1) One mole of a van der Waals fluid with empirical constants a and b is contained within a cylinder connected to a piston. The initial volume of the gas is v, and the initial temperature of the gas is T;.The piston moves slowly so that the gas is compressed to half its volume. In this process, the temperature doubles. A reversible heat source with constant heat capacity Cand initial temperature T, is in thermal contact with the gas. a) Calculate the maximum work that can be delivered to a reversible work source in this process. b) If no work is produced, calculate the final temperature of the reversible heat source after this process takes place.

Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
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1) One mole of a van der Waals fluid with empirical constants a and b
contained within a
cylinder connected to a piston. The initial volume of the gas is v, and the initial temperature of
the gas is T,.The piston moves slowly so that the gas is compressed to half its volume. In this
process, the temperature doubles. A reversible heat source with constant heat capacity C and
initial temperature T, is in thermal contact with the gas.
a) Calculate the maximum work that can be delivered to a reversible work source in this
process.
b) If no work is produced, calculate the final temperature of the reversible heat source after
this process takes place.
Transcribed Image Text:1) One mole of a van der Waals fluid with empirical constants a and b contained within a cylinder connected to a piston. The initial volume of the gas is v, and the initial temperature of the gas is T,.The piston moves slowly so that the gas is compressed to half its volume. In this process, the temperature doubles. A reversible heat source with constant heat capacity C and initial temperature T, is in thermal contact with the gas. a) Calculate the maximum work that can be delivered to a reversible work source in this process. b) If no work is produced, calculate the final temperature of the reversible heat source after this process takes place.
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