevant natural regularities, along with further input from created agents and from God. The output is the growing sequence of physical junctures up to the juncture in the physical present. This provides a description of the advance of physical time independent of and prior to any scientific theory. This is what I mean by physical temporality. There is no expectation of any one-to-one correspondence between God's junctures and physical junctures. Physical time is simply a universal sequence of happening in the physical world, without any metric. Its advance is dependent on God's time, so physical time, too, does not "flow equably." Without an "equable flow" of time, why do we find continual happening in our world? It is because the sequence of physical junctures acts as an independent variable for physical processes. Hence observers who are themselves in this world see continual change. A partial analogy is a television drama with commercial breaks, thought of as running in God's time. The sequence of frames for the drama acts as an independent variable for the story, and however long the commercial break, there is no break in the story. The TV drama may be played at any speed or at a varying speed, and the processes in the story, including clocks, all proceed at the proper rate. Similarly, as an independent variable, physical time comes with no rate of change. Consequently, the teasing question "How fast does time flow?" has no meaning. The theistic model depicts a dynamic observable world, not a scientific theory of it. The history of science shows how time is measured and how it is used in theories. ## Applications ### Relativity Junctures and simultaneity. The theory of relativity can be accommodated to the theistic model by identifying physical junctures with a suitable family of spacelike hypersurfaces (Stone, 1997, pp. 150-163). Junctures are then independent of the coordinate system. There is no breach of causality because no signal can travel between events in a spacelike hypersurface. One harmless result is that events in the present have various time coordinates according to our clocks. The relativity of simultaneity is a perfectly good part of the special theory of relativity, but what it proves is merely that the present is not specified locally by simultaneity. This fact has no bearing on the existence or non-existence of an objective present. I therefore claim that in every space-time any suitable family of spacelike hypersurfaces is a genuine candidate for the family of theoretical junctures. The exact location of any juncture is contingent and is as yet unknown. Imaginary time: instantons. "Imaginary time" is a catch-phrase referring to a neat mathematical move, by which a real space-time is attached to a real 4-dimensional Euclidean manifold (the instanton). The instanton is not earlier than space-time, and an article from Stephen Hawking's university department says: > Universe creation is not something that takes place inside some bigger spacetime arena - the instanton describes the spontaneous appearance of a universe from literally nothing.5 There may not be a bigger space-time arena but the theistic model provides the transcendental arena of God's time, in which an instanton may be the single juncture of creation. ### Quantum Mechanics Richard Feynman's time reversal. The theistic model removes the strangeness from Feynman's time reversal. In Feynman's interpretation of a positron (Feynman, 1961, p. 68, 1949, pp. 749-759), the negative energy states represent the states of electrons moving backwards in coordinate time. The thought that time is reversed along the positron world line has caused some dismay (Reichenbach, 1956, p. 268; Whitrow, 1980, pp. 332-335) - unnecessarily, in my opinion. In space-time, nothing actually moves. If a positron is mathematically equivalent to a time reversed negative energy electron, that is a bonus. On the theistic model, the present juncture changes in the forward direction of the relativistic time coordinate and the positron moves forward in time, as observed in the laboratory frame. ### Philosophy Semantics. The availability of two forms of time makes for some important semantic distinctions. It is proper to say "before the foundation of the world,"6 referring to God's time, but saying that the world was created "not in time, but with time" refers to physical time.7 John Donne, and others, have used the phrase "when time shall be no more," which must also refer to physical time (Donne, 1624). A-theory of time. The theistic model developed here provides an A-theory of physical time, derived from an A-theory of God's time. It explains why time advances at all: its dynamic is in God's life. This also gives a reason for the arrow of time. Tense logic. Arthur Prior, the pioneer