1 mole of monatomic ideal gas initially at a volume of 2 L and a pressure of 10 atm is processed through a cycle where it first expands isothermally and reversibly to a final pressure of 2.5 atm, is then reversibly and isochorically cooled to a final temperature of 97.32 K, and then is reversibly and adiabatically compressed back to the initial state. 1. Determine the total work for the cycle 2. Determine change in internal energy for the cycle

1 mole of monatomic ideal gas initially at a volume of 2 L and a pressure of 10 atm is processed through a cycle where it first expands isothermally and reversibly to a final pressure of 2.5 atm, is then reversibly and isochorically cooled to a final temperature of 97.32 K, and then is reversibly and adiabatically compressed back to the initial state. 1. Determine the total work for the cycle 2. Determine change in internal energy for the cycle

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Question

1 mole of monatomic ideal gas initially at a volume of 2 L and a pressure of 10
atm is processed through a cycle where it first expands isothermally and
reversibly to a final pressure of 2.5 atm, is then reversibly and isochorically cooled
to a final temperature of 97.32 K, and then is reversibly and adiabatically
compressed back to the initial state. 1. Determine the total work for the cycle 2.
Determine change in internal energy for the cycle

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