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Entropy increase in adiabatic irreversible compression
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[QUOTE="jorgdv, post: 5003638, member: 416933"] Thank you for your answer. But which could be the reversible path? Clearly it's not isothermal since the final temperature changes. It is neither isobaric and it is not adiabatic since then the entropy change would then be 0 through all the path. I know that a reversible path is one in which the equilibrium is conserved in all instants, so that means that in an ideal gas ##PV=nRT## should hold in all the path. Does that mean that I can choose an arbitrary path for example in pressure, as long as that equation holds all the time? Do I have to parametrize it? [/QUOTE]
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Entropy increase in adiabatic irreversible compression
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