of tense logic, was concerned about how its essential concepts of past, present and future could be adequately assimilated to relativity. Prior was working in terms of the relation "earlier/later," and taking account of the relativity of simultaneity. For one particular approach he found that the special and general theories of relativity would need two different tense logics, which is clumsy.8 It is simpler to use the theistic model with tense given independently of the frame of reference. ### Theology God's beginningless past and endless future. God has passed through a beginningless past, but will never completely pass through the endless future. The way in which God's past and future are infinite may be described in a general way by looking at abstract partitions of the sequence of junctures before and after creation. If x, y are particular junctures with x before y, the set of junctures after x and up to y, inclusive, is a "half open" interval, and will be called a kairon. To describe God's time after creation, let a be the last juncture before creation began (or if there is no such juncture, the first juncture of creation). A half-open set of junctures records God's time from creation up to God's present juncture p. This set may be partitioned into kairons in many ways, and these partitions exist in the abstract without any human input. As p changes, a continuing description of God's time after creation is given by a sequence of partitions which only differ in their last interval, which is growing into a fixed interval followed by a new last interval. The resulting kairons will be indexed by ordinal numbers, increasing in the future direction There are many such continuing descriptions. A few stages involving an ordinal κ are shown in Figure 3. Without a metric there is no criterion for a small interval, but finer and finer partitions exist. Figure 3. Growth of a continuing description of God's time There is no largest ordinal, but an endless sequence of infinite ordinals. The symbol Ω is used for the absolute infinite, the proper class of all ordinals. Ω itself is not an ordinal, but is greater than any ordinal. This is analogous to the inequality x < ∞ for all real numbers x, where ∞ itself is not a number. Now, whatever continuing description is used for God's time after creation, with its increasing infinite number of kairons, it is clear that the class of kairons reaching into God's never ending future is the absolute infinite Ω.9 God's time before creation is assumed to be beginningless. Up to any juncture r before creation, there exist partitions of God's time into totally ordered sequences of kairons. These will be indexed by ordinals increasing in the past direction and conveniently denoted by 1-, 2-,... . Because God has passed through this beginningless sequence, the class of these ordinals is some infinite ordinal ζ (say), where From r up to creation at a, the treatment is as for God's time after creation, giving sequences of kairons indexed by ordinals 0, 1,..., α (say). The whole of God's time up to God's present juncture p which closes kairon β (say), has the structure shown in Figure 4. Figure 4. General view of a partition of God's time With different partitions into kairons, the infinite ordinals ζ, α, β may take different values; but we do have the inequality for ζ, and also: On the theistic model, God has a past, present, and future, but no measure of time. The continuing descriptions of God's time as a sequence of kairons, where this sequence may be as finely partitioned as we like, may seem disappointingly vague. However, it provides a way of talking about God's time, and gives us the three inequalities found above. Another thing is that in any continuing description of God's time before creation, each kairon is identified by a unique ordinal, and this applies even after an infinite number of beginningless kairons. ## Conclusions Starting with God's time provides an opportunity for fresh thinking on time as we habitually view it. With minimal assumptions, God's time provides the basis for an advancing, universal objective present in the physical world, even though the internal structure of this physical time is unknown. Clocks provide measures of physical temporality, with the usual observational errors. Scientific theories use theoretical time variables to model physical temporality. The application to relativity leaves its mathematics unchanged. Initially puzzling concepts such as imaginary time and Feynman's time reversal are no more than neat mathematical manipulations of theoretical time. The theistic model gives an explanation of how God can have completed a beginningless past, but also have an endless future. It is independent of many philosophical and theological positions. The theistic model also reminds us that our comprehension of the physical world is severely restricted, but with God's time in the background, there is conceptual integration of God and the universe.10 ## Notes 1 McGrath (2002, pp. 268-279), warns against unwarranted speculation in theology. 