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1. Idealized real-life engine Consider a heat engine that has an ideal gas (with heat capacity ratio of y and 5 degrees of freedom) as its working substance. The gas undergoes the cycle given in the figure, where processes 1-2 and 3-4 are reversible adiabatic process. What is the (a) total work done, (b) total heat absorbed, and (c) total heat released by the engine in one cycle? Compute the efficiency of the engine and express it in terms of the cut-off ratio a = and compression ration 7 =

1. Idealized real-life engine Consider a heat engine that has an ideal gas (with heat capacity ratio of y and 5 degrees of freedom) as its working substance. The gas undergoes the cycle given in the figure, where processes 1-2 and 3-4 are reversible adiabatic process. What is the (a) total work done, (b) total heat absorbed, and (c) total heat released by the engine in one cycle? Compute the efficiency of the engine and express it in terms of the cut-off ratio a = and compression ration 7 =

University Physics Volume 3
University Physics Volume 3
17th Edition
ISBN:9781938168185
Author:William Moebs, Jeff Sanny
Publisher:William Moebs, Jeff Sanny
Chapter11: Particle Physics And Cosmology
Section: Chapter Questions
Problem 53P: The 3.20-km-lfmg SLAC produces a beam of 50.0-GcV electrons. If there are 15,000 accelerating tubes,...
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1. Idealized real-life engine Consider a heat engine that has an ideal gas (with heat capacity ratio of y and degrees of freedom) as its working substance. The gas undergoes the cycle given in the figure, where processes 12 and 3-4 are reversible adiabatic process. What is the (a) tota! work done, (b) total heat absorbed, and (c) total heat released by the engine in one cycle? Compute the efficiency of the engine and express it in terms of the cut-off ratio a = V and compression ration 7 = V₂ Vi
Transcribed Image Text:1. Idealized real-life engine Consider a heat engine that has an ideal gas (with heat capacity ratio of y and degrees of freedom) as its working substance. The gas undergoes the cycle given in the figure, where processes 12 and 3-4 are reversible adiabatic process. What is the (a) tota! work done, (b) total heat absorbed, and (c) total heat released by the engine in one cycle? Compute the efficiency of the engine and express it in terms of the cut-off ratio a = V and compression ration 7 = V₂ Vi
P₂ = P3 P4 P P₁ 2 V₂ 3 V3 4 1 V₁ = V₁
Transcribed Image Text:P₂ = P3 P4 P P₁ 2 V₂ 3 V3 4 1 V₁ = V₁
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