Three moles of an ideal gas kept at a constant temperature of `300K` are compressed from a volume of 4 litre to 1 litre. Calculate work done in the process. `R= 8.31 J mol e^(-1)K^(-1)`.

Three moles of an ideal gas kept at a constant temperature of 300 K are compressed from a volume of 4 litre to 1 litre. Calculate the work done in the process. (R = 8.31 J mol^-1 K^-1 )

Three moles of an ideal gas at a constant temperature of 300 K is compressed from a volume of 4 litres to 1 litre. Calculate the work done in the process. Given R=8.31 Jmol^-1K^-1 .

Three moles of an ideal gas kept at a constant temperature of 300K are compressed from the volume of 10 litre to 5 litre. Calculate the work done required to compress this gas.

Three moles of an ideal gas kept at a constant temperature of 300K are compressed from the volume of 10 litre to 5 litre. Which thermodynamic process is involved in this process?

Two moles of an ideal gas are compressed slowly at constant temperature of300 K from 4 litres to 1 litre. Calculate the work done in the process.

One mole of an ideal gas expands at a constant temperature of 300 K from an initial volume of 10 litres to a final volume of 20 litres. The work done in expanding the gas is (R=8.31J/mole-K)

One mole of an ideal gas expands at a constant temperature of 300 K from an initial volume of 10 litres to a final volume of 20 liters. The work done in expanding the gas is (R=8.31 J// "mole"-K) (in joules)

3 mole of a gas at temperature 400 K expands isothermally from initial volume of 4 litre to final volume of 8 litre. Find the work done by the gas. (R = 8.31 J mol^(-1) K^(-1))

One mole of an ideal gas at constant temperature 400K is expanded from 10 litre to 20 litre.The work done in the process is