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Be the first to find the answers to the following simple questions:
Quantum gravity
- How can quantum mechanics and general relativity be realized as a fully consistent quantum field theory?
- Is spacetime fundamentally continuous or discrete?
- Would a consistent theory involve a force mediated by a hypothetical graviton, or be a product of a discrete structure of spacetime itself (as in loop quantum gravity)?
- Are there deviations from the predictions of general relativity at very small or very large scales or in other extreme circumstances that flow from a quantum gravity theory?
Have fun! It is really easy!
 
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this looks like someone wants their homework done for them 
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On April 21 2010 12:55 BDF92 wrote:this looks like someone wants their homework done for them
LOL
A clever admin could indeed do something like that in exchange for a beta key hahaha
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I'm sure the answers have to do with colour-blindness.
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On April 21 2010 12:54 EsX_Raptor wrote:Be the first to find the answers to the following simple questions: Quantum gravity- How can quantum mechanics and general relativity be realized as a fully consistent quantum field theory?
- Is spacetime fundamentally continuous or discrete?
- Would a consistent theory involve a force mediated by a hypothetical graviton, or be a product of a discrete structure of spacetime itself (as in loop quantum gravity)?
- Are there deviations from the predictions of general relativity at very small or very large scales or in other extreme circumstances that flow from a quantum gravity theory?
Have fun! It is really easy!
rofl.
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There are no answers for these questions, not yet..
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Ya valiste verga raptorcito xD
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On April 21 2010 12:58 Nightmarjoo wrote:
I'm sure the answers have to do with colour-blindness.
HAHAHA
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ANSWER:
![[image loading]](http://www.smbc-comics.com/comics/20090309.gif)
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On April 21 2010 13:05 the first to find the answers to the following simple questions wrote:
i am the first to find the answers to the following simple questions, and i clicked here. do i get the beta key now? =) win!
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God made it that way
when can i get my key :D
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On April 21 2010 13:05 Nal_rAwr wrote:Show nested quote +On April 21 2010 13:05 the first to find the answers to the following simple questions wrote:
i am the first to find the answers to the following simple questions, and i clicked here. do i get the beta key now? =) win!
Hahaha clever.
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The answer is really easy
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On April 21 2010 12:55 BDF92 wrote:this looks like someone wants their homework done for them
lol! More like he wants some of the most fundamental problems in physics solved by TL. Get crackin', nerds.
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Oh my fucking god this is hilarious.
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+ Show Spoiler [hint] +General covariance and background independence
General covariance, also known as "diffeomorphism invariance", is the invariance of physical laws under arbitrary coordinate transformations. An example of this are the equations of general relativity, where this symmetry is one of the defining features of the theory. LQG preserves this symmetry by requiring that the physical states remain invariant under the generators of diffeomorphisms. The interpretation of this condition is well understood for purely spatial diffemorphisms. However, the understanding of diffeomorphisms involving time (the Hamiltonian constraint) is more subtle because it is related to dynamics and the so-called problem of time in general relativity. A generally accepted calculational framework to account for this constraint is yet to be found.
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i have discovered a truly marvelous proof that at a certain level it is impossible to split spacetime into smaller quantities. This post is too narrow to contain it.
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On April 21 2010 13:14 EsX_Raptor wrote:+ Show Spoiler [hint] +General covariance and background independence
General covariance, also known as "diffeomorphism invariance", is the invariance of physical laws under arbitrary coordinate transformations. An example of this are the equations of general relativity, where this symmetry is one of the defining features of the theory. LQG preserves this symmetry by requiring that the physical states remain invariant under the generators of diffeomorphisms. The interpretation of this condition is well understood for purely spatial diffemorphisms. However, the understanding of diffeomorphisms involving time (the Hamiltonian constraint) is more subtle because it is related to dynamics and the so-called problem of time in general relativity. A generally accepted calculational framework to account for this constraint is yet to be found.
For some reason, after reading this, I lost the game. 
