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factors factors are whole numbers that can evenly divide another number . picturing factors factors give us a way to break down a number into smaller pieces . we can arrange dots into equal sized groups to help us picture the factors of $ 12 $ . $ 12 $ dots can be arranged in $ \tealc { 1 } $ row with $ \tealc { 12 } $...
factors factors are whole numbers that can evenly divide another number . picturing factors factors give us a way to break down a number into smaller pieces . we can arrange dots into equal sized groups to help us picture the factors of $ 12 $ .
what are all of the factors in the world ?
factors factors are whole numbers that can evenly divide another number . picturing factors factors give us a way to break down a number into smaller pieces . we can arrange dots into equal sized groups to help us picture the factors of $ 12 $ . $ 12 $ dots can be arranged in $ \tealc { 1 } $ row with $ \tealc { 12 } $...
so $ \redd { 4 } $ and $ \redd { 5 } $ are a factor pair . | | | | | | - | - | - | - | - | $ \blued { 1 } $ | $ \greend { 2 } $ | $ \redd { 4 } $ | $ \redd { 5 } $ | $ \greend { 10 } $ | $ \blued { 20 } $ the next counting number is $ 5 $ . since $ 5 $ already appears on the list , we now have found all of the factors ...
is 2 a multiple of 5 ?
factors factors are whole numbers that can evenly divide another number . picturing factors factors give us a way to break down a number into smaller pieces . we can arrange dots into equal sized groups to help us picture the factors of $ 12 $ . $ 12 $ dots can be arranged in $ \tealc { 1 } $ row with $ \tealc { 12 } $...
numbers like $ 3 $ and $ 5 $ are not factors of $ 16 $ because they can not be divided evenly into $ 16 $ . factor hints every number has $ 1 $ as a factor . $ 1 $ is a factor of $ 10 $ .
what is the factor of 40 ?
factors factors are whole numbers that can evenly divide another number . picturing factors factors give us a way to break down a number into smaller pieces . we can arrange dots into equal sized groups to help us picture the factors of $ 12 $ . $ 12 $ dots can be arranged in $ \tealc { 1 } $ row with $ \tealc { 12 } $...
the list shows multiples of $ 4 $ . $ 4 , 8 , 12 , 16 , ... $ the list shows multiples of $ 8 $ . picturing multiples the following pictures show multiples of $ 4 $ .
what is the average weight of an 8 year old ?
factors factors are whole numbers that can evenly divide another number . picturing factors factors give us a way to break down a number into smaller pieces . we can arrange dots into equal sized groups to help us picture the factors of $ 12 $ . $ 12 $ dots can be arranged in $ \tealc { 1 } $ row with $ \tealc { 12 } $...
practice with factors and multiples we know that $ 9 \times 6 = 54 $ factors and multiples challenge factors and multiples are used when solving problems about the side lengths and areas of rectangles . a rectangle has an area of $ 50 $ square in . mr. trimble is putting out $ 36 $ chocolate chip cookies for the studen...
what is a square root ?
factors factors are whole numbers that can evenly divide another number . picturing factors factors give us a way to break down a number into smaller pieces . we can arrange dots into equal sized groups to help us picture the factors of $ 12 $ . $ 12 $ dots can be arranged in $ \tealc { 1 } $ row with $ \tealc { 12 } $...
factors factors are whole numbers that can evenly divide another number . picturing factors factors give us a way to break down a number into smaller pieces .
what was the devision rule again ?
factors factors are whole numbers that can evenly divide another number . picturing factors factors give us a way to break down a number into smaller pieces . we can arrange dots into equal sized groups to help us picture the factors of $ 12 $ . $ 12 $ dots can be arranged in $ \tealc { 1 } $ row with $ \tealc { 12 } $...
since $ 5 $ already appears on the list , we now have found all of the factors pairs for $ 20 $ . multiples multiples are numbers that result when we multiply one whole number by another whole number . the first four multiples of $ \blue { 3 } $ are $ 3 , 6 , 9 $ , and $ 12 $ because : $ \blue { 3 } \times 1 = 3 $ $ \b...
how many numbers will it take to make 3,172,590,746 ?
key points : cells have a variety of mechanisms to prevent mutations , or permanent changes in dna sequence . during dna synthesis , most dna polymerases `` check their work , '' fixing the majority of mispaired bases in a process called proofreading . immediately after dna synthesis , any remaining mispaired bases can...
in this process , the two homologous chromosomes come together , and the undamaged region of the homologue or chromatid is used as a template to replace the damaged region of the broken chromosome . homologous recombination is “ cleaner ” than non-homologous end joining and does not usually cause mutations $ ^ { 11 } $...
why would cells ever apply non-homologous end joining if there is a cleaner and safer alternative ?
key points : cells have a variety of mechanisms to prevent mutations , or permanent changes in dna sequence . during dna synthesis , most dna polymerases `` check their work , '' fixing the majority of mispaired bases in a process called proofreading . immediately after dna synthesis , any remaining mispaired bases can...
cancer , in turn , develops only when multiple mutations in division-related genes accumulate in the same cell . in this article , we ’ ll take a closer look at the mechanisms used by cells to correct replication errors and fix dna damage , including : proofreading , which corrects errors during dna replication mismatc...
is there potential , during any of the above proofreading methods to `` correct '' the template dna rather than the newly-formed strand ?
key points : cells have a variety of mechanisms to prevent mutations , or permanent changes in dna sequence . during dna synthesis , most dna polymerases `` check their work , '' fixing the majority of mispaired bases in a process called proofreading . immediately after dna synthesis , any remaining mispaired bases can...
mismatch repair can also detect and correct small insertions and deletions that happen when the polymerases `` slips , '' losing its footing on the template $ ^2 $ . how does mismatch repair work ? first , a protein complex ( group of proteins ) recognizes and binds to the mispaired base .
in the mismatch repair , why is a section of dna cut off rather than only the mismatched base pair cut off ?
key points : cells have a variety of mechanisms to prevent mutations , or permanent changes in dna sequence . during dna synthesis , most dna polymerases `` check their work , '' fixing the majority of mispaired bases in a process called proofreading . immediately after dna synthesis , any remaining mispaired bases can...
a dna polymerase then replaces the missing section with correct nucleotides , and an enzyme called a dna ligase seals the gap $ ^2 $ . one thing you may wonder is how the proteins involved in dna repair can tell `` who 's right '' during mismatch repair . that is , when two bases are mispaired ( like the g and t in the...
how the proteins involved in dna repair detect the fault ?
key points : cells have a variety of mechanisms to prevent mutations , or permanent changes in dna sequence . during dna synthesis , most dna polymerases `` check their work , '' fixing the majority of mispaired bases in a process called proofreading . immediately after dna synthesis , any remaining mispaired bases can...
two pathways involved in the repair of double-stranded dna breaks are the non-homologous end joining and homologous recombination pathways . in non-homologous end joining , the two broken ends of the chromosome are simply glued back together . this repair mechanism is “ messy ” and typically involves the loss , or some...
in homologous recombination , could n't that lead to recessive alleles on the healthy chromosome being copied into the broken chromosome ( which might have had dominant alleles of certain genes ) ?
key points : cells have a variety of mechanisms to prevent mutations , or permanent changes in dna sequence . during dna synthesis , most dna polymerases `` check their work , '' fixing the majority of mispaired bases in a process called proofreading . immediately after dna synthesis , any remaining mispaired bases can...
