`1 gH_(2)` gas `STP` is expanded so that the volume is doubled. Hence, work done is

16 g of O_(2) gas at STP is expanded so that volume is doubled. Hence, work done is

8g of O_(2) gas at S.T.P. is expanded so that volume is doubled. Calculate work in atm L

Calculate work done during isothermal reversible process when 5 mol ideal gas is expanded so that its volume is doubled at 400K .

Two moles of an ideal monoatomic gas at 27^(@)C occupies a volume of V . If the gas is expanded adiabatically to the volume , 2V then the work done by the gas will be [lambda=5//3,R=8.31j//molK]

A gram molecule of a gas at 127^(@)C expands isothermally until its volume is doubled. Find the amount of work done and heat absorbed.

A litre of dry air at STP expands isothermally to a volume of 3 litres. The work done by air is : (l n beta=1.1) [Take air to be an ideal gas]

0.1 moles of diatomic gas at 27^(@)C is heated at constant pressure, so that the volume is doubled. If R=2cal.mol^(-1)k^(-1) , the work done is

Two samples A and B of the same gas have equal volumes and pressures . The gas is sample A is expanded isothermally to double its volume and the the gas in B is expanded adibatically to double its volume . If the work done by the gas is the same for the two cases, show that gamma satisfies the equation (1-2 ^(1-gamma)= (gamma - 1 ) 1n2 .