| Archive-name: space/schedule |
| Last-modified: $Date: 93/04/01 14:39:23 $ |
| Shuttle operations are discussed in the Usenet group sci.space.shuttle, |
| and Ken Hollis (gandalf@pro-electric.cts.com) posts a compressed version |
| of the shuttle manifest (launch dates and other information) |
| periodically there. The manifest is also available from the Ames SPACE |
| archive in SPACE/FAQ/manifest. The portion of his manifest formerly |
| included in this FAQ has been removed; please refer to his posting or |
| the archived copy. For the most up to date information on upcoming |
| missions, call (407) 867-INFO (867-4636) at Kennedy Space Center. |
| Official NASA shuttle status reports are posted to sci.space.news |
| frequently. |
| The following answer and translation are provided by Ken Jenks |
| (kjenks@gothamcity.jsc.nasa.gov). |
| The "Ascent Guidance and Flight Control Training Manual," ASC G&C 2102, |
| says: |
| "During the vertical rise phase, the launch pad attitude is |
| commanded until an I-loaded V(rel) sufficient to assure launch tower |
| clearance is achieved. Then, the tilt maneuver (roll program) |
| orients the vehicle to a heads down attitude required to generate a |
| negative q-alpha, which in turn alleviates structural loading. Other |
| advantages with this attitude are performance gain, decreased abort |
| maneuver complexity, improved S-band look angles, and crew view of |
| the horizon. The tilt maneuver is also required to start gaining |
| downrange velocity to achieve the main engine cutoff (MECO) target |
| in second stage." |
| This really is a good answer, but it's couched in NASA jargon. I'll try |
| to interpret. |
| 1) We wait until the Shuttle clears the tower before rolling. |
| 2) Then, we roll the Shuttle around so that the angle of attack |
| between the wind caused by passage through the atmosphere (the |
| "relative wind") and the chord of the wings (the imaginary line |
| between the leading edge and the trailing edge) is a slightly |
| negative angle ("a negative q-alpha"). This causes a little bit of |
| "downward" force (toward the belly of the Orbiter, or the +Z |
| direction) and this force "alleviates structural loading." |
| We have to be careful about those wings -- they're about the |
| most "delicate" part of the vehicle. |
| 3) The new attitude (after the roll) also allows us to carry more |
| mass to orbit, or to achieve a higher orbit with the same mass, or |
| to change the orbit to a higher or lower inclination than would be |
| the case if we didn't roll ("performance gain"). |
| 4) The new attitude allows the crew to fly a less complicated |
| flight path if they had to execute one of the more dangerous abort |
| maneuvers, the Return To Launch Site ("decreased abort maneuver |
| complexity"). |
| 5) The new attitude improves the ability for ground-based radio |
| antennae to have a good line-of-sight signal with the S-band radio |
| antennae on the Orbiter ("improved S-band look angles"). |
| 6) The new attitude allows the crew to see the horizon, which is a |
| helpful (but not mandatory) part of piloting any flying machine. |
| 7) The new attitude orients the Shuttle so that the body is |
| more nearly parallel with the ground, and the nose to the east |
| (usually). This allows the thrust from the engines to add velocity |
| in the correct direction to eventually achieve orbit. Remember: |
| velocity is a vector quantity made of both speed and direction. |
| The Shuttle has to have a large horizontal component to its |
| velocity and a very small vertical component to attain orbit. |
| This all begs the question, "Why isn't the launch pad oriented to give |
| this nice attitude to begin with? Why does the Shuttle need to roll to |
| achieve that attitude?" The answer is that the pads were leftovers |
| from the Apollo days. The Shuttle straddles two flame trenches -- one |
| for the Solid Rocket Motor exhaust, one for the Space Shuttle Main |
| Engine exhaust. (You can see the effects of this on any daytime |
| launch. The SRM exhaust is dirty gray garbage, and the SSME exhaust is |
| fluffy white steam. Watch for the difference between the "top" |
| [Orbiter side] and the "bottom" [External Tank side] of the stack.) The |
| access tower and other support and service structure are all oriented |
| basically the same way they were for the Saturn V's. (A side note: the |
| Saturn V's also had a roll program. Don't ask me why -- I'm a Shuttle |
| guy.) |
| I checked with a buddy in Ascent Dynamics. He added that the "roll |
| maneuver" is really a maneuver in all three axes: roll, pitch and yaw. |
| The roll component of that maneuver is performed for the reasons |
| stated. The pitch component controls loading on the wings by keeping |
| the angle of attack (q-alpha) within a tight tolerance. The yaw |
| component is used to determine the orbital inclination. The total |
| maneuver is really expressed as a "quaternion," a grad-level-math |
| concept for combining all three rotation matrices in one four-element |
| array. |
| NASA SELECT is broadcast by satellite. If you have access to a satellite |
| dish, you can find SELECT on Satcom F2R, Transponder 13, C-Band, 72 |
| degrees West Longitude, Audio 6.8, Frequency 3960 MHz. F2R is stationed |
| over the Atlantic, and is increasingly difficult to receive from |
| California and points west. During events of special interest (e.g. |
| shuttle missions), SELECT is sometimes broadcast on a second satellite |
| for these viewers. |
| If you can't get a satellite feed, some cable operators carry SELECT. |
| It's worth asking if yours doesn't. |
| The SELECT schedule is found in the NASA Headline News which is |
| frequently posted to sci.space.news. Generally it carries press |
| conferences, briefings by NASA officials, and live coverage of shuttle |
| missions and planetary encounters. SELECT has recently begun carrying |
| much more secondary material (associated with SPACELINK) when missions |
| are not being covered. |
| The following are believed to rebroadcast space shuttle mission audio: |
| W6FXN - Los Angeles |
| K6MF - Ames Research Center, Mountain View, California |
| WA3NAN - Goddard Space Flight Center (GSFC), Greenbelt, Maryland. |
| W5RRR - Johnson Space Center (JSC), Houston, Texas |
| W6VIO - Jet Propulsion Laboratory (JPL), Pasadena, California. |
| W1AW Voice Bulletins |
| Station VHF 10m 15m 20m 40m 80m |
| W5RRR transmits mission audio on 146.64, a special event station on the |
| other frequencies supplying Keplerian Elements and mission information. |
| W1AW also transmits on 147.555, 18.160. No mission audio but they |
| transmit voice bulletins at 0245 and 0545 UTC. |
| Frequencies in the 10-20m bands require USB and frequencies in the 40 |
| and 80m bands LSB. Use FM for the VHF frequencies. |
| [This item was most recently updated courtesy of Gary Morris |
| (g@telesoft.com, KK6YB, N5QWC)] |
| Reference: "Shuttle Flight Operations Manual" Volume 8B - Solid Rocket |
| Booster Systems, NASA Document JSC-12770 |
| Propellant Composition (percent) |
| Ammonium perchlorate (oxidizer) 69.6 |
| Aluminum 16 |
| Iron Oxide (burn rate catalyst) 0.4 |
| Polybutadiene-acrilic acid-acrylonitrile (a rubber) 12.04 |
| Epoxy curing agent 1.96 |
| End reference |
| Comment: The aluminum, rubber, and epoxy all burn with the oxidizer. |
| NEXT: FAQ #10/15 - Historical planetary probes |
|
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