The work done by a one mole of gas expands isothermally at `37^(o)C` to four times its initial volume (in joule) is_____

One mole of a perfect gas expands isothermally to ten times its original volume. The change in entropy is

Four moles of an ideal gas at a pressure of 4 atm and at a temperature of 70^(@)C expands is othermally to four times its initial volume : What is (i) the final temperature and (ii) the final volume ?

1 mole of gas expands isothermally at 37^(@)C . The amount of heat is absorbed by it until its volume doubled is (R= 8.31 J mol^(-1) K^(-1))

Three moles of an ideal gas are expanded isothermally and reversibly at 27^(@)C to twice its original volume. Calculate q, w, and DeltaU .

Two litres of an ideal gas at a pressure of 10 atm expands isothermally at 25^(@)C into a vacuum until its total volume is 10 litres. How much heat is absorbed and how much work is done in the expansion ?

Two litres of an ideal gas at a pressure of 10 atm expands isothermally at 25^(@)C into a vacuum until its total volume is 10 litres. How much heat is absorbed and how much work is done in the expansion ?

If 1 mole of an ideal gas expands isothermally at 37^(@)C from 15 litres to 25 litres, the maximum work obtained is :

If 1 mole of an ideal gas expands isothermally at 37^(@)C from 15 litres to 25 litres, the maximum work obtained is :

one mole an ideal gas having volume 2 litre and at a pressure of 10 atm expands isothermally at 25 °C into a vacuum until its total volume is 10 litres. How much heat is absorbed and how much work is done in the expansion ?

Expansion of a gas in vacuum is called free expansion. Calculte the work done and the change in internal energy when 1 L of ideal gas expands isothermally into vacuum until its total volume is 5L ?