for example , a chemical reaction called deamination can convert a cytosine base into uracil , a base typically found only in rna . during dna replication , uracil will pair with adenine rather than cytosine , so an uncorrected cytosine-to-uracil change can lead to a mutation $ ^5 $ . to prevent such mutations , a glyc...
how is a mutation repaired after replication ?
key points : cells have a variety of mechanisms to prevent mutations , or permanent changes in dna sequence . during dna synthesis , most dna polymerases `` check their work , '' fixing the majority of mispaired bases in a process called proofreading . immediately after dna synthesis , any remaining mispaired bases can...
cancer , in turn , develops only when multiple mutations in division-related genes accumulate in the same cell . in this article , we ’ ll take a closer look at the mechanisms used by cells to correct replication errors and fix dna damage , including : proofreading , which corrects errors during dna replication mismatc...
for homologous recombination , is the process occurring similar to dna replication ?
key points : cells have a variety of mechanisms to prevent mutations , or permanent changes in dna sequence . during dna synthesis , most dna polymerases `` check their work , '' fixing the majority of mispaired bases in a process called proofreading . immediately after dna synthesis , any remaining mispaired bases can...
cancer , in turn , develops only when multiple mutations in division-related genes accumulate in the same cell . in this article , we ’ ll take a closer look at the mechanisms used by cells to correct replication errors and fix dna damage , including : proofreading , which corrects errors during dna replication mismatc...
if dna replication is halted by an adduct such as aflatoxin-guanine , is the best way to repair that excision ?
key points : cells have a variety of mechanisms to prevent mutations , or permanent changes in dna sequence . during dna synthesis , most dna polymerases `` check their work , '' fixing the majority of mispaired bases in a process called proofreading . immediately after dna synthesis , any remaining mispaired bases can...
cancer , in turn , develops only when multiple mutations in division-related genes accumulate in the same cell . in this article , we ’ ll take a closer look at the mechanisms used by cells to correct replication errors and fix dna damage , including : proofreading , which corrects errors during dna replication mismatc...
why is it important to use the original dna template in order for the repair mechanism to be effective ?
key points : cells have a variety of mechanisms to prevent mutations , or permanent changes in dna sequence . during dna synthesis , most dna polymerases `` check their work , '' fixing the majority of mispaired bases in a process called proofreading . immediately after dna synthesis , any remaining mispaired bases can...
in this process , a helicase ( dna-opening enzyme ) cranks open the dna to form a bubble , and dna-cutting enzymes chop out the damaged part of the bubble . a dna polymerase replaces the missing dna , and a dna ligase seals the gap in the backbone of the strand $ ^9 $ . double-stranded break repair some types of enviro...
why does n't ligase simply seal up the nicks that ap endonuclease introduces before dna pol ii can do anything ?
key points : cells have a variety of mechanisms to prevent mutations , or permanent changes in dna sequence . during dna synthesis , most dna polymerases `` check their work , '' fixing the majority of mispaired bases in a process called proofreading . immediately after dna synthesis , any remaining mispaired bases can...
cancer , in turn , develops only when multiple mutations in division-related genes accumulate in the same cell . in this article , we ’ ll take a closer look at the mechanisms used by cells to correct replication errors and fix dna damage , including : proofreading , which corrects errors during dna replication mismatc...
does dna repair occur in a patient who just underwent radiation therapy for a cancerous lesion ?
key points : cells have a variety of mechanisms to prevent mutations , or permanent changes in dna sequence . during dna synthesis , most dna polymerases `` check their work , '' fixing the majority of mispaired bases in a process called proofreading . immediately after dna synthesis , any remaining mispaired bases can...
in this process , the two homologous chromosomes come together , and the undamaged region of the homologue or chromatid is used as a template to replace the damaged region of the broken chromosome . homologous recombination is “ cleaner ” than non-homologous end joining and does not usually cause mutations $ ^ { 11 } $...
are the cancer and healthy cells equally trying to repair themselves using either non-homologous end joining or homologous recombination ?
key points : cells have a variety of mechanisms to prevent mutations , or permanent changes in dna sequence . during dna synthesis , most dna polymerases `` check their work , '' fixing the majority of mispaired bases in a process called proofreading . immediately after dna synthesis , any remaining mispaired bases can...
the most common type of linkage , a thymine dimer , consists of two thymine bases that react with each other and become chemically linked $ ^8 $ . in nucleotide excision repair , the damaged nucleotide ( s ) are removed along with a surrounding patch of dna . in this process , a helicase ( dna-opening enzyme ) cranks o...
what happens to the nucleotides ( whether they are damaged or not ) when they are removed from the dna sequence ?
key points : cells have a variety of mechanisms to prevent mutations , or permanent changes in dna sequence . during dna synthesis , most dna polymerases `` check their work , '' fixing the majority of mispaired bases in a process called proofreading . immediately after dna synthesis , any remaining mispaired bases can...
immediately after dna synthesis , any remaining mispaired bases can be detected and replaced in a process called mismatch repair . if dna gets damaged , it can be repaired by various mechanisms , including chemical reversal , excision repair , and double-stranded break repair . introduction what does dna have to do wit...
are the damaged strands repaired and reused again , destroyed , collected or built up somewhere in the nucleus , or do they just drift away ?
key points : cells have a variety of mechanisms to prevent mutations , or permanent changes in dna sequence . during dna synthesis , most dna polymerases `` check their work , '' fixing the majority of mispaired bases in a process called proofreading . immediately after dna synthesis , any remaining mispaired bases can...
that is , when two bases are mispaired ( like the g and t in the drawing above ) , which of the two should be removed and replaced ? in bacteria , original and newly made strands of dna can be told apart by a feature called methylation state . an old dna strand will have methyl ( $ -\text { ch } _3 $ ) groups attached ...
but are n't nicks present only in lagging strands of newly synthesized dna ?
key points : cells have a variety of mechanisms to prevent mutations , or permanent changes in dna sequence . during dna synthesis , most dna polymerases `` check their work , '' fixing the majority of mispaired bases in a process called proofreading . immediately after dna synthesis , any remaining mispaired bases can...
that is , when two bases are mispaired ( like the g and t in the drawing above ) , which of the two should be removed and replaced ? in bacteria , original and newly made strands of dna can be told apart by a feature called methylation state . an old dna strand will have methyl ( $ -\text { ch } _3 $ ) groups attached ...
then how are leading strands differentiated from template strands ?
key points : cells have a variety of mechanisms to prevent mutations , or permanent changes in dna sequence . during dna synthesis , most dna polymerases `` check their work , '' fixing the majority of mispaired bases in a process called proofreading . immediately after dna synthesis , any remaining mispaired bases can...
during dna replication ( copying ) , most dna polymerases can “ check their work ” with each base that they add . this process is called proofreading . if the polymerase detects that a wrong ( incorrectly paired ) nucleotide has been added , it will remove and replace the nucleotide right away , before continuing with ...
if someone 's body had a mutation that prevented proofreading what kinds of mutations would show up ?
key points : cells have a variety of mechanisms to prevent mutations , or permanent changes in dna sequence . during dna synthesis , most dna polymerases `` check their work , '' fixing the majority of mispaired bases in a process called proofreading . immediately after dna synthesis , any remaining mispaired bases can...
luckily , humans and many other organisms have an enzyme that can remove the methyl group , reversing the reaction and returning the base to normal $ ^5 $ . base excision repair base excision repair is a mechanism used to detect and remove certain types of damaged bases . a group of enzymes called glycosylases play a k...
upon which feature of the dna molecule does the repair mechanism rely to indicate incorrect bases ?