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On April 21 2010 13:15 IndecisivePenguin wrote:Show nested quote +On April 21 2010 13:14 EsX_Raptor wrote:+ Show Spoiler [hint] +General covariance and background independence
General covariance, also known as "diffeomorphism invariance", is the invariance of physical laws under arbitrary coordinate transformations. An example of this are the equations of general relativity, where this symmetry is one of the defining features of the theory. LQG preserves this symmetry by requiring that the physical states remain invariant under the generators of diffeomorphisms. The interpretation of this condition is well understood for purely spatial diffemorphisms. However, the understanding of diffeomorphisms involving time (the Hamiltonian constraint) is more subtle because it is related to dynamics and the so-called problem of time in general relativity. A generally accepted calculational framework to account for this constraint is yet to be found. For some reason, after reading this, I lost the game.
... FUUUUUUUUUU
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On April 21 2010 13:12 Faronel wrote:
The answer is really easy
DAMNIT! Tell us how SCII is for you ;D
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i have no god damn clue wtf is up with that all i know is that i want a key but i wont get it from here.
The answer is really hard
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On April 21 2010 13:26 obesechicken13 wrote:
42!
I said it first :D
I want my key!
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On April 21 2010 12:54 EsX_Raptor wrote:Be the first to find the answers to the following simple questions: Quantum gravity- How can quantum mechanics and general relativity be realized as a fully consistent quantum field theory?
- Is spacetime fundamentally continuous or discrete?
- Would a consistent theory involve a force mediated by a hypothetical graviton, or be a product of a discrete structure of spacetime itself (as in loop quantum gravity)?
- Are there deviations from the predictions of general relativity at very small or very large scales or in other extreme circumstances that flow from a quantum gravity theory?
Have fun! It is really easy!
1. String theory
2. continuous
3 force mediated by a hypothetical graviton aka the 13th diminsion
4No
i gave it a shot...
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On April 21 2010 13:29 Ginko wrote:Show nested quote +On April 21 2010 12:54 EsX_Raptor wrote:Be the first to find the answers to the following simple questions: Quantum gravity- How can quantum mechanics and general relativity be realized as a fully consistent quantum field theory?
- Is spacetime fundamentally continuous or discrete?
- Would a consistent theory involve a force mediated by a hypothetical graviton, or be a product of a discrete structure of spacetime itself (as in loop quantum gravity)?
- Are there deviations from the predictions of general relativity at very small or very large scales or in other extreme circumstances that flow from a quantum gravity theory?
Have fun! It is really easy! 1. String theory 2. continuous 3 force mediated by a hypothetical graviton aka the 13th diminsion 4No i gave it a shot...
lol
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pretty sure this is a troll
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1. Magic
2. Spacetime is either fundamentally continuous or discrete
3. Maybe
4. Probably
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The answer is really really easy.
It's his penis.
+ Show Spoiler +Because it touches the water.
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FREEAGLELAND26781 Posts
Oh this is hilarious, keke.
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On April 21 2010 13:03 davidgurt wrote:ANSWER:
lol
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All of the theoretical divergences are the product of non-linear wave functions of gravity in the 4th and 5th dimensional plane. The reconversion of gravitational material from informational wavelengths provides for irregularities at both the micro and macro level. Naturally enough, it follows that spacetime is NOT discrete. The ultimate preservation of information in the form of the graviton or a supra-spacial wavelength provides for this consistency.
Pay up
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Do we really get beta keys if we answer this? Since there are only theories to these questions, I will form my own theory:
"What the hell is Quantium Mechanics? I'm not taking AP Physic yet"
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On April 21 2010 12:54 EsX_Raptor wrote:Be the first to find the answers to the following simple questions: Quantum gravity- How can quantum mechanics and general relativity be realized as a fully consistent quantum field theory?
- Is spacetime fundamentally continuous or discrete?
- Would a consistent theory involve a force mediated by a hypothetical graviton, or be a product of a discrete structure of spacetime itself (as in loop quantum gravity)?
- Are there deviations from the predictions of general relativity at very small or very large scales or in other extreme circumstances that flow from a quantum gravity theory?
Have fun! It is really easy!
