A 5 mol sample of an ideal gas is compressed isothermally and irreversible from 1.5 atm to 15 atm at `27^(@)C`. Calculate the work done on the gas in calorie unit.

A 2.5 mol sample of an ideal gas is compressed in reversible isothermal process from a volume of 12L to a volume of 5 L at 27^(@)C . Calculate the work done on the gas.

At 27^(@)C , one mole of an ideal gas is compressed isothermally and reversibly from a pressure of 2 atm to 10 atm. Calculate DeltaU and q .

At 27^(@)C , one mole of an ideal gas is compressed isothermally and reversibly from a pressure of 2 atm to 10 atm. Calculate DeltaU and q .

1 mole of an ideal gas undergoes an isothermal reversible expansion form 10 atm to 1 atm at 300 K. What will be the work done ?

1 mole of an ideal gas undergoes an isothermal reversible expansion form 10 atm to 1 atm at 300 K. What will be the work done ?

When 5 moles of an ideal gas is compressed isothermally, its volume decreases from 5 litre to 1 litre. If the gas is at 27^(@) C, find the work done on the gas.

When 5 moles of an ideal gas is compressecd isothermally, its volume decreases from 5 litre to 1 litre. If the gas is at 27^(@)C , find the work done on the gas ("log"_(10)((1)/(5))=-0.6990) .

10 grams of argon gas is compressed isothermally and reversibly at a temperature of 27^(@)C from 10L to 5L. Calculate the work done for this process in multiple of 10^(20 calories.