key points : cells have a variety of mechanisms to prevent mutations , or permanent changes in dna sequence . during dna synthesis , most dna polymerases `` check their work , '' fixing the majority of mispaired bases in a process called proofreading . immediately after dna synthesis , any remaining mispaired bases can...
a dna polymerase then replaces the missing section with correct nucleotides , and an enzyme called a dna ligase seals the gap $ ^2 $ . one thing you may wonder is how the proteins involved in dna repair can tell `` who 's right '' during mismatch repair . that is , when two bases are mispaired ( like the g and t in the...
how the proteins involved in dna repair recognize the fault in nucleotide sequences ?
key points : cells have a variety of mechanisms to prevent mutations , or permanent changes in dna sequence . during dna synthesis , most dna polymerases `` check their work , '' fixing the majority of mispaired bases in a process called proofreading . immediately after dna synthesis , any remaining mispaired bases can...
cancer , in turn , develops only when multiple mutations in division-related genes accumulate in the same cell . in this article , we ’ ll take a closer look at the mechanisms used by cells to correct replication errors and fix dna damage , including : proofreading , which corrects errors during dna replication mismatc...
what kind of dna damage results from ultraviolet ( uv ) radiation ?
key points : cells have a variety of mechanisms to prevent mutations , or permanent changes in dna sequence . during dna synthesis , most dna polymerases `` check their work , '' fixing the majority of mispaired bases in a process called proofreading . immediately after dna synthesis , any remaining mispaired bases can...
cancer , in turn , develops only when multiple mutations in division-related genes accumulate in the same cell . in this article , we ’ ll take a closer look at the mechanisms used by cells to correct replication errors and fix dna damage , including : proofreading , which corrects errors during dna replication mismatc...
describe the kinds of dna repair mechanisms used to fix it in different organisms ?
thomas gainsborough , mr. and mrs. andrews , c. 1750 , oil on canvas , 69.8 x 119.4 cm ( the national gallery , london ) money . possessions . power . the same materialistic ideals which drive many men and women today have performed the same function throughout history . those in positions of power often chose to comme...
mrs. andrews ’ dress possesses the pastel colors and delicate lace of more erotic french works like jean-honoré fragonard ’ s the swing . her dress and mr. andrews ’ shirt glimmer in sunlight , despite the overcast sky . mrs. andrews sits on a bench that is entirely too elaborate to sit exposed in the middle of a wheat...
what career did mr andrews take on ?
thomas gainsborough , mr. and mrs. andrews , c. 1750 , oil on canvas , 69.8 x 119.4 cm ( the national gallery , london ) money . possessions . power . the same materialistic ideals which drive many men and women today have performed the same function throughout history . those in positions of power often chose to comme...
both figures are pale and lithe , reflecting the upper class privilege of not having to work for a living . their expansive estate functions as an ostentatious demonstration of their wealth : it continues as far as the eye can see . a mysterious absence although the andrews purchased their conversation portrait from ga...
does anyone see a phallic symbol in this painting ?
thomas gainsborough , mr. and mrs. andrews , c. 1750 , oil on canvas , 69.8 x 119.4 cm ( the national gallery , london ) money . possessions . power . the same materialistic ideals which drive many men and women today have performed the same function throughout history . those in positions of power often chose to comme...
some scholars have suggested that mrs. andrews was meant to hold a dead game bird , the result of a successful hunting trip by her husband . such an inclusion would emphasize the couple ’ s control over their land , but a bloody animal would ruin mrs. andrews ’ elaborate dress , and therefore seems unlikely . another p...
why would the andrews ' upper class status be reflected in their body shape ?
introduction did you know there are billions of neurons—and trillions of synapses—in your amazing brain ? $ ^1 $ ( no wonder you can learn anything , including neurobiology ! ) most of your synapses are chemical synapses , meaning that information is carried by chemical messengers from one neuron to the next . in the a...
types of neurotransmitter receptors as the example above suggests , we can divide the receptor proteins that are activated by neurotransmitters into two broad classes : ligand-activated ion channels : these receptors are membrane-spanning ion channel proteins that open directly in response to ligand binding . metabotro...
how many receptors on a garden variety human brain neuron ?
introduction did you know there are billions of neurons—and trillions of synapses—in your amazing brain ? $ ^1 $ ( no wonder you can learn anything , including neurobiology ! ) most of your synapses are chemical synapses , meaning that information is carried by chemical messengers from one neuron to the next . in the a...
ligand-activated ion channels are large protein complexes . they have certain regions that are binding sites for the neurotransmitter , as well as membrane-spanning segments that make up the channel . ligand-activated ion channels typically produce very quick physiological responses .
what are membrane spanning segments ?
introduction did you know there are billions of neurons—and trillions of synapses—in your amazing brain ? $ ^1 $ ( no wonder you can learn anything , including neurobiology ! ) most of your synapses are chemical synapses , meaning that information is carried by chemical messengers from one neuron to the next . in the a...
for instance : glutamate is the main excitatory transmitter in the central nervous system . gaba is the main inhibitory neurotransmitter in the adult vertebrate brain . glycine is the main inhibitory neurotransmitter in the spinal cord . however , `` excitatory '' and `` inhibitory '' are n't really clear-cut bins into...
what determines if a neurotransmitter is excitatory or inhibitory ?
introduction did you know there are billions of neurons—and trillions of synapses—in your amazing brain ? $ ^1 $ ( no wonder you can learn anything , including neurobiology ! ) most of your synapses are chemical synapses , meaning that information is carried by chemical messengers from one neuron to the next . in the a...
they are stored in synaptic vesicles , get released when $ \text { ca } ^ { 2+ } $ enters the axon terminal in response to an action potential , and act by binding to receptors on the membrane of the postsynaptic cell . the conventional neurotransmitters can be divided into two main groups : small molecule neurotransmi...
could you please give some points of differences between neuropeptides and neurotransmitters ?
introduction did you know there are billions of neurons—and trillions of synapses—in your amazing brain ? $ ^1 $ ( no wonder you can learn anything , including neurobiology ! ) most of your synapses are chemical synapses , meaning that information is carried by chemical messengers from one neuron to the next . in the a...
these are considered “ unconventional ” or “ nontraditional ” neurotransmitters . two classes of unconventional transmitters are the endocannabinoids and the gasotransmitters ( soluble gases such as nitric oxide , $ \text { no } $ , and carbon monoxide , $ \text { co } $ ) . these molecules are unconventional in that t...
what is the difference between gas transmitters and endocannabinoids ?
introduction did you know there are billions of neurons—and trillions of synapses—in your amazing brain ? $ ^1 $ ( no wonder you can learn anything , including neurobiology ! ) most of your synapses are chemical synapses , meaning that information is carried by chemical messengers from one neuron to the next . in the a...
introduction did you know there are billions of neurons—and trillions of synapses—in your amazing brain ? $ ^1 $ ( no wonder you can learn anything , including neurobiology ! ) most of your synapses are chemical synapses , meaning that information is carried by chemical messengers from one neuron to the next .
what happens with the unmyelinated axons ?
introduction did you know there are billions of neurons—and trillions of synapses—in your amazing brain ? $ ^1 $ ( no wonder you can learn anything , including neurobiology ! ) most of your synapses are chemical synapses , meaning that information is carried by chemical messengers from one neuron to the next . in the a...
for instance : glutamate is the main excitatory transmitter in the central nervous system . gaba is the main inhibitory neurotransmitter in the adult vertebrate brain . glycine is the main inhibitory neurotransmitter in the spinal cord .
why the thalamus of brain does n't receive sensory impulses from the nose ?
