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Are you portraying this as a situation where it is difficult to determine the entropy change using the classical equation?binis said:
Are you portraying this as a situation where it is difficult to determine the entropy change using the classical equation?binis said:Think of boiling water. Molecules transit from a more "ordered" state (liquid) to a less "ordered" state (gas).
Steam liquefaction is an examplePhilip Koeck said:I don't want to give away too much here, but do please follow up on Chestermiller's suggestion.
Gas compression. For stable temperature and pressure it is dS= nRlnVf/ViPhilip Koeck said:How would your statement work out for an ideal gas, for example?
You mean "compression," not "condensation," right? Your equation is only for an ideal gas at constant temperature, not for a real gas.binis said:Steam liquefaction is an example
Gas condensation. For stable temperature and pressure it is dS= nRlnVf/Vi
n=number of molecules, Vi=initial volume, Vf=final volume
If you extract an amount dQ then dQ<0 => dS<0 => Vi>Vf
Smaller volume means more "ordered" situation.
Well, an ideal gas can't really condensate. There are no forces between the gas molecules.binis said:Gas condensation. For stable temperature and pressure it is dS= nRlnVf/Vi
n=number of molecules, Vi=initial volume, Vf=final volume
If you extract an amount dQ then dQ<0 => dS<0 => Vi>Vf
Smaller volume means more "ordered" situation.
I mean the randomness increases, not the motion.Philip Koeck said:What I actually reacted to was that you specified constant T, but at the same time said that the random motion of the molecules (the average kinetic energy or the inner energy) increases due to added heat.
Yes, the motion becames more random. Mind that the entropy concept is aligned with math probability theory.Philip Koeck said:So, clearly, if you add heat to an ideal gas in an isothermal process entropy increase is not due to increased motion of the molecules. There's something else going on.
How does that look when the motion of gas molecules is more random?binis said:Yes, the motion becomes more random.
It looks less oriented.Philip Koeck said:How does that look when the motion of gas molecules is more random?
The motion of gas molecules never has a preferred direction when the gas is in equilibrium.binis said:It looks less oriented.
When motion is limited by a smaller volume we consider as it is less random. Anyway,this is my perception about Clausious entropy. You know that there are also Boltzmann,Shannon,Renyi,Tsallis & other definitions. It is a large debate of what entropy really is.Philip Koeck said:The motion of gas molecules never has a preferred direction when the gas is in equilibrium.
How can it become less oriented?
I think we've arrived at an important conclusion.binis said:When motion is limited by a smaller volume we consider as it is less random. Anyway,this is my perception about Clausious entropy. You know that there are also Boltzmann,Shannon,Renyi,Tsallis & other definitions. It is a large debate of what entropy really is.