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Froggmann5 t1_is1fmuj wrote

Hypothetical question

Imagine you had a 1x1x1 cubic ft area of nothing but space. This is all that exists. Now imagine you teleported in a particle into the middle of this area. Does the total amount of space inside the cube increase, decrease, or stay the same? Does the space inside "move out of the way" to "make room" for the new object?

EDIT: To make it a bit more clear, I'm changing the example from a bowling ball to just a single particle.

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Brickleberried t1_is1wzmq wrote

Space is just emptiness. It won't expand if you put something in it. Just think of it as an imaginary grid.

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Froggmann5 t1_is20tr1 wrote

> Space is just emptiness.

I know enough to know that this isn't even remotely true, which is what prompted my question to begin with.

Regardless, this also doesn't answer my question even if it was the case that it was just "emptiness". Since space is a dimension through which all things have relative positions/directions, does the distance across the cubic ft of area I outlined increase, or decrease, if we were to add a particle of matter to it?

If it's 1ft in distance across this space, does adding a particle also add a particles worth of distance to that space?

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Wooden_Ad_3096 t1_is4y1ez wrote

Nothing changes about the space in that area, since space literally is just nothingness, like the previous guy said.

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Froggmann5 t1_is5j1pf wrote

> Nothing changes about the space in that area, since space literally is just nothingness

This goes against every paper I can find on Google scholar about the subject. Do you have a source for this?

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Wooden_Ad_3096 t1_is5j6et wrote

That’s just the definition of space, is it not?

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Froggmann5 t1_is5k6bl wrote

No. "Nothingness" implies the lack of space. When people talk about the vast distances between objects they talk about "empty space" but not a lack of space itself. Space is separate and distinguishable from nothingness.

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Indemnity4 t1_ismz8ai wrote

Depends on the walls of the container.

Essentially, you are describing a compressor or something like a bike pump.

In a rigid container you will get a pressure change, but not a volume change.

Example: you have a shipping container and inside is a balloon that is plumbed through the floor into an external air pipe. Suck all the air out of the container. It's full of space (or another way to put it, there is almost zero particles of anything inside the container. For ease of numbers, lets say the pressure in the container is about 10^-4 Torr. Now, pump air into the balloon to expand. You will be compressing the tiny amount of particles inside the container. The walls won't expand, so all you are doing is increasing the pressure in the "empty space". So maybe the pressure goes up to 10^-3 Torr by filling up the volume inside your container with something else.

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Froggmann5 t1_isofrnw wrote

> Depends on the walls of the container.

The 'walls' of my 'container' are the same 'walls' our universe would have at its 'edge' if it isn't infinite.

The space I'm describing is effectively its own universe, a small 1x1x1 sqft space of space, and that's all there is.

The ultimate end of my question rests on whether or not particles are a type of space. If they are, then they should have a measurable effect on the amount of "space" in an area when present. If they are not then no matter the amount of particles that are inside that space they won't have any impact on how much space is in this universe. (for instance, you could have the same amount of particles that our sun has in its sum total in that same small space and the size of the space would be unaffected completely by the presence of the gargantuan amount of particles).

> You will be compressing the tiny amount of particles inside the container.

This begs the question that I'm asking though, whether or not a particle is a type of space. If it is, then it stands to reason that it would cause a compression effect on the space around it. If not then it would only compress the particles around it and leave the space unaffected.

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Indemnity4 t1_isv0bnc wrote

> Terry Pratchett — 'In the beginning there was nothing, which exploded.

IMHO your problem is about words and not mathematics. Here are a couple of definitions that hopefully help.

Space is typically defined as absence of "stuff". It has no volume, zero mass, zero momentum, zero electric charge. You can't push it around, or expand it, or do anything to it. Space is dependent on things happening to other stuff.

Particles do have mass, volume, momentum, electric charge, etc. They affect their surroundings.

Interstellar space contains about 100,000 particles per cubic metre. That sounds like a lot, hundreds of thousands!, but it's relatively empty.

Your hypothesis changes depending if you define "space" as interstellar space or as a hard vacuum with all particles removed.

Real world: a random area of interstellar space. If you add one more particle, nothing changes as you've increased the density by a tiny immeasurable amount.

Thought experiment: big container with rigid or flexible walls and absolutely nothing inside. You add one particle. Nothing changes. One particle isn't exerting force on anything, it's not pushing on anything, it's not interacting with your magical thought experiment walls. Nothing changes.

End result of your thought experiment is nothing changes.

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Froggmann5 t1_isvqxc1 wrote

> Space is typically defined as absence of "stuff". It has no volume, zero mass, zero momentum, zero electric charge. You can't push it around, or expand it, or do anything to it.

You have this completely wrong. The easiest thing I can point you to is that space itself is literally expanding. This has been known, demonstrated, and studied for a long while now.

> Particles do have mass, volume, momentum, electric charge, etc. They affect their surroundings.

This is also at least partially incorrect. Particles like Photons do not have mass for example.

> Your hypothesis changes depending if you define "space" as interstellar space or as a hard vacuum with all particles removed.

I suppose I'll supply this definition of space instead then to make it easier for you to understand the hypothetical:

> the dimensions of height, depth, and width within which all things exist and move.

Moving forward this also shows your misunderstanding of my hypothetical when you try to rebut it with your own example:

> big container with rigid or flexible walls and absolutely nothing inside. You add one particle. Nothing changes. One particle isn't exerting force on anything, it's not pushing on anything, it's not interacting with your magical thought experiment walls. Nothing changes.

This is disanalogous, because your first sentence contradicts. If "Nothing" is inside, how is there an "inside" of the container at all? Saying there's an "inside" implies there's some amount of space within the container for something to be.

In fact this just inspires a better question: If you had a universe of absolutely nothing with no space/time/anything at all, and you add a particle to it, does this also add space to that universe?

> End result of your thought experiment is nothing changes.

I'm afraid your misunderstanding of the very nature of space (and consequently from that, you misunderstood, my hypothetical) led you to this conclusion.

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Indemnity4 t1_isvznvg wrote

I think a sticking point in any discussion you have is "space"=nothing/vacuum/emptycontainer versus "space"=interstellar medium (where stars and spaceships do their business).

Every person who has responded to you has assumed you are talking about a container full of vacuum. Because that's what those words mean.

One answer to your question about a universe without particles and how to measure it is may be what happened before the Big Bang? The "universe" was a singularity about the size of a peach. However, it was full of stuff and not empty.

The other answer is what is outside our universe? e.g. you have an area of "space" with nothing in it, then you add a particle, what happens?

The answer is... nobody knows. The observable universe has always had stuff in it, so the size/distance/volume is measure by taking two of those points. Physics no longer works when you are talking about a universe without particles. There is no distance unless you are measuring how far apart two things are. There is no pressure without having a container.

Your scenario of a "universe" with nothing it but somehow it has reference points for scale 1m x 1m x 1m, that can't happen. There is no way to get a reference point.

Maybe the closest you will get is within string theory - it lets you have a "universe" without particles. At some point the universe was a mass of 1 dimensional strings vibrating (so we don't have 3 dimension like 1m x 1m x 1m anymore). One of those flipping in a weird way that lead to the formation of the first particle. That caused a chain reaction which created more and more particles that lead to the universe.

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