from the sublime to the ridiculous ? for some critics , in the hands of john martin , the sublime ( see note at the bottom of the page ) in british landscape painting had slipped irrevocably into the ridiculous . for others , his work is innovative and exciting , a masterful re-energising of the landscape genre , and f...
it is hard to imagine when looking at the painting in the context of a modern picture gallery or on the internet , but originally it would have been experienced more like a piece of theatre than a work of art . such immersive spectacles were common in england at the time . in the early 1820 's , gericault 's exhibited ...
what technology was available at that time to put these shows on ?
what are global modernisms ? you might be wondering why this topic is called global modernisms , as if there is more than just one type of modernism in the history of art . when we talk about art history , it 's easy to look at that art through the lens of where we live and come from–and in this case , a great deal of ...
his museum of contemporary african art in london ( 2013 ) creates what he calls `` a new reality '' by staging an exhibition that speaks to his experience of africa set within the space of a european gallery . by doing so , he invites the western art establishment to engage with african art , but also to question why d...
why does n't the art take up space ?
what are global modernisms ? you might be wondering why this topic is called global modernisms , as if there is more than just one type of modernism in the history of art . when we talk about art history , it 's easy to look at that art through the lens of where we live and come from–and in this case , a great deal of ...
his museum of contemporary african art in london ( 2013 ) creates what he calls `` a new reality '' by staging an exhibition that speaks to his experience of africa set within the space of a european gallery . by doing so , he invites the western art establishment to engage with african art , but also to question why d...
why do people like art ?
hi , i 'm carrie cai ! what do you work on ? i am a computer science graduate student at mit specializing in human-computer interfaces for language education and online learning . depending on where i am in the research cycle , i am usually coding interactive systems and prototypes , brainstorming how to help people le...
hi , i 'm carrie cai ! what do you work on ?
what is the website to find tetrilingo ?
hi , i 'm carrie cai ! what do you work on ? i am a computer science graduate student at mit specializing in human-computer interfaces for language education and online learning . depending on where i am in the research cycle , i am usually coding interactive systems and prototypes , brainstorming how to help people le...
within the first few weeks , i got hooked learning about recursion , and was surprised to discover how similar programming was to solving mini-brain teasers . even though i wasn ’ t enrolled in a degree program , it turns out that simply being on a university campus can open many doors ! not only did i join a research ...
do you think it would still be possible for me to somehow get into that field without a linguistics degree ?
hi , i 'm carrie cai ! what do you work on ? i am a computer science graduate student at mit specializing in human-computer interfaces for language education and online learning . depending on where i am in the research cycle , i am usually coding interactive systems and prototypes , brainstorming how to help people le...
depending on where i am in the research cycle , i am usually coding interactive systems and prototypes , brainstorming how to help people learn languages , or gathering and analyzing data . last year , i augmented tetris with speech recognition so that learners can practice speaking foreign language vocabulary while th...
how many languages does the tetris modified version have ?
overview puritans were english protestants who were committed to `` purifying '' the church of england by eliminating all aspects of catholicism from religious practices . english puritans founded the colony of plymouth to practice their own brand of protestantism without interference . new england society was characte...
for example , they denounced popular pastimes like bear-baiting—letting dogs attack a chained bear—which were often conducted on sundays when people had a few leisure hours . in the culture where william shakespeare had produced his masterpieces , puritans called for an end to the theater , censuring playhouses as plac...
can someone give me a deeper explanation on why the puritans disapproved of theater ?
overview puritans were english protestants who were committed to `` purifying '' the church of england by eliminating all aspects of catholicism from religious practices . english puritans founded the colony of plymouth to practice their own brand of protestantism without interference . new england society was characte...
what aspects of later american political values do you see in it ? how do you think english citizens who belonged to the church of england viewed the puritans ?
why did puritans decide to migrate to disintegrate from the english church of england ?
overview puritans were english protestants who were committed to `` purifying '' the church of england by eliminating all aspects of catholicism from religious practices . english puritans founded the colony of plymouth to practice their own brand of protestantism without interference . new england society was characte...
when a larger exodus of puritans established the massachusetts bay colony in the 1630s , the pilgrims at plymouth welcomed them and the two colonies cooperated with each other . the puritan work ethic different labor systems also distinguished early puritan new england from the chesapeake colonies . puritans expected y...
who is the author of this article , puritan new england : plymouth ?
what is completing the square ? completing the square is a technique for rewriting quadratics in the form $ ( x+a ) ^2+b $ . for example , $ x^2+2x+3 $ can be rewritten as $ ( x+1 ) ^2+2 $ . the two expressions are totally equivalent , but the second one is nicer to work with in some situations . example 1 we 're given...
what is completing the square ? completing the square is a technique for rewriting quadratics in the form $ ( x+a ) ^2+b $ .
what are the basics of algebra ?
what is a factor ? a factor is a whole number that can divide evenly into another number . the factors of $ \purpled8 $ are : $ \blued { 1 , 2 , 4 } , $ and $ \blued8 $ . $ \purpled8 \div \blued1 = 8 $ $ \purpled8 \div \blued2 = 4 $ $ \purple8 \div \blued4 = 2 $ $ \purpled8 \div \blued8 = 1 $ $ \blued { 1 , 2 , 4 } , $...
check out this exercise . what is a multiple ? a multiple is a number that results when we multiply one whole number by another whole number .
is 117 is a multiple of 13 ?
what is a factor ? a factor is a whole number that can divide evenly into another number . the factors of $ \purpled8 $ are : $ \blued { 1 , 2 , 4 } , $ and $ \blued8 $ . $ \purpled8 \div \blued1 = 8 $ $ \purpled8 \div \blued2 = 4 $ $ \purple8 \div \blued4 = 2 $ $ \purpled8 \div \blued8 = 1 $ $ \blued { 1 , 2 , 4 } , $...
what is a factor ? a factor is a whole number that can divide evenly into another number . the factors of $ \purpled8 $ are : $ \blued { 1 , 2 , 4 } , $ and $ \blued8 $ .
what does divide evenly mean ?
what is a factor ? a factor is a whole number that can divide evenly into another number . the factors of $ \purpled8 $ are : $ \blued { 1 , 2 , 4 } , $ and $ \blued8 $ . $ \purpled8 \div \blued1 = 8 $ $ \purpled8 \div \blued2 = 4 $ $ \purple8 \div \blued4 = 2 $ $ \purpled8 \div \blued8 = 1 $ $ \blued { 1 , 2 , 4 } , $...
identifying multiples we can check to see if a number is a multiple of another number by seeing if it can be divided evenly by the number . $ 15 $ is a multiple of $ \blued3 $ because $ 15 \div \blued3 = 5 $ . $ 17 $ is not a multiple of $ \blued3 $ because $ 17 \div \blued3 = 5 \text { r } 2 $ .
what 's the square root of 5 ?
what is a factor ? a factor is a whole number that can divide evenly into another number . the factors of $ \purpled8 $ are : $ \blued { 1 , 2 , 4 } , $ and $ \blued8 $ . $ \purpled8 \div \blued1 = 8 $ $ \purpled8 \div \blued2 = 4 $ $ \purple8 \div \blued4 = 2 $ $ \purpled8 \div \blued8 = 1 $ $ \blued { 1 , 2 , 4 } , $...
what is a factor ? a factor is a whole number that can divide evenly into another number .
how do you know that 789,456,463,230 is a 99 ?
