10. Calculate the temperature after adiabatic compression of a gas to 10.0 atmospheres pressure from initial conditions of 1 atmosphere and 300 k (a) for air, (b) for helium (assume the gases are ideal).
10. Calculate the temperature after adiabatic compression of a gas to 10.0 atmospheres pressure from initial conditions of 1 atmosphere and 300 k (a) for air, (b) for helium (assume the gases are ideal).
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Subject: Statistical Physics
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Transcribed Image Text:9. One mole of a monatomic perfect gas initially at temperature To expands from volume Vo and 2Vo, (a)
at a constant temperature, (b) at constant pressure. Calculate the work of expansion and the heat
absorbed by the gas in each case.
10. Calculate the temperature after adiabatic compression of a gas to 10.0 atmospheres pressure from
initial conditions of 1 atmosphere and 300 k (a) for air, (b) for helium (assume the gases are ideal).
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