2 I take the essence of time to be sequence, not measure, contra Zinkernagel (2008, pp. 237-258), http://dx.doi.org/10.1080/02698590802567282 (accessed September 28, 2009). 3 Newton (1934), quoted in Danto and Morgenbesser (1967, p. 322). 4 A possible world has sometimes been defined differently as a total state of affairs at an instant. 5 Cambridge Relativity: Quantum Gravity. "Quantum Cosmology", http://www.damtp.cam.ac.uk/user/gr/public/qg_qc.html (accessed September 28, 2009). 6 Ephesians 1:4. 7 Augustine, The City of God, 11.6. 8 Prior (1958, pp. 105-120); also published in Fraser et al. (1972, p. 320), Prior (1967, pp. 203-205). 9 For the absolute infinite see Rucker (1995). God's attributes have been discussed in terms of the absolute infinite by, e.g., Steinhart (2009, pp. 261-274), Pennings (1993, pp.159-180) and Russell (1997, pp. 137-165). 10 See Stone (2009) for further references and applications using less sophisticated forms of the model. References Danto, Arthur and Sidney Morgenbesser. 1967. Philosophy of science. Cleveland: World Publishing Company, Meridian Books, 7th printing, 322. Donne, John. 1624. Meditation XIV, http://www.online-literature.com/donne/406 (accessed July 29, 2009). Feynman, R.P. 1961. Quantum electrodynamics. New York: W. A. Benjamin, 68. Feynman, R.P. 1949. The theory of positrons. Physical Review 76(6): 749-759.CrossRef Fraser, J.T., F.C. Haber, and G.H. Muller, eds. 1972. The study of time. Proceedings of the first conference of the International Society for the Study of Time, Oberwolfach (Black Forest) - West Germany. Berlin: Springer, 320. McGrath, A.E. 2002. A scientific theology, vol. 2. Edinburgh: T & T Clark, 268-279. Newton, Isaac. 1934. Scholium to the definitions in Philosophiae Naturalis Principia Mathematica, Bk. 1 (1689); trans. Andrew Motte (1729), rev. Florian Cajori. Berkeley: University of California Press. Pennings, T.J. 1993. Infinity and the absolute: insights into our world, our faith, and ourselves. Christian Scholars Review 23(2): 159-180. Prior, A.N. 1958. The syntax of time distinctions. Franciscan Studies 18: 105-120.CrossRef Prior, A.N. 1967. Past, present and future. Oxford: Clarendon Press, 203-205.CrossRef Reichenbach, H. 1956. The direction of time. Berkeley: University of California, 268. Rucker, Rudy. 1995. Infinity and the mind. Boston: Birkauser, 1982; repr. Princeton: Princeton UP. Russell, R.J. 1997. The God who infinitely transcends infinity. In How large is God? ed. John Marks Templeton, 137-165. Philadelphia: Templeton Foundation Press. Somayaji, D.A. 1971. A critical study of the ancient Hindu astronomy in the light and language of the modern. Dharwar: Karnatak University, 73. Steinhart, Eric C. 2009. A mathematical model of divine infinity. Theology and Science 7(3): 261-274.CrossRef Stone, A.P. 1997. A program model of becoming. Physics Essays 10(1): 150-163.CrossRef Stone, A.P. 2009. "Time," http://homepage.ntlworld.com/stone-catend/time.htm (accessed 22 September 2009). Whitrow, G.J. 1980. The natural philosophy of time, 2nd ed. Oxford: Clarendon Press, 332-335. Wildman, Wesley J. 2004. The divine action project, 1988-2003. Theology and Science 2(1): 31-75.CrossRef Zinkernagel, Henrik. 2008. Did time have a beginning? International Studies in the Philosophy of Science 22(3): 237-258.CrossRef Anna-Teresa Tymieniecka and Attila Grandpierre (eds.)Analecta HusserlianaThe Yearbook of Phenomenological ResearchAstronomy and Civilization in the New EnlightenmentPassions of the Skies10.1007/978-90-481-9748-4_31(C) Springer Science+Business Media B.V. 2011 # Humanity En Route to the Glorious Unity of Our Universe Ion Soteropoulos1 (1) Apeiron Centre, Paris, France Ion Soteropoulos Email: ion.2@orange.fr Abstract With the James Webb Space Telescope (JWST) scheduled for launch in 2014, humanity will be pushing the frontiers of the visible further outward into space up to 14.9997 billion light years away and further backward in time, up to 14.9997 billion years ago. The JWST mission in association with an intuitive theory about the complex nature of the physical universe will help us to answer the following fundamental questions: Does the universe have a limit in the past, which we call origin, or is it unlimited? If the universe has an origin, then what is its meaning? Besides its chronological and biological meanings does the concept origin have a deeper meaning revealing the founding principle of the physical universe? Can the understanding of our universe and its origin help us