what is a factor ? a factor is a whole number that can divide evenly into another number . the factors of $ \purpled8 $ are : $ \blued { 1 , 2 , 4 } , $ and $ \blued8 $ . $ \purpled8 \div \blued1 = 8 $ $ \purpled8 \div \blued2 = 4 $ $ \purple8 \div \blued4 = 2 $ $ \purpled8 \div \blued8 = 1 $ $ \blued { 1 , 2 , 4 } , $...
what is a factor ? a factor is a whole number that can divide evenly into another number .
is 180 a factor of three ?
what is a factor ? a factor is a whole number that can divide evenly into another number . the factors of $ \purpled8 $ are : $ \blued { 1 , 2 , 4 } , $ and $ \blued8 $ . $ \purpled8 \div \blued1 = 8 $ $ \purpled8 \div \blued2 = 4 $ $ \purple8 \div \blued4 = 2 $ $ \purpled8 \div \blued8 = 1 $ $ \blued { 1 , 2 , 4 } , $...
what is a factor ? a factor is a whole number that can divide evenly into another number .
what is the meaning of life ?
what is a factor ? a factor is a whole number that can divide evenly into another number . the factors of $ \purpled8 $ are : $ \blued { 1 , 2 , 4 } , $ and $ \blued8 $ . $ \purpled8 \div \blued1 = 8 $ $ \purpled8 \div \blued2 = 4 $ $ \purple8 \div \blued4 = 2 $ $ \purpled8 \div \blued8 = 1 $ $ \blued { 1 , 2 , 4 } , $...
check out this exercise . what is a multiple ? a multiple is a number that results when we multiply one whole number by another whole number .
does 2444 is the multiple 4 ?
what is a factor ? a factor is a whole number that can divide evenly into another number . the factors of $ \purpled8 $ are : $ \blued { 1 , 2 , 4 } , $ and $ \blued8 $ . $ \purpled8 \div \blued1 = 8 $ $ \purpled8 \div \blued2 = 4 $ $ \purple8 \div \blued4 = 2 $ $ \purpled8 \div \blued8 = 1 $ $ \blued { 1 , 2 , 4 } , $...
check out this exercise . what is a multiple ? a multiple is a number that results when we multiply one whole number by another whole number .
does a multiple only diviid or does it also multiply ?
what is a factor ? a factor is a whole number that can divide evenly into another number . the factors of $ \purpled8 $ are : $ \blued { 1 , 2 , 4 } , $ and $ \blued8 $ . $ \purpled8 \div \blued1 = 8 $ $ \purpled8 \div \blued2 = 4 $ $ \purple8 \div \blued4 = 2 $ $ \purpled8 \div \blued8 = 1 $ $ \blued { 1 , 2 , 4 } , $...
check out this video . want more ways to think about factors and multiples ? check out this article .
what 's the difference between factors and multiples ?
what is a factor ? a factor is a whole number that can divide evenly into another number . the factors of $ \purpled8 $ are : $ \blued { 1 , 2 , 4 } , $ and $ \blued8 $ . $ \purpled8 \div \blued1 = 8 $ $ \purpled8 \div \blued2 = 4 $ $ \purple8 \div \blued4 = 2 $ $ \purpled8 \div \blued8 = 1 $ $ \blued { 1 , 2 , 4 } , $...
check out this exercise . what is a multiple ? a multiple is a number that results when we multiply one whole number by another whole number .
is 25628476571687956187654287 a multiple of 784362794816783647163741478137248731894738917489127489327148172489 ?
what is a factor ? a factor is a whole number that can divide evenly into another number . the factors of $ \purpled8 $ are : $ \blued { 1 , 2 , 4 } , $ and $ \blued8 $ . $ \purpled8 \div \blued1 = 8 $ $ \purpled8 \div \blued2 = 4 $ $ \purple8 \div \blued4 = 2 $ $ \purpled8 \div \blued8 = 1 $ $ \blued { 1 , 2 , 4 } , $...
what is a factor ? a factor is a whole number that can divide evenly into another number .
is 113 a factor of 11,11,23,478 ?
what is a factor ? a factor is a whole number that can divide evenly into another number . the factors of $ \purpled8 $ are : $ \blued { 1 , 2 , 4 } , $ and $ \blued8 $ . $ \purpled8 \div \blued1 = 8 $ $ \purpled8 \div \blued2 = 4 $ $ \purple8 \div \blued4 = 2 $ $ \purpled8 \div \blued8 = 1 $ $ \blued { 1 , 2 , 4 } , $...
check out this exercise . what is a multiple ? a multiple is a number that results when we multiply one whole number by another whole number .
is 27 a multiple of 113 ?
what is a factor ? a factor is a whole number that can divide evenly into another number . the factors of $ \purpled8 $ are : $ \blued { 1 , 2 , 4 } , $ and $ \blued8 $ . $ \purpled8 \div \blued1 = 8 $ $ \purpled8 \div \blued2 = 4 $ $ \purple8 \div \blued4 = 2 $ $ \purpled8 \div \blued8 = 1 $ $ \blued { 1 , 2 , 4 } , $...
check out this exercise . what is a multiple ? a multiple is a number that results when we multiply one whole number by another whole number .
ls 427 is a multiple of 47 ?
what is a factor ? a factor is a whole number that can divide evenly into another number . the factors of $ \purpled8 $ are : $ \blued { 1 , 2 , 4 } , $ and $ \blued8 $ . $ \purpled8 \div \blued1 = 8 $ $ \purpled8 \div \blued2 = 4 $ $ \purple8 \div \blued4 = 2 $ $ \purpled8 \div \blued8 = 1 $ $ \blued { 1 , 2 , 4 } , $...
what is a factor ? a factor is a whole number that can divide evenly into another number .
hello is there a factor to infinity ?
what is a factor ? a factor is a whole number that can divide evenly into another number . the factors of $ \purpled8 $ are : $ \blued { 1 , 2 , 4 } , $ and $ \blued8 $ . $ \purpled8 \div \blued1 = 8 $ $ \purpled8 \div \blued2 = 4 $ $ \purple8 \div \blued4 = 2 $ $ \purpled8 \div \blued8 = 1 $ $ \blued { 1 , 2 , 4 } , $...
a factor is a whole number that can divide evenly into another number . the factors of $ \purpled8 $ are : $ \blued { 1 , 2 , 4 } , $ and $ \blued8 $ . $ \purpled8 \div \blued1 = 8 $ $ \purpled8 \div \blued2 = 4 $ $ \purple8 \div \blued4 = 2 $ $ \purpled8 \div \blued8 = 1 $ $ \blued { 1 , 2 , 4 } , $ and $ \blued8 $ al...
also if 2+2=fish dies 7+7=shark ?
what is a factor ? a factor is a whole number that can divide evenly into another number . the factors of $ \purpled8 $ are : $ \blued { 1 , 2 , 4 } , $ and $ \blued8 $ . $ \purpled8 \div \blued1 = 8 $ $ \purpled8 \div \blued2 = 4 $ $ \purple8 \div \blued4 = 2 $ $ \purpled8 \div \blued8 = 1 $ $ \blued { 1 , 2 , 4 } , $...
check out this exercise . what is a multiple ? a multiple is a number that results when we multiply one whole number by another whole number .
what is the multiple of 301 ?
what is a factor ? a factor is a whole number that can divide evenly into another number . the factors of $ \purpled8 $ are : $ \blued { 1 , 2 , 4 } , $ and $ \blued8 $ . $ \purpled8 \div \blued1 = 8 $ $ \purpled8 \div \blued2 = 4 $ $ \purple8 \div \blued4 = 2 $ $ \purpled8 \div \blued8 = 1 $ $ \blued { 1 , 2 , 4 } , $...
