An ideal gas of 74.928moles is taken through the following cycle: 1. Expansion at constant pressure of 1.257 atm from 1.2m³ to 2.06m³ 2. Cooling at constant volume to a pressure of 0.554atm 3. Compression at constant pressure to a final volume of 1.2m³ 4. Heating at constant volume to a final pressure of 1.257atm Determine the magnitude of the temperature difference between the points where the pressure and volume are 1.257 atm, 1.2m³ and the point where the pressure and volume are 0.554atm, 2.06 m³ (in °C)
An ideal gas of 74.928moles is taken through the following cycle: 1. Expansion at constant pressure of 1.257 atm from 1.2m³ to 2.06m³ 2. Cooling at constant volume to a pressure of 0.554atm 3. Compression at constant pressure to a final volume of 1.2m³ 4. Heating at constant volume to a final pressure of 1.257atm Determine the magnitude of the temperature difference between the points where the pressure and volume are 1.257 atm, 1.2m³ and the point where the pressure and volume are 0.554atm, 2.06 m³ (in °C)
College Physics
11th Edition
ISBN:9781305952300
Author:Raymond A. Serway, Chris Vuille
Publisher:Raymond A. Serway, Chris Vuille
Chapter1: Units, Trigonometry. And Vectors
Section: Chapter Questions
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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Transcribed Image Text:An ideal gas of 74.928moles is
taken through the following
cycle:
1. Expansion at constant
pressure of 1.257 atm
from 1.2m³ to 2.06m³
2. Cooling at constant
volume to a pressure of
0.554atm
3. Compression at constant
pressure to a final volume
of 1.2m³
4. Heating at constant
volume to a final pressure
of 1.257 atm
Determine the magnitude of
the temperature difference
between the points where the
pressure and volume are
1.257 atm, 1.2m³ and the
point where the pressure and
volume are 0.554atm, 2.06
m³
(in °C)
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