a) Compute the work associated with the isothermal, reversible expansion of 1.0 mol of an ideal gas from 7.0 L to 15.50L at 25celcius.
b.) Compute the work associated with the irreversible adiabatic expansion of the sample of gas described in part a) against a constant atmospheric pressure of 760Torr.
c.) Explain how will the temperature of the gas in part (b) compare with that in part (a) after the expansion?