Assertion: In adiabatic compression the internal energy and temperature of the system get decreased.
Reason: The adiabatic compression is a slow process.

The internal energy of a system during isothermal process decreases.

Assertion:- During adiabatic expansion of an ideal gas, temperature falls but entropy remains constant. Reason:- During adiabatic expansion, work is done by the gas using a part of internal energy and no heat exchange teakes place the system and the surrounding.

In an adiabatic process temperature remains constant.

What is the change in temperature when work done by gas in an adiabatic process ?

The relation between pressure and temperature of a monoatomic gas in an adiabatic process is P prop T^(-C) , where C = ____

Does the internal energy of an ideal gas change in an adiabatic process ?

Can change in internal energy of an ideal gas be considered as an adiabatic process ?

A weightless piston divides a thermally insulated cylinder into two parts of volumes V and 3V. 2 moles of an ideal gas at pressure P = 2 atmosphere are confined to the part with volume V =1 litre. The remainder of the cylinder is evacuated. The piston is now released and the gas expands to fill the entire space of the cylinder. The piston is then pressed back to the initial position. Find the increase of internal energy in the process and final temperature of the gas. The ratio of the specific heats of the gas, gamma =1.5 .

Assertion: In isothermal process whole of the heat energy supplied to the body is converted into internal energy. Reason: According to the first thermodynamics DeltaQ=DeltaU+PDeltaV