Before i get to the questions I have; I am a high school student. We are not asked to understand thermodynamics nor real gases. I'm simply trying to understand the topic without diving too much into the calculations/derivations.
- 1): Why does sudden expansion of (most) gases cause a cooling effect?
- 1.1): Looking at the horrible paint drawing of two chambers and a tube connecting them (V1=V2),(P1 > P2). Why is (T2 < T1) after the expansion?
- 2): Why do helium and hydrogen cause a positive temperature difference while all other gases cause a negative one?
My best attempt to explain these problems was the following:
Looking at the Lennard-Jones potential graph,
If atoms are super close; there is a repulsion (positive potential energy)
and when they are at medium range they attract each other (negative potential energy).
Gases flow through c1 to c2 because of the pressure difference (or because of a piston) and as they go through the tube this pressure difference is converted to negative potential energy for gas molecules. Therefore when leaving the tube, they use their own kinetic energy to get out of this bond (it is not a bond, but I don't think I have any other way of phrasing it); which cools the right chamber. Making T2 < T1
For hydrogen and helium, as they have only one shell, they can get nearer to each other which creates a positive potential energy. This potential energy then turns into kinetic energy when entering the second chamber. Making T2 > T1
I feel like I'm quite off from what's actually going on, so any help is appreciated.
