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If space is not actually a void, then there's something shooting around in it, I'm guessing a lot like molecules in a gas. Could we apply a $(PV/T = k)$ -like gas law to it. Obviously we're not measuring a regular everyday gas but some theoretical "fluid" that we don't know enough about yet. Also regular radiation might also be part of the total pressure, and there's a wikipedia article on that.

What are your thoughts on this?

If there is such a fluid, and it obeys the gas law, then there's either an infinite amount of this fluid in our currently observable universe or the universe is finite in volume.

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Inside the solar system the solar wind consists of sub-atomic particles that form a plasma, one of the four states (phases) of matter along with solid liquid and gas. Plasma is basically a gas of charged particles--normal gas laws don't apply as moving charges create magnetic fields and magnetic fields influence moving charges, thermodynamic gas laws assume equilibrium which won't generally be present. From Wikipedia:

In the universe, plasma is the most common state of matter for ordinary matter, most of which is in the rarefied intergalactic plasma (particularly intracluster medium) and in stars.

Perhaps concepts like pressure can still be broadly applied at the scales "space" implies. For example the Heliopause could be seen as the the sphere where the outward pressure of the solar wind equals the inward pressure of winds from extra-solar sources. Also see solar sail. The Wikipedia article evokes "radiation pressure" but connecting that to a gas law would be drawing a very long bow.

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  • $\begingroup$ @Nathaniel Wouldn't QFT imply virtual particles? Not clear how that would connect with the gas concept or even the EM radiation pressure article linked. Would be interested in seeing any QFT answer. $\endgroup$
    – baldrik
    Commented Apr 2, 2014 at 14:56
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In a sense this could be an interpretation of gravitational waves. In this case, anything with energy or mass or momentum (relating by the stress-energy tensor in GR) could bend space-time producing gravitational waves.

hopefully I'm understanding you correctly.

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  • $\begingroup$ I don't understand how gravity waves enter the picture here. $\endgroup$
    – Daniel Donnelly
    Commented Mar 31, 2014 at 0:19
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    $\begingroup$ They can represent the radiation given out by space in the presence of mass. I might be completely misunderstanding you, please tell me if I am. $\endgroup$
    – PhotonBoom
    Commented Mar 31, 2014 at 0:21
  • $\begingroup$ What does the total picture of space look like with all known particles / radiation / etc moving around in it? Could you provide a link with some pics? $\endgroup$
    – Daniel Donnelly
    Commented Mar 31, 2014 at 0:28
  • $\begingroup$ Are you asking how space curves when matter flows through it? $\endgroup$
    – PhotonBoom
    Commented Mar 31, 2014 at 0:29
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    $\begingroup$ @EnjoysMath please don't accept this answer, it doesn't really address your question properly at all. There is a right answer to your question, but nobody has posted it yet. (I'd give it a go myself, only I don't know enough about quantum field theory, which is what you need to answer your question properly.) $\endgroup$
    – N. Virgo
    Commented Apr 2, 2014 at 9:58

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