At the absolute zero, nothing moves which means time is halted. General relativity does NOT account for this, which is why we need to combine it with thermodynamics.
Thoughts?
Boo he ha ha?
Electrons do move at absolute zero
also absolute zero is impossible to create
>>8442252
-1/10
>>8442252
-1/12
>>8442252
are you telling me that two objects at absolute zero don't gravitate toward one another?
>>8442656
>Electrons do move at absolute zero
[citation needed]
>>8444482
look for "zero-point energy(motion)" familia
>>8444482
>(((Electrons)))
Don't mean
>Electron
https://en.wikipedia.org/wiki/One-electron_universe
>>8444489
>Feynman later proposed this interpretation of the positron as an electron moving backward in time
>>8442252
Except there's no conservation of energy in GR because time symetry is broken so good luck with that.
absolute 0 is really cold
>>8444444
>>8444485
this
Absolute zero wont ever be reached and is as irrelevant as g-orbitals.
>>8442252
Absolute zero is a quantum phenomena. Of course GR is not perfectly compatible with it.
>physics
>>>/x/
>>8442252
i could barely read the last word of the topic in one go. i dont think im smart enough for this discussion
>>8442252
Absolute zero is a limit. You can't actually get there, similar to you can't travel at the speed of light.
-273,15/10
>>8442252
>At the absolute zero, nothing moves
wrong-o, grav-olio
Lrn2absolute-zero