Molecular Model of an Ideal Gas Question

AI Thread Summary
When a gas expands freely after the removal of a piston, the volume increases, leading to less frequent molecular collisions. According to the molecular model of an ideal gas, this reduced collision frequency results in a decrease in the average kinetic energy (KE) of the molecules. Since temperature is directly related to the average KE, the temperature of the gas decreases during expansion. Additionally, the decrease in pressure due to increased volume contributes to lower molecular velocity. Overall, both explanations highlight that the temperature drop is a consequence of reduced molecular activity during expansion.
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Homework Statement


Gas is allowed to expand freely when the force of a piston is removed. In terms of the molecular model of an ideal gas, explain why the temperature decreases when it expands.


Homework Equations



Molecular model of an ideal gas

The Attempt at a Solution



When the force of a piston is removed, the volume expands. Give that the molecular model of an ideal gas says that molecules collide with each other, now that there's more volume, the molecules will collide less frequently. Since temperature = average KE of molecules, now that they collide with each other less, the KE decreases so temp decreases as well.


Is this correct? I feel like I'm mixing terms here but I don't know what.
 
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here's an alternate answer:

Given that P = F/A, when the volume expands, the pressure decreases. This means that the molecules hit the walls with less, and so the force exerted back to them is lower, thus their velocity is also lower. Since temp = ke = velocity of molecules, the temperature decreases.

Better?
 

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