Five moles of anideal gas expends reversily from a volume of`8dm^(3)`at a temperature of`27^(@)C`Calculate the change in entropy.

5 mol of an ideal gas expands reversibly from a volume of 8 dm^(3) at a temperature of 27^(@)C . Calculate the chngae in entropy.

5 mol of an ideal gas expand reversibly from a volume of 8 dm^(3) to 80 dm^(3) at an temperature of 27^(@)C . Calculate the change in entropy.

5 mol of an ideal gas expand reversibly from a volume of 8 dm^(3) to 80 dm^(3) at an temperature of 27^(@)C . Calculate the change in entropy.

5 mol of an ideal gas expands reversibly from a volume of 8 dm^(3) to 80 dm^(3) at a temperature of 27^(@)C . Calculate the chngae in entropy.

6 moles of an ideal gas expand isothermally and reversible from a volume of 1dm^(3) to a volme of 10dm^(3) at 27^(@)C . What is the maximum work done? Express your answer in joule.

One mole of an ideal gas at 27^(@)C undergoes isothermal expansion reversible from a volume of 10 dm^(3) to a volume of 20 dm^(3) . Calculate the work done on the gas.

The temperature and pressure of one mole of an ideal monoatomic gas changes from 25^(@) C and 1 atm pressure to 250^(@) C and 25 atm. Calculate the change in entropy for the process.

The temperature and pressure of one mole of an ideal monoatomic gas changes from 25^(@) C and 1 atm pressure to 250^(@) C and 25 atm. Calculate the change in entropy for the process.

At 400K, 5 moles of an ideal gas expands isothermally and reversibly from 10dm^3 to 20 dm^3 . Calculate the work done by the gas.