Consider 0.900 mol of an ideal diatomic gas that undergoes the following processes: A-B: A compression from a volume of 12.00×10-3 m3 up to a volume of 8.00×10-3 m3 at constant pressure of 4.04×105 Pa. B-C: It expands following a process that is a straight line on the pressure-volume diagram up to a volume of 9.34 ×10-3 m3 reaching a pressure of 5.19×105 Pa.
Consider 0.900 mol of an ideal diatomic gas that undergoes the following processes: A-B: A compression from a volume of 12.00×10-3 m3 up to a volume of 8.00×10-3 m3 at constant pressure of 4.04×105 Pa. B-C: It expands following a process that is a straight line on the pressure-volume diagram up to a volume of 9.34 ×10-3 m3 reaching a pressure of 5.19×105 Pa.
College Physics
11th Edition
ISBN:9781305952300
Author:Raymond A. Serway, Chris Vuille
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Chapter1: Units, Trigonometry. And Vectors
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Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...
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Consider 0.900 mol of an ideal diatomic gas that undergoes the following processes:
A-B: A compression from a volume of 12.00×10-3 m3 up to a volume of 8.00×10-3 m3 at constant pressure of 4.04×105 Pa.
B-C: It expands following a process that is a straight line on the pressure-volume diagram up to a volume of 9.34 ×10-3 m3 reaching a pressure of 5.19×105 Pa.
C-A: It expands isothermally until it reaches its starting point and closes the cycle.
For the described cycle:
A) Draw the P-V diagram and find the temperature values for each of the states cycle main.
B) Determine the work in each
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