A sample of a diatomic ideal gas confined to a cylinder, is carried through a closed cycle. The gas is initially at 1.00 atm and at 300 K. First, its pressure is tripled under constant volume. Then, it expands adiabatically to its original pressure. Finally, the gas is compressed isobarically to its original volume. a. Draw a PV diagram of this cycle. b. Find the temperature of the gas at the start of the adiabatic expansion. c. Find the temperature at the end of the cycle.
A sample of a diatomic ideal gas confined to a cylinder, is carried through a closed cycle. The gas is initially at 1.00 atm and at 300 K. First, its pressure is tripled under constant volume. Then, it expands adiabatically to its original pressure. Finally, the gas is compressed isobarically to its original volume. a. Draw a PV diagram of this cycle. b. Find the temperature of the gas at the start of the adiabatic expansion. c. Find the temperature at the end of the cycle.
Principles of Physics: A Calculus-Based Text
5th Edition
ISBN:9781133104261
Author:Raymond A. Serway, John W. Jewett
Publisher:Raymond A. Serway, John W. Jewett
Chapter17: Energy In Thermal Processes: The First Law Of Thermodynamics
Section: Chapter Questions
Problem 48P: An ideal gas with specific heat ratio confined to a cylinder is put through a closed cycle....
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A sample of a diatomic ideal gas confined to a cylinder, is carried through
a closed cycle. The gas is initially at 1.00 atm and at 300 K. First, its pressure is tripled under constant volume. Then, it expands adiabatically
to its original pressure. Finally, the gas is compressed isobarically to its
original volume.
a. Draw a PV diagram of this cycle.
b. Find the temperature of the gas at the start of the adiabatic expansion.
c. Find the temperature at the end of the cycle.
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