One mole of an ideal gas, in the initial state T=300K, P=10atm, is contained in a piston and is subjected to each following process. (R=8.314 J/mol-K or 0.082 atm-L/mol-K)- (1) The gas is irreversibly expanded at an adiabatic condition until its pressure becomes 1 atm. Calculate the final temperature. (external pressure = 1 atm)< (2) The gas performs 753.12J of work while it undergoes an adiabatic expansion. Calculate the final temperature. (3) The gas absorbs 50J of heat and performs 100J of work. Calculate the final temperature.e

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One mole of an ideal gas, in the initial state T=300K, P=10atm, is contained in a piston and is
subjected to each following process. (R=8.314 J/mol-K or 0.082 atm-L/mol-K)
(1) The gas is irreversibly expanded at an adiabatic condition until its pressure becomes 1 atm.
Calculate the final temperature. (external pressure = 1 atm)
(2) The gas performs 753.12J of work while it undergoes an adiabatic expansion. Calculate the final
temperature.
(3) The gas absorbs 50J of heat and performs 100J of work. Calculate the final temperature.
(4) 8314J of heat is absorbed during a reversible isothermal expansion. What is the final volume of
gas?-
(5) The pressure of gas decreases to 1 atm at a constant volume condition. Calculate the change in
entropy.e
Transcribed Image Text:One mole of an ideal gas, in the initial state T=300K, P=10atm, is contained in a piston and is subjected to each following process. (R=8.314 J/mol-K or 0.082 atm-L/mol-K) (1) The gas is irreversibly expanded at an adiabatic condition until its pressure becomes 1 atm. Calculate the final temperature. (external pressure = 1 atm) (2) The gas performs 753.12J of work while it undergoes an adiabatic expansion. Calculate the final temperature. (3) The gas absorbs 50J of heat and performs 100J of work. Calculate the final temperature. (4) 8314J of heat is absorbed during a reversible isothermal expansion. What is the final volume of gas?- (5) The pressure of gas decreases to 1 atm at a constant volume condition. Calculate the change in entropy.e
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