what is a factor ? a factor is a whole number that can divide evenly into another number .
when you do factor paris does it need to be in order ?
overview the cold war was a struggle for world dominance between the capitalist united states and the communist soviet union . at the yalta conference , the united states , the soviet union , the united kingdom , and france agreed to split germany into four zones of occupation after the war . the us ambassador in mosco...
the us government adopted kennan 's ideas for containment , which became the cornerstone of american foreign policy in the twentieth century. $ ^5 $ what do you think ? is `` cold war '' really an appropriate name for the conflict between the united states and the soviet union ? in what ways was the cold war actually a...
is `` cold war '' really an appropriate name for the conflict between the u.s. and the ussr ?
overview the cold war was a struggle for world dominance between the capitalist united states and the communist soviet union . at the yalta conference , the united states , the soviet union , the united kingdom , and france agreed to split germany into four zones of occupation after the war . the us ambassador in mosco...
is `` cold war '' really an appropriate name for the conflict between the united states and the soviet union ? in what ways was the cold war actually a hot war ? do you think it would have been possible for the united states and the soviet union to coexist peacefully in the postwar era , or was conflict destined to ari...
in what ways was the cold war actually a hot war ?
overview the cold war was a struggle for world dominance between the capitalist united states and the communist soviet union . at the yalta conference , the united states , the soviet union , the united kingdom , and france agreed to split germany into four zones of occupation after the war . the us ambassador in mosco...
the us government adopted kennan 's ideas for containment , which became the cornerstone of american foreign policy in the twentieth century. $ ^5 $ what do you think ? is `` cold war '' really an appropriate name for the conflict between the united states and the soviet union ? in what ways was the cold war actually a...
is `` cold war '' really an appropriate name for the conflict between the us and the ussr ?
overview the cold war was a struggle for world dominance between the capitalist united states and the communist soviet union . at the yalta conference , the united states , the soviet union , the united kingdom , and france agreed to split germany into four zones of occupation after the war . the us ambassador in mosco...
is `` cold war '' really an appropriate name for the conflict between the united states and the soviet union ? in what ways was the cold war actually a hot war ? do you think it would have been possible for the united states and the soviet union to coexist peacefully in the postwar era , or was conflict destined to ari...
in what ways was the cold war actually a hot war ?
overview the cold war was a struggle for world dominance between the capitalist united states and the communist soviet union . at the yalta conference , the united states , the soviet union , the united kingdom , and france agreed to split germany into four zones of occupation after the war . the us ambassador in mosco...
it 's called the cold war because no actual military engagement took place between the united states and the ussr ( union of soviet socialist republics ) . instead , fighting took place in proxy wars conducted in `` third-world '' countries . the united states and ussr clashed over their economic and political philosop...
in the third paragraph , what makes nations turn against each other ?
overview the cold war was a struggle for world dominance between the capitalist united states and the communist soviet union . at the yalta conference , the united states , the soviet union , the united kingdom , and france agreed to split germany into four zones of occupation after the war . the us ambassador in mosco...
this proved to be a fatal mistake for hitler : the russians eventually stalled his invasion and overtook all of the territory the nazis had conquered in eastern europe. $ ^1 $ before the war 's end , the leaders of the allied powers met at the russian resort town of yalta to plan for the future after hitler 's defeat ....
when did the yalta conference happen ?
overview the cold war was a struggle for world dominance between the capitalist united states and the communist soviet union . at the yalta conference , the united states , the soviet union , the united kingdom , and france agreed to split germany into four zones of occupation after the war . the us ambassador in mosco...
the us ambassador in moscow warned that the soviet union desired to expand throughout the world and prescribed the `` containment '' of communism as the chief us foreign policy strategy . what was the cold war ? the cold war was a global conflict between the united states and the soviet union , lasting from 1947 to 199...
in the last subtitle , why was the cold war called that ?
overview the cold war was a struggle for world dominance between the capitalist united states and the communist soviet union . at the yalta conference , the united states , the soviet union , the united kingdom , and france agreed to split germany into four zones of occupation after the war . the us ambassador in mosco...
instead , fighting took place in proxy wars conducted in `` third-world '' countries . the united states and ussr clashed over their economic and political philosophies . as a capitalist , democratic nation , the us sought to promote free elections and free markets .
why did the ussr get the biggest chunk of germany ?
a buddhist king what happens when a powerful ruler adopts a new religion that contradicts the life into which he was born ? what about when this change occurs during the height of his rule when things are pretty much going his way ? how is that information conveyed over a large geographical region with thousands of inh...
the wheel ( cakra ) is a symbol of both samsara , the endless circle of birth and rebirth , and the dharma , the four noble truths . why a pillar ? there are a few hypotheses about why ashoka used the pillar as a means for communicating his buddhist message .
can u put a little more detail , so i can tell my teacher what the asoka pillar is ?
a buddhist king what happens when a powerful ruler adopts a new religion that contradicts the life into which he was born ? what about when this change occurs during the height of his rule when things are pretty much going his way ? how is that information conveyed over a large geographical region with thousands of inh...
a buddhist king what happens when a powerful ruler adopts a new religion that contradicts the life into which he was born ? what about when this change occurs during the height of his rule when things are pretty much going his way ?
what is life after samsara like ?
a buddhist king what happens when a powerful ruler adopts a new religion that contradicts the life into which he was born ? what about when this change occurs during the height of his rule when things are pretty much going his way ? how is that information conveyed over a large geographical region with thousands of inh...
the wheel ( cakra ) is a symbol of both samsara , the endless circle of birth and rebirth , and the dharma , the four noble truths . why a pillar ? there are a few hypotheses about why ashoka used the pillar as a means for communicating his buddhist message .
it would be great if you could post the archaemenid influence in the mauryan pillar art ?
a buddhist king what happens when a powerful ruler adopts a new religion that contradicts the life into which he was born ? what about when this change occurs during the height of his rule when things are pretty much going his way ? how is that information conveyed over a large geographical region with thousands of inh...
– 232 b.c.e. , is widely believed to be the first leader to accept buddhism and thus the first major patron of buddhist art . ashoka made a dramatic conversion to buddhism after witnessing the carnage that resulted from his conquest of the village of kalinga . he adopted the teachings of the buddha known as the four no...
what were the viharas made of ?
a buddhist king what happens when a powerful ruler adopts a new religion that contradicts the life into which he was born ? what about when this change occurs during the height of his rule when things are pretty much going his way ? how is that information conveyed over a large geographical region with thousands of inh...
they are cut from two different types of stone—one for the shaft and another for the capital . the shaft was almost always cut from a single piece of stone . laborers cut and dragged the stone from quarries in mathura and chunar , located in the northern part of india within ashoka ’ s empire .
was it made out of mud , bricks or rock-cut caves or something else ?
a buddhist king what happens when a powerful ruler adopts a new religion that contradicts the life into which he was born ? what about when this change occurs during the height of his rule when things are pretty much going his way ? how is that information conveyed over a large geographical region with thousands of inh...
ashoka did not require that everyone in his kingdom become buddhist , and buddhism did not become the state religion , but through ashoka ’ s support , it spread widely and rapidly . the pillars one of ashoka ’ s first artistic programs was to erect the pillars that are now scattered throughout what was the mauryan emp...
why did the mauryan empire decline ?
a buddhist king what happens when a powerful ruler adopts a new religion that contradicts the life into which he was born ? what about when this change occurs during the height of his rule when things are pretty much going his way ? how is that information conveyed over a large geographical region with thousands of inh...
