One mole of oxygen is heated at constant pressure starting at `0^(@)C`. How much heat energy must be added to the gas to double its volume ?

One mole of O_2 gas is heated at constant pressure starting at 27^@ C. How much energy must be added to the gas as heat to double its volume?

When 0.40 mol of oxygen ( O_2 ) gas is heated at constant pressure starting at 0^@ C, how much energy must be added to the gas as heat to triple its volume? (The molecules rotate but do not oscillate.)

One mole of oxygen is heated at constant pressure from 0^@C . The amount of heat that should be given to double its volume at the same pressure is ( c_P = 0.2 cal / gm ^@K )

Two moles of oxygen is heated at a constant pressure from 0^(@)C . What must be the gas for the volume to be doubled ? The specific heat of oxygen under these condition is 0.218 cal g^(-1) K^(-1) .

One mole of an ideal gas is heated at constant pressure. If an 100 Joule heat energy supplied to the gas, then work done by the gas will be …….. (gamma=1.4)

5 mol of oxygen is heated at constant volume from 10^@C to 20^@C . Find the change in internal energy of the gas

One mole of a gas is heated at constant pressure to raise its temperature by 1^(@)C . The work done in joules is

One mole of a gas is heated at constant pressure to raise its temperature by 1^(@)C . The work done in joules is