The internal enegy of an ideal gas decreases by the same amount as the work done by the system.

During the adiabatic expansion of 2 moles of a gas, the internal energy of the gas is found to decrease by 2 joules , the work done during the process on the gas will be equal to

Find the change in internal energy if heat supplied to the gaseous system is 100 J and work done by the system is 80 J.

For a gaseous system find change in internal energy if the heat supplied to the system is 50 J and work done by the system is 16 J.

For a gaseous system find change in internal energy if the heat supplied to the system is 50 J and work done by the system is 16 J.

In an isobaric process of an ideal gas. The ratio of heat supplied annd work done by the system [i.e.,((Q)/(W))] is

550 kJ "cycle" ^(-1) work is done by 1 mol of an ideal gas in a cyclic process. The amount of heat absorbed by the system in one cycle is

Calculate the increase in internal energy of system when 40 joule heat is supplied and the work done by a system is 8 joule

110 J of heat is added to a gaseous system, whose internal energy change is 40 j. then the amount of external work done is

Three moles of an ideal gas expanded spontaneously into vacuum. The work done will be

In the given figure, an ideal gas changes it state from A to state C by two paths ABC and AC . (i) Find the path along which work done is the least. (ii) The internal energy of the gas at A to 10J and the amount of heat supplied to change its state to C through the path AC is 200J . Calculate the internal energy at C . (iii) The internal energy of the gas at state B is 30J . Find the amount of heat supplied to the gas to go from A to B .