Statement 1: When heat is given to a system then temperature of the system must increase.
Statement II: A warmer body must have more internal energy in comparison to another colder body.

"When heat is added to a system, the internal energy of the system must increase". Justify this statement.

If the amount of heat given to a system is 40 J and the amount of work done on the system is 15 J then the change in internal energy is

When is the heat supplied to a system equal to the increase in its internal energy?

Statement -1: If kinetic energy of a system is zero then linear momentum of each of particle of the system must be zero. Statement-2: If linear momentum of a system is zero then kinetic energy of system must be zero. Statement-3: If linear momentum of a particle is zero then kinetic energy is zero. Select the correct sequence.

Is the heat supplied to a system always equal to the increase in its internal energy?

If the amount of heat given to a system be 35 joules and the amount of work done on the system be 15 joules , then the change in the internal energy of the system is

Statement-1: Adiabatic free expansion of any subatance in a cosed system will not cause any change in temperature of the substance. Statement-2: In adiabatic free expansion of any substance in a closed system, internal energy will remain constant.

Statement-1: The internal energy of a system does not change when there is not change in temperature Statement-2: The internal energy of a gaseous system is state function.

consider the following two statements. (A) If heat is added to a system, its temperature must increase. (b) if positive work is done by a system in a thermodynamic process, its volume must increase.