to resolve the evils of our society such as inequality and violence? Because human life is indissociably bound up with its whole surroundings, the way that we will answer the above fundamental questions will determine the way that we will organize human society in the future. The things in the one world-order are not separated one from the other nor cut off with an axe, neither the hot from the cold nor the cold from the hot. Anaxagoras ## Different Meanings of the Cosmic Point-Fire With the James Webb Space Telescope (JWST) scheduled for launch in 2014, humanity will be pushing the frontiers of the visible further outward into space up to 14.9997 billion light years away and further backward in time, up to 14.9997 billion years ago. Indeed, the JWST mission will collect light in the infrared range emitted 14.9997 billion years ago and only 300,000 years after the origin of the physical universe, when it was a hot hydrogen plasma called the early radiative phase of the universe. By origin (popularly called the big bang), we mean the time zero t0 in the past when the physical universe (spacetime) was infinitely curved into a spherical point-fire of zero radius r0, rotating at the finite speed of light while having at the same time infinite temperature infinite density and infinite energy. Cosmologists call it a cosmic singularity; mathematicians call it a limiting point determining the infinite totality of points on the straight line; and metaphysicians call it soul-fire or logos - fire (Heraclitus), infinite mind (Anaxagoras), demiurge originating the world (Plato), first mover or first cause (first origin) imparting motion to the world (Aristotle), energizing spirit (Stoicism), real thing in itself (ens realissimum) constituting the infinite totality of its determinations or the absolute beginning (or end) in the series of its determinations (Kant). We can situate this cosmic singularity at time zero t0 at the limiting circumference b of a physical universe centered upon us at time present tnow at a and circumscribing a Euclidean square representing flat spacetime (Figure 1). Space measured in light years is shown horizontally whereas time measured in years is shown vertically. The square's diagonal axes ba are lines of light where light travels forward one light year in one year from b to a at the finite speed c, which we take as 1: c = 1. Figure 1. The figure shows the universe's different phases or moments t0 and tnow to exist successively in time. At the beginning t0, the universe was an infinitely curved point-fire (cosmic singularity) of radius r0 represented by the limiting circle b. At present tnow, the universe is a cold flat plane of radius rnow represented by the square within the limiting circleb. Because it is assumed that light travels foreward from the ultimate past t0 to the present tnow at finite speed c = 1, there is a time difference between the present tnow and the ultimate past t0 that defines the universe's finite age tu The time distance or difference between us at the center a at time present tnow and the cosmic singularity at the limiting circumference b of the universe at time zero t0 we call the universe's finite age tu: which is roughly 15 billion years. The space distance or difference between us at the center a where the present radius of the universe is rnow, and the cosmic singularity at the limiting circumference b of the universe where its radius in the past was zero r0, we call the universe's finite radius ru: which is roughly15 billion light years. The universe's finite age tu and finite radius ru are both measured along the diagonal axes ba. The theory asserting that our present universe at tnow has evolved from a cosmic singularity at time zero t0 in conformity with the temporal order we call the big bang evolutionary theory (Figure 1). ## Basic Assumption of the Big Bang Cosmology Big Bang theory assumes that inequality and time: (where time zero t0 in the past precedes time present tnow) are essential (intrinsic) properties or founding principles of the physical universe. At time zero t0 the physical universe (spacetime) was infinitely curved into a spherical point- fire, a cosmic singularity of zero radius r0 and of infinite curvature, rotating at the finite speed of light. At this first instant of infinite curvature and zero magnitude, all things such as for instance the finite and the infinite, now and then (present /not-present), matter and light, were maximally united having a zero spacetime distance between them. As time grew from time zero t0 to time present tnow under the univocal action of a cosmic repulsive force (stretching force generating a distance or a straight line), the radius zero r0 of the cosmic singularity expanded proportionally to increasing time up to the present