laborers cut and dragged the stone from quarries in mathura and chunar , located in the northern part of india within ashoka ’ s empire . the pillars weigh about 50 tons each . only 19 of the original pillars survive and many are in fragments .
what symbols are used on the pillars ?
what are the kinematic formulas ? the kinematic formulas are a set of formulas that relate the five kinematic variables listed below . $ \delta x\quad\text { displacement } $ $ t\qquad\text { time interval } ~ $ $ v_0 ~~\quad\text { initial velocity } ~ $ $ v\quad ~~~\text { final velocity } ~ $ $ a \quad~~ \text { con...
it 's lucky since we do n't need to know the mass of the projectile when solving kinematic formulas since the freely flying object will have the same magnitude of acceleration , $ g=9.81\dfrac { \text { m } } { \text { s } ^2 } $ , no matter what mass it has—as long as air resistance is negligible . note that $ g=9.81\...
however , if i throw a rock up , my acceleration would be -9.81 or positive 9.81 ?
what are the kinematic formulas ? the kinematic formulas are a set of formulas that relate the five kinematic variables listed below . $ \delta x\quad\text { displacement } $ $ t\qquad\text { time interval } ~ $ $ v_0 ~~\quad\text { initial velocity } ~ $ $ v\quad ~~~\text { final velocity } ~ $ $ a \quad~~ \text { con...
the third kinematic formula , $ \delta x=v_0 t+\dfrac { 1 } { 2 } at^2 $ , might require the use of the quadratic formula , see solved example 3 below . people forget that even though you can choose any time interval during the constant acceleration , the kinematic variables you plug into a kinematic formula must be co...
will there be any equations where we can find the other variables ( time , distance , etc ) where the acceleration is not constant ?
what are the kinematic formulas ? the kinematic formulas are a set of formulas that relate the five kinematic variables listed below . $ \delta x\quad\text { displacement } $ $ t\qquad\text { time interval } ~ $ $ v_0 ~~\quad\text { initial velocity } ~ $ $ v\quad ~~~\text { final velocity } ~ $ $ a \quad~~ \text { con...
if upward is assumed to be positive , then the acceleration due to gravity for a freely flying object must be negative : $ a_g=-9.81\dfrac { \text { m } } { \text { s } ^2 } $ . the third kinematic formula , $ \delta x=v_0 t+\dfrac { 1 } { 2 } at^2 $ , might require the use of the quadratic formula , see solved example...
is quadratic formula necessary as used in the example with the third formula ?
what are the kinematic formulas ? the kinematic formulas are a set of formulas that relate the five kinematic variables listed below . $ \delta x\quad\text { displacement } $ $ t\qquad\text { time interval } ~ $ $ v_0 ~~\quad\text { initial velocity } ~ $ $ v\quad ~~~\text { final velocity } ~ $ $ a \quad~~ \text { con...
the kinematic formula $ \delta x=v_0 t+\dfrac { 1 } { 2 } at^2 $ is missing $ v $ , so it 's the right choice in this case to solve for the acceleration $ a $ . how do you derive the first kinematic formula , $ v=v_0+at $ ? this kinematic formula is probably the easiest to derive since it is really just a rearranged ve...
how to derive equations of motion by using calculus ?
what are the kinematic formulas ? the kinematic formulas are a set of formulas that relate the five kinematic variables listed below . $ \delta x\quad\text { displacement } $ $ t\qquad\text { time interval } ~ $ $ v_0 ~~\quad\text { initial velocity } ~ $ $ v\quad ~~~\text { final velocity } ~ $ $ a \quad~~ \text { con...
the kinematic formula $ \delta x=v_0 t+\dfrac { 1 } { 2 } at^2 $ is missing $ v $ , so it 's the right choice in this case to solve for the acceleration $ a $ . how do you derive the first kinematic formula , $ v=v_0+at $ ? this kinematic formula is probably the easiest to derive since it is really just a rearranged ve...
how do you derive these equations using calculus ?
what are the kinematic formulas ? the kinematic formulas are a set of formulas that relate the five kinematic variables listed below . $ \delta x\quad\text { displacement } $ $ t\qquad\text { time interval } ~ $ $ v_0 ~~\quad\text { initial velocity } ~ $ $ v\quad ~~~\text { final velocity } ~ $ $ a \quad~~ \text { con...
we could use the kinematic formula $ \delta x=v_0 t+\dfrac { 1 } { 2 } at^2 $ to algebraically solve for the unknown acceleration $ a $ of the book—assuming the acceleration was constant—since we know every other variable in the formula besides $ a $ — $ \delta x , v_0 , t $ . problem solving tip : note that each kinem...
is there one standard list of `` the '' five kinetic variables that i should know ?
what are the kinematic formulas ? the kinematic formulas are a set of formulas that relate the five kinematic variables listed below . $ \delta x\quad\text { displacement } $ $ t\qquad\text { time interval } ~ $ $ v_0 ~~\quad\text { initial velocity } ~ $ $ v\quad ~~~\text { final velocity } ~ $ $ a \quad~~ \text { con...
it 's lucky since we do n't need to know the mass of the projectile when solving kinematic formulas since the freely flying object will have the same magnitude of acceleration , $ g=9.81\dfrac { \text { m } } { \text { s } ^2 } $ , no matter what mass it has—as long as air resistance is negligible . note that $ g=9.81\...
the gravity magnitude for the free fall is always -9.81 ?
what are the kinematic formulas ? the kinematic formulas are a set of formulas that relate the five kinematic variables listed below . $ \delta x\quad\text { displacement } $ $ t\qquad\text { time interval } ~ $ $ v_0 ~~\quad\text { initial velocity } ~ $ $ v\quad ~~~\text { final velocity } ~ $ $ a \quad~~ \text { con...
\quad v=v_0+at \quad \text { ( this formula is missing $ \delta x $ . ) } $ $ 2 . \quad { \delta x } = ( \dfrac { v+v_0 } { 2 } ) t\quad \text { ( this formula is missing $ a $ .
in example 3 , where the pencil is being thrown upward , should g = +9.8 m/s^2 or -9.8 m/s^2 ?
what are the kinematic formulas ? the kinematic formulas are a set of formulas that relate the five kinematic variables listed below . $ \delta x\quad\text { displacement } $ $ t\qquad\text { time interval } ~ $ $ v_0 ~~\quad\text { initial velocity } ~ $ $ v\quad ~~~\text { final velocity } ~ $ $ a \quad~~ \text { con...
we could use the kinematic formula $ \delta x=v_0 t+\dfrac { 1 } { 2 } at^2 $ to algebraically solve for the unknown acceleration $ a $ of the book—assuming the acceleration was constant—since we know every other variable in the formula besides $ a $ — $ \delta x , v_0 , t $ . problem solving tip : note that each kinem...
is there a kinematic formula missing initial velocity ?
what are the kinematic formulas ? the kinematic formulas are a set of formulas that relate the five kinematic variables listed below . $ \delta x\quad\text { displacement } $ $ t\qquad\text { time interval } ~ $ $ v_0 ~~\quad\text { initial velocity } ~ $ $ v\quad ~~~\text { final velocity } ~ $ $ a \quad~~ \text { con...
