An Esoteric Physics Question

So we’ve all heard of the Heisenberg Uncertainty Principle, even if most of us are pretty vague on what it actually is. It’s a twist of quantum mechanics that says that you can’t know exactly both the location and the momentum of any object. The more certain you are of the momentum of a particle, the more the particle is smeared in a blur of probability.

A very cool side effect: Let’s say you have a cup of chicken soup, and you cool it way down. Colder, colder, colder… until your soup is almost to absolute zero. Absolute zero is when all the soup particles have zero momentum – they’re at a dead stop.

That’s exactly zero.

Do you know where your absolute-zero chicken soup is? No, you do not. It is quite literally everywhere.

Let’s back up a bit. As you get close to absolute zero, the soup particles start to smear out and blend with each other, until the entire cup of chicken soup behaves (in some ways) as a single, wacky chicken soup particle. I was trying to remember the name for this state of matter, but ‘wacky particle when supercooled chicken soup particles’ waveforms merge’ didn’t come up with anything useful. Maybe I should have tried Bing.

Anyway, here’s my question for the physics geeks among you. If you take a very small cup of chicken soup, and cool it down until it’s starting to smear out, then (somehow) cool it down some more really fast, so that suddenly the soup is spread over a volume the size of our solar system (it’s not a linear smear, more of a bell curve), is that change bound by the speed of light?

3 thoughts on “An Esoteric Physics Question

  1. I am aware that as soon as the cup of soup expanded past the dimensions of your refrigerator you would no longer be able to cool it down further. So you might have to modify the experiment just a wee bit.

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