A cyclinder contains `0.5` mole of an ideal gas at `310K`. As the gas expands isothermally from an initial volume `0.31m^(3)` to a final volume of `0.45m^(3)`, find the amount of heat that must be added to the gas in order to maintain a constant temperature.

A cylinder contains 0.50 mol of an ideal gas at temperature of 310 K. as the gas expands isothermally from an initial volume of 0.31 m^(3) to a final volume of 0.45 m^(3) , find the amount of heat that must be added to the gas in order to maintain a constant temperature.

A cylinder contains 0.50 mol of an ideal gas at temperature of 310 K. as the gas expands isothermally from an initial volume of 0.31 m^(3) to a final volume of 0.45 m^(3) , find the amount of heat that must be added to the gas in order to maintain a constant temperature.

0.5 mole of gas at temperature 300 K expands isothermally from an initial volume of 2.0L to final volume of 6.1L. How much heat is supplied to the gas?.

Calculate the work done (in joules) when 0.2 mole of an ideal gas at 300 K expands isothermally and reversible from an initial volume of 2.5 litres to the final volume of 25 litres.

Calculate the work done (in joules) when 0.2 mole of an ideal gas at 300 K expands isothermally and reversible from an initial volume of 2.5 litres to the final volume of 25 litres.

0.5 mole of gas at temperature 300 K expands isothermally from an initial volume of 2.0L to final volume of 6.0L. What is the work done by the gas ? (R = 8.31 J mol^(-1) K^-(1)

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))