Five moles of an experimental monatomic gas in a Carnot cycle between the temperatures 27.0 °C and 127 °C, the minimum volume they occupied is 10.0m3 and the maximum volume is 18.0 m3. (CV=3R/2 , CP=5R/2, R=8.31 J/mol.K, 1cal=4.186 J; y=5/3) Determine: a). The highest pressure and the lowest pressure in the cycle. b). The volume and pressure of the system at the end of each isothermal process. C). The heat absorbed, the heat expelled and the work done.
Five moles of an experimental monatomic gas in a Carnot cycle between the temperatures 27.0 °C and 127 °C, the minimum volume they occupied is 10.0m3 and the maximum volume is 18.0 m3. (CV=3R/2 , CP=5R/2, R=8.31 J/mol.K, 1cal=4.186 J; y=5/3) Determine: a). The highest pressure and the lowest pressure in the cycle. b). The volume and pressure of the system at the end of each isothermal process. C). The heat absorbed, the heat expelled and the work done.
Chemistry
10th Edition
ISBN:9781305957404
Author:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste
Publisher:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste
Chapter1: Chemical Foundations
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Five moles of an experimental monatomic gas in a Carnot cycle between the temperatures
27.0 °C and 127 °C, the minimum volume they occupied is 10.0m3 and the maximum volume is
18.0 m3. (CV=3R/2 , CP=5R/2, R=8.31 J/mol.K, 1cal=4.186 J; y=5/3) Determine:
a). The highest pressure and the lowest pressure in the cycle.
b). The volume and pressure of the system at the end of each isothermal process.
C). The heat absorbed, the heat expelled and the work done.
d). If each cycle runs it in 0.400 s, find the power and efficiency of the machine.
(CV = Specific heat in constant volume)
(CP = Specific Heat in constant pressure)
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