[*] Not al all
[*]Discrete
[*]Hypotetical graviton
[*]No the general relativity rules
Poll: How can quantum mechanics and general relativity be realized as a fullNot at all (3) 100% A little (0) 0% At all (0) 0% 3 total votes Your vote: How can quantum mechanics and general relativity be realized as a full (Vote): Not at all
(Vote): A little
(Vote): At all
Poll: Is spacetime fundamentally continuous or discrete?Discrete (6) 100% Continuous (0) 0% 6 total votes Your vote: Is spacetime fundamentally continuous or discrete? (Vote): Continuous
(Vote): Discrete
Poll: Would a consistent theory involve a force mediated by hypothetical graviton (3) 75% product of a discrete structure of spacetime (1) 25% 4 total votes Your vote: Would a consistent theory involve a force mediated by (Vote): hypothetical graviton
(Vote): product of a discrete structure of spacetime
Poll: Are there deviations from the predictions of general relativityYes (2) 40% No (1) 20% Large scale (1) 20% Small scale (1) 20% 5 total votes Your vote: Are there deviations from the predictions of general relativity (Vote): Yes
(Vote): No
(Vote): Large scale
(Vote): Small scale
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On April 21 2010 14:10 Ginko wrote:
All of the theoretical divergences are the product of non-linear wave functions of gravity in the 4th and 5th dimensional plane. The reconversion of gravitational material from informational wavelengths provides for irregularities at both the micro and macro level. Naturally enough, it follows that spacetime is NOT discrete. The ultimate preservation of information in the form of the graviton or a supra-spacial wavelength provides for this consistency.
Pay up
Nice attempt at throwing together some bullshit. Sounds somewhat legit and consistent, but I know just enough about the subject at hand to know this is BS.
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1. How? if someone proves they can.
2. Yes (using and/or theory)
3. Yes (using and/or theory)
4. Yes (using and/or theory)
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On April 21 2010 12:54 EsX_Raptor wrote:Be the first to find the answers to the following simple questions: Quantum gravity- How can quantum mechanics and general relativity be realized as a fully consistent quantum field theory?
String theory was initially supposed to tie it all together (no pun intended), but string theory seems to be fading into the background currently. I not really up on the bleeding edge of theoretical physics at the moment so I can't really even try to formulate an answer. I'd imagine the Large Hadron Collider will answer some questions whenever they actually get it up and running.
[*]Is spacetime fundamentally continuous or discrete?
I guess this depends on your take on how the universe started. If you accept the oscillating universe theory then it would be continuous (i.e. Big Bang, then Big Crunch, then Big Bang, ect for all eternity, and has always been that way). The universe has either A.) Always been there B.) Was created or C.) Matter appeared from nothing
[*]Would a consistent theory involve a force mediated by a hypothetical graviton, or be a product of a discrete structure of spacetime itself (as in loop quantum gravity)?
To my knowledge the only forces currently in existence are Strong, Weak, Electromagnetic, and Gravitational. Based on this this knowledge I think the answer is no.
[*]Are there deviations from the predictions of general relativity at very small or very large scales or in other extreme circumstances that flow from a quantum gravity theory?
There's no way we can actually disprove the predictions of general relativity and it has been correct thus far so it is currently accepted the way it is.
Have fun! It is really easy!
This was my best attempt based on my current knowledge... cheers
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1- Superstring theory makes quantum mechanics and general relativity realized as a fully consistent quantum field theory
2- Spacetime is fundamentally Discrete
3- The consistent theory involves a force mediated by a hypothetical graviton
4- The deviations are at very small scales
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Hahaha hilarious. Especially at all the people who haven't read the thread and are posting answers.
There is a link to SC2 Beta Key Challenge #4, the one posted by RiCH. There, EsX_raptor made another epic troll. Read the thread posts by Rich and him to understand.
+ Show Spoiler +
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On April 21 2010 13:15 jonnyp wrote:
i have discovered a truly marvelous proof that at a certain level it is impossible to split spacetime into smaller quantities. This post is too narrow to contain it.
LOL. Fermat was a genius.
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i'll give my beta key to whoever can prove that all even numbers > 2 are the sum of two primes.
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EPT