radius rnow where it has become the present cold material universe of finite age tu and finite radius ru. Because the universe's radius is the reciprocal of its curvature, when the curvature of the universe decreases, its radius increases. If k∞(t0) designates the universe's infinite curvature at time zero and k0(tnow) designates the universe's zero curvature at time present, we then have the temporal order: where the cosmic singularity of infinite curvature at time zero precedes our present Euclidean universe of zero curvature (Figure 2). Figure 2. The figure shows that the universe's curvature k varies in function of time. In the ultimate past t0 the universe's curvature was infinite; at the present tnow, the universe's curvature is zero. We may then define linear time as the loss of unifying curvature Because the infinite curvature of the universe in the past at time zero t0 ensured the maximum energy, unity and contact of all things, whereas the zero curvature of the universe at time present tnow entails the minimum energy, unity and contact of all things, we can define asymmetric time as the loss of curvature, energy, unity and contact among things in our present Euclidean material universe. ## Human Progression Looks Backward in Time If the temporal order t0 < tnow is true, then moving forward from the ultimate past t0 to the present tnow is equivalent to moving from a universe, which in the ultimate past was a spherical point-fire of zero radius r0 unifying all things, to the present flat material universe containing water and whose radius rnow of positive magnitude separates all things. It follows then, that looking backward from the present tnow to the ultimate past t0 is equivalent to the reverse process of discovering the original point-fire phase of the universe where the universe, because of its zero magnitude, infinite curvature and maximum rotation at the finite speed of light, was the first mover, origin, and unifier of all things endowed with infinite power. Thus, looking backward in time is equal to searching not only for the first origin of our universe (of all things) but also more importantly, for the lost unity of our present world, a unity that is no longer existent in the present time tnow, having once existed at time zero t0 when our universe was a point- fire - a unifying cosmic singularity. The origin (arche) therefore of our physical universe has both a chronological-biological meaning, signifying the beginning and birth of the universe, and an ontological meaning signifying the unifying common principle of our universe as being. Indeed, at time zero when the universe's radius was zero uniting all things into a point- fire, this point-fire was the complex unity of all things, which we call the synthetic equivalence principle governing the universe's original fire phase. ## Time as an Accidental Principle of the Physical Universe The basic assumption of big bang cosmology, that inequality and time are essential (intrinsic) properties or founding principles of the physical universe, is true if we see the universe from the perspective of our finite brain (or particular senses) at rest and at time present tnow. According to this finite perspective the universe has the finite age tu and is time-conditioned because light travels empty space at the finite speed c = 1. In fact, the time difference (time delay) between the reception of light at time present tnow and its emission at time zero t0 defines the universe's finite age tu. We can call the universe of finite age generated from a chronological big bang sensible (observable) universe. However, from the perspective of the very first origin of the universe at time zero t0, which is at the same time the perspective of our infinite mind (or universal reason) rotating at the maximum speed of light, inequality and time are accidental (extrinsic) properties or principles of the physical universe. These accidental principles express the successive and conflicting way that we perceive the manifold of the physical universe due to our finite perception of light when we are at the state of rest and are in no way the real and true principles of the physical universe. Thus, in this sense they are refutable. The negation of the inequality and temporal order (t0 < tnow)' leads us to the principle of equivalence: and to zero time difference: this zero time delay between the reception of light at time present tnow and its emission at time zero t0 defines in turn the physical universe's zero age (Figure 3). Figure 3. In this figure the different phases or moments t0 and tnow of the universe exist simultaneously. Because it is assumed that finite light c = 1 travels both at infinite and zero speeds, there is zero time difference between the present tnow and the ultimate past