A sample of gas contracts by 1 litre against a constant pressure of 0.1 atm while 5.13 J heat it lost to surroundings. The change in internal energy, U of the system is

A sample of ideal gas (y = 1 .4) is heated at constant pressure. If an amount of 140 J heat is supplied to the gas, then change in internal energy of the gas

A gas expends from 2 L to 6L against a constant pressure of 0.5 atm on absobing 200 J of heat. Calculate the change in internal energy.

A system absorb 600 J of heat and work equivalent to 300 J on its surroundings. The change in internal energy

A sample of gas is compressed by an average pressure of 0.50 atmosphere so as to decrease its volume from 400cm^(3) to 200cm^(3) . During the process 8.00 J of heat flows out to surroundings. The change in internal energy of the system is

A gas expands by 2 litres against a constant pressure of 2 atm. Calculate work done in Joule and Calorie.

500cm^(3) of a sample of an ideal gas is compressed by an average pressure of 0.1 atm of 250 cm^(3) . During this process, 10J of heat flows out to the surroundings. Calculate the change in internal enegry of the system.

500cm^(3) of a sample of an ideal gas is compressed by an average pressure of 0.1 atm of 250 cm^(3) . During this process, 10J of heat flows out to the surroundings. Calculate the change in internal enegry of the system.

A gas expands in an insulated container against a constant external pressure of 1.5 atm from an initial volume of 1.2 L to 4.2 L. The change in internal energy ( DeltaU ) of gas is nearly (1 L-atm = 101.3 J)

A system absorbs 400 J of heat and does work equivalent to 150 J on the surroundings. Calculate the change in the internal energy of the system.

A diatomic gas is heated at constant pressure. If 105J of heat is given to the gas, find (a) the change in internal energy of the gas (b) the work done by the gas.