$ a=-9.81\dfrac { \text { m } } { \text { s } ^2 } \quad $ ( the pencil is a freely flying projectile . ) since we do n't know the final velocity $ v $ and we were n't asked to find the final velocity , we will use the third kinematic formula for the vertical direction $ \delta y=v_ { 0y } t+\dfrac { 1 } { 2 } a_yt^2 $...
if the problem gives us acceleration , time and final velocity , and asks for displacement , we could n't use any formula because all of them use initial velocity right ?
what are the kinematic formulas ? the kinematic formulas are a set of formulas that relate the five kinematic variables listed below . $ \delta x\quad\text { displacement } $ $ t\qquad\text { time interval } ~ $ $ v_0 ~~\quad\text { initial velocity } ~ $ $ v\quad ~~~\text { final velocity } ~ $ $ a \quad~~ \text { con...
) } $ $ v_x=\pm\sqrt { v_ { 0x } ^2+2a_x\delta x } \quad \text { ( algebraically solve for the final velocity . ) } $ note that in taking a square root , you get two possible answers : positive or negative . since our motorcyclist will still be going in the direction of motion it started with and we assumed that direct...
if upwards is been considered positive and the objective is to know the displacement time of a point higher than the object was displaced , shoud n't the gravity be positive , since it 's not falling down ?
what are the kinematic formulas ? the kinematic formulas are a set of formulas that relate the five kinematic variables listed below . $ \delta x\quad\text { displacement } $ $ t\qquad\text { time interval } ~ $ $ v_0 ~~\quad\text { initial velocity } ~ $ $ v\quad ~~~\text { final velocity } ~ $ $ a \quad~~ \text { con...
in other words , the initial velocity $ v_0 $ has to be the velocity of the object at the initial position and start of the time interval $ t $ . similarly , the final velocity $ v $ must be the velocity at the final position and end of the time interval $ t $ being analyzed . what do solved examples involving the kine...
why is final velocity written as `` v '' and not `` vf '' ?
what are the kinematic formulas ? the kinematic formulas are a set of formulas that relate the five kinematic variables listed below . $ \delta x\quad\text { displacement } $ $ t\qquad\text { time interval } ~ $ $ v_0 ~~\quad\text { initial velocity } ~ $ $ v\quad ~~~\text { final velocity } ~ $ $ a \quad~~ \text { con...
subtracting 12.2 m from both sides we get $ 0=\dfrac { 1 } { 2 } ( -9.81\dfrac { \text { m } } { \text { s } ^2 } ) t^2+ ( 18.3\text { m/s } ) t -12.2\text { m } \quad \text { ( put it into the form of the quadratic equation . ) } $ at this point , we solve the quadratic equation for time $ t $ . the solutions of a qua...
also , what is the quadratic equation ?
what are the kinematic formulas ? the kinematic formulas are a set of formulas that relate the five kinematic variables listed below . $ \delta x\quad\text { displacement } $ $ t\qquad\text { time interval } ~ $ $ v_0 ~~\quad\text { initial velocity } ~ $ $ v\quad ~~~\text { final velocity } ~ $ $ a \quad~~ \text { con...
the kinematic formula $ \delta x=v_0 t+\dfrac { 1 } { 2 } at^2 $ is missing $ v $ , so it 's the right choice in this case to solve for the acceleration $ a $ . how do you derive the first kinematic formula , $ v=v_0+at $ ? this kinematic formula is probably the easiest to derive since it is really just a rearranged ve...
is n't the 2nd formula just the rearranged version of vavg = x/t ?
what are the kinematic formulas ? the kinematic formulas are a set of formulas that relate the five kinematic variables listed below . $ \delta x\quad\text { displacement } $ $ t\qquad\text { time interval } ~ $ $ v_0 ~~\quad\text { initial velocity } ~ $ $ v\quad ~~~\text { final velocity } ~ $ $ a \quad~~ \text { con...
how do you derive the fourth kinematic formula , $ v^2=v_0^2+2a\delta x $ ? to derive the fourth kinematic formula , we 'll start with the second kinematic formula : $ { \delta x } = ( \dfrac { v+v_0 } { 2 } ) t $ we want to eliminate the time $ t $ from this formula . to do this , we 'll solve the first kinematic form...
what mathematical formula do i need to work out the energy required for a horse to propel itself up and over the wall in puissance ?
what are the kinematic formulas ? the kinematic formulas are a set of formulas that relate the five kinematic variables listed below . $ \delta x\quad\text { displacement } $ $ t\qquad\text { time interval } ~ $ $ v_0 ~~\quad\text { initial velocity } ~ $ $ v\quad ~~~\text { final velocity } ~ $ $ a \quad~~ \text { con...
\quad v=v_0+at \quad \text { ( this formula is missing $ \delta x $ . ) } $ $ 2 . \quad { \delta x } = ( \dfrac { v+v_0 } { 2 } ) t\quad \text { ( this formula is missing $ a $ .
if two objects a and b are thrown , object a is thrown upwards and object b is thrown downwards from some distance what signs should we use to get the kinematics formula s=ut +1/2 at^2 or s= ut - 1/2 at^2 ?
what are the kinematic formulas ? the kinematic formulas are a set of formulas that relate the five kinematic variables listed below . $ \delta x\quad\text { displacement } $ $ t\qquad\text { time interval } ~ $ $ v_0 ~~\quad\text { initial velocity } ~ $ $ v\quad ~~~\text { final velocity } ~ $ $ a \quad~~ \text { con...
in other words , the initial velocity $ v_0 $ has to be the velocity of the object at the initial position and start of the time interval $ t $ . similarly , the final velocity $ v $ must be the velocity at the final position and end of the time interval $ t $ being analyzed . what do solved examples involving the kine...
is there an equation which relates all five variables , distance , time , initial velocity , acceleration , and final velocity , together ?
what are the kinematic formulas ? the kinematic formulas are a set of formulas that relate the five kinematic variables listed below . $ \delta x\quad\text { displacement } $ $ t\qquad\text { time interval } ~ $ $ v_0 ~~\quad\text { initial velocity } ~ $ $ v\quad ~~~\text { final velocity } ~ $ $ a \quad~~ \text { con...
what are the kinematic formulas ? the kinematic formulas are a set of formulas that relate the five kinematic variables listed below . $ \delta x\quad\text { displacement } $ $ t\qquad\text { time interval } ~ $ $ v_0 ~~\quad\text { initial velocity } ~ $ $ v\quad ~~~\text { final velocity } ~ $ $ a \quad~~ \text { con...
when should i really use kinematic formulas ?
what are the kinematic formulas ? the kinematic formulas are a set of formulas that relate the five kinematic variables listed below . $ \delta x\quad\text { displacement } $ $ t\qquad\text { time interval } ~ $ $ v_0 ~~\quad\text { initial velocity } ~ $ $ v\quad ~~~\text { final velocity } ~ $ $ a \quad~~ \text { con...
what are the kinematic formulas ? the kinematic formulas are a set of formulas that relate the five kinematic variables listed below . $ \delta x\quad\text { displacement } $ $ t\qquad\text { time interval } ~ $ $ v_0 ~~\quad\text { initial velocity } ~ $ $ v\quad ~~~\text { final velocity } ~ $ $ a \quad~~ \text { con...
is that all these four kinematic formulas for on 2d y axis only ?
what are the kinematic formulas ? the kinematic formulas are a set of formulas that relate the five kinematic variables listed below . $ \delta x\quad\text { displacement } $ $ t\qquad\text { time interval } ~ $ $ v_0 ~~\quad\text { initial velocity } ~ $ $ v\quad ~~~\text { final velocity } ~ $ $ a \quad~~ \text { con...
in other words , the initial velocity $ v_0 $ has to be the velocity of the object at the initial position and start of the time interval $ t $ . similarly , the final velocity $ v $ must be the velocity at the final position and end of the time interval $ t $ being analyzed . what do solved examples involving the kine...
why is final velocity v and not vf ?