t0. The unifying point-fire at t0 is the outer coexisting part of the inner Euclidean universe (square) assigning unity to its infinite multiplicity. All is one, and one is all in an ageless universe ## The Complex Form of the Physical Universe Now if from the infinite perspective equality and zero time are essential (intrinsic) properties or founding principles of the physical universe, then the universe is ageless and perfectly uniform or unified in spacetime. That means that the finite speed of light is simultaneously infinite, immediately connecting (with zero time delay) the young hot phase of the universe at t0 with the old cold phase of the universe at tnow. A finite light, which is simultaneously infinite, is a complex light whose finite speed is resolved into infinite and zero speeds or, whose finite speed is the product of infinite and zero magnitudes: This means that the real physical universe is both old and young, both now and then, and therefore the same and balanced in all regions and directions of space and time. It equally means that the physical universe is both a hot limiting point of infinite curvature and a cold unlimited Euclidean plane of zero curvature verifying the following equivalence: Indeed, seen from the inside, i.e. from the center a at time present tnow, the physical universe stretches infinitely into a cold Euclidean plane (represented by the square) composed of isolated parts deprived of unity, constancy and limit. Seen from the outside, i.e. from the limiting circumference b at time zero t0 the same physical universe infinitely contracts into a hot spherical limiting point (represented by the circle) that circumscribes the Euclidean plane in order to assign unity, constancy and limit. On the whole, the physical universe is with respect to extension, and under the complex action of contrary (equal and opposite) stretching and contracting forces, both limited and unlimited and neither limited nor unlimited without absurdity (see the Anaximandrian and Pythagorian theories of being). The physical universe is therefore a balanced, complex and indeterminate body governed by the finite-infinite equivalence principle according to which every limiting point is simultaneously an unlimited plane and every unlimited plane is simultaneously a limiting point. It is through this limiting point of infinite curvature and zero magnitude that any region of the Euclidean plane immediately communicates in zero time and hence at infinite speed with any other region regardless of their distance. In this way, distant isolated regions of Euclidean spacetime have the same properties and laws despite their distance and isolation. These are eternal universal laws of infinite Nature immediately connecting the world's infinite sequence of distant and isolated parts into a community of coexisting and continuously communicating wholes. If the physical universe continues to exist despite the increasing distance among its infinite multiplicity of parts, it is because it is a perfectly uniform universe, which is geometrically and ontologically united everywhere at all times; both at time zero t0 and at time present tnow through its limiting point- fire. ## Infinite Perspective and Infrared Observations Grounded in the above infinite perspective according to which the real physical universe is a perfectly uniform universe governed by the synthetic equivalence principle, we can conclude or predict the following: The infrared light emitted 14.9997 years ago and collected-analysed by JWST will show us an ultra distant and early universe that looks the same as our present universe at rest. For example, it will show us a young galaxy called Silky Way galaxy of only 300,000 years old hosting heavy elements similar to our old Milky Way such as iron, as well as water molecules and living cells. On the other hand, because this ultra distant and young Silky Way galaxy is flying away from us at 0.9999c (299.970 km/s) and its γ factor is 70.71, its red shifted light will show a flying galaxy whose mass, time interval, and wavelength, are roughly 102 times bigger than those of our Milky Way galaxy, its volume is 102 times smaller than that of our Milky way and therefore its density is roughly 104 times greater than that of our Milky Way at rest. In other words the flying Silky Way galaxy is heavier, smaller, denser, hotter, younger, vibrates more slowly and its time runs slower. Now an observer stationed in this ultra distant Silky Way galaxy would observe his galaxy as being an old present universe at rest hosting heavy elements similar to our Milky Way galaxy such as iron as well as water molecules and living cells; on the other hand he would observe our Milky way galaxy as flying away at 0,9999c, as well as being roughly 102 times heavier, smaller, hotter, younger and therefore 104 times denser than his proper Silky Way galaxy at rest. Ultimately, in a perfectly uniform universe governed by the equivalence principle, our Milky Way galaxy and the ultra distant Silky Way galaxy are equivalent complex indeterminate wholes, such that each galaxy is both (and neither) now and then; is both (and neither) at rest and flying away at 0.9999c without absurdity. The above reflections lead us to the conclusion that such complex indeterminate wholes do not need Euclidean time, external causality, and evolution theory to chronologically explain, originate, sustain or organize their being. This is so because they are eternally present and coexist in a continuous self-origination that reflects the continuous self-origination of our timeless physical universe. ## Seeking Our First Origin is Seeking the End of Time, Inequality and Injustice Because at the first origin of the physical universe time disappears, leaving place to eternity as permanent life and motion, our quest to comprehend our universe and its first origin is fundamentally a quest to search for the end of violent inequality, injustice and time and to purify our universe from its accidental chronological-biological origination in order to retain uniquely its real ontological self-origination. The real physical universe is continuously self-originated because the point-fire is not external and transcendent to the physical universe (preceding or succeeding the physical universe in an infinite series of conflagrations) but is simultaneous and immanent to the physical universe. In fact, as we have already argued the physical universe is both an infinitely extended cold material square when seen from the inner center a, and an extensionless point-fire when seen from the outer limiting circumference b circumscribing the unlimited square and holding it together. Thus, the physical universe does not have a chronological origin that precedes (or succeeds) its Euclidean materiality, but has instead an immanent ontological and geometric origin -a unifying limiting point-fire or equivalence principle, which at all times self-originates its infinite multiplicity, comprises and delimits its unlimited materiality, stabilizes its disruptive variation and unifies its chaotically scattered and isolated parts. Regarded as the ultimate truth and supreme good that ensures the uniformity, balance, justice and permanence of the indefinitely varying Euclidean universe, the equivalence principle at time zero t0 is our origin and final destination. It is the dream point of serenity and satisfaction for our incomplete, violently disunited and unjust society in progress toward its unifying principle. Anna-Teresa Tymieniecka and Attila Grandpierre (eds.)Analecta HusserlianaThe Yearbook of Phenomenological ResearchAstronomy and Civilization in the New EnlightenmentPassions of the Skies10.1007/978-90-481-9748-4(C) Springer Netherlands 2011 Subject Index Name Index Abiogenesis Action principle Agency Altruism Animating force Animation Animism Anthropic principle Anthropocentrism Anthropology Anthropomorphism Archaeoastronmy Aristotelian physics Art Astrobiology Astronomy Astrophysics Attractor Axioms Name Index Bacteria Bauer-principle Big Bang Biofriendly Biology Biosphere Bottom Brain Bronze Age Name Index Carbon Causal closure Causal reductionism Cell Chance Chaos Chinese Chondrites Civilization Classical mechanics Cognitive capabilities Cognitive science Coincidence Comet Complementarity Complexity Conceptual Consciousness Contingency Copernican revolution Cosmism Cosmology Cosmos alive Creativity Cultural astronomy Culture Name Index Delayed choice experiment Determinism Disenchantment Divine DNA Dualism Name Index Economics Emergence Endpoint Entropy Enzyme Epistemology Equinoxes Ethical system Ethics Evolution Evolution cosmic Existence Exoplanets Explanation Extremophiles Name Index Fine-tuning First principles Freedom Fundamental reality Future Name Index Galaxy Gene transfer Geosciences God Greatest happiness principle Name Index Happiness Harmony Heliocentric Hierarchy Hindu History Holism Horizon Human identitity Husserl Hydrogen Name Index Idealistic Immortality Indeterminism Infinite regress Information Initial conditions Instinct Integration Integrative understanding Intellect Intelligent Interstellar cloud Interstellar gas Name Index Language Laws of nature Laws of physics Least action principle Life Life origin of Life prerequisites Life in the Universe Linear perspective Logic Logos Name Index Machine-view Magical Man and world Mars Martian meteorites Materialism Mathematics Meaning Mechanistic Megalith Memory Mental phenomena Metaphysics Meteorits Methodology Metric Microbes Microorganisms Middle Age Milky Way Mind Mind-body problem Multicellular Multiverse Music Musical harmony Musical theory Mystery Mythology Name Index Nanobacteria Naturalism Natural science Nature Neolithic Neuman's Process New Enlightement Newton Non-locality Nonreductive physicalism Noosphere Nucleic acid Name Index Objectivity Objectivization Ontology Ontopoiesis Order Organization Origin of life Origin of the Universe Name Index Panspermia Paradigm Path integral Perception Phenomena Phenomenology Philosophy Physical determinism Physicalism Physicalist Physics Planetary system Planets Plasma Pleiades Polaris Primordial Principle Progress human Protein Protosolar nebula Psyche Psychology Purpose Pythagoras Name Index Quality Quantum cosmology Quantum physics Quantum theory Name Index Randomness Rationality Rational worldview Realism Reality Reason Reductionism Religion Renaissance Replication Responsiveness RNA Name Index Sacred Scientific revolution Scientific world picture SeeSeeds of life Self-consciousness Self-organization Self-reflection Sirius Sky Social sciences Society Solar System Solstice Soul Spiritual Spontaneous Stars Stoic Sun Synergetics Name Index Teleology Theology Theoretical biology Time Transcendental Truth Name Index Unification Unity Universal science Universe Name Index Value Vedas Virtual interactions Virtual particles Vitalistic Name Index Water Wave function Well-being Wholeness World Worldview Name Index Zodiac
2023-09-10T01:26:36.242652
https://example.com/article/5920
Jürgen Lässig Jürgen Lässig (born February 25, 1943 in Tuttlingen) is a German former racing driver. Lässig began competing in endurance sports car racing, often World Sportscar Championship races in the early 1980s for Obermaier Racing and drove in several 24 Hours of Le Mans races. He and the Kremer Racing team were the winners of the 1995 24 Hours of Daytona. He retired after the 1997 24 Hours of Le Mans driving for Kremer. 24 Hours of Le Mans results External links Profile at Driver Database Category:1943 births Category:Living people Category:People from Tuttlingen Category:People from the Free People's State of Württemberg Category:German racing drivers Category:24 Hours of Le Mans drivers Category:24 Hours of Daytona drivers Category:Racing drivers from Baden-Württemberg Category:World Sportscar Championship drivers
2024-07-04T01:26:36.242652
https://example.com/article/4502
Q: RushORM store RequestParams I'm using rushorm for sqlite object serializing and storage. It work pretty cool so far. The problem is that I wan't to store following Request object: public class Request extends RushObject { private String url; private RequestParamsStorable params; public Request() {} public Request(String aUrl, RequestParamsStorable aParams) { this.url = aUrl; this.params = aParams; } public String getUrl() { return this.url; } public RequestParams getParams() { return this.params; } } As you can see I need to store RequestParams object. In order to store it, as I obviously cannot make it to extend RushObject I made a subclass and made it to implement Rush as per docs instructions: public class RequestParamsStorable extends RequestParams implements Rush { public RequestParamsStorable() {} @Override public void save() { RushCore.getInstance().save(this); } @Override public void save(RushCallback callback) { RushCore.getInstance().save(this, callback); } @Override public void delete() { RushCore.getInstance().delete(this); } @Override public void delete(RushCallback callback) { RushCore.getInstance().delete(this, callback); } @Override public String getId() { return RushCore.getInstance().getId(this); } } It didn't throw any errors and calling save() on Request object went smoothly. When I ask for stored objects like that: List<Request> remainingsInDB = new RushSearch().find(Request.class); I indeed receive stored Request objects, with proper url, however RequestParamsStorable is empty(""). I checked and when I save them, they definetely had values, and are not empty. So the question is where I'm wrong? Regards, A: If your parent class RequestParams contains fields declared as final, they will not be restored. As reference you can see the RushORM source code ReflectionClassLoader.java for (Field field : fields) { field.setAccessible(true); if (!annotationCache.get(clazz).getFieldToIgnore().contains(field.getName())) { if (!loadJoinField(object, rushColumns, annotationCache, field, joins, joinTables)) { if(rushColumns.supportsField(field)) { String value = values.get(counter); if(value != null && !value.equals("null")) { rushColumns.setField(object, field, value); } counter++; } } } } You should either remove final modifier of the fields or create wrapper object which will be stored in the db and then restore RequestParams from it
2024-07-05T01:26:36.242652
https://example.com/article/6848