The internal energy U is a unique function of any state because change in U

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.

Identify the correct variation of potential energy U as a function of displacement x from mean position (or x^(2) ) of a harmonic oscillator ( U at mean position = 0 )

Statement-1 : Change in internal energy in the melting process is due to change in internal potential energy. Statement-2 : This is because in melting, distance between molecules increases but temperature remains constant.

In the given figure, an ideal gas changes its state from state state C by two paths ABC and AC. The internal energy of gas at A is 10 J and the amount of heat supplied to change its state to C through path AC is 200 J.Calculate the internal energy of gas at C

The potential energy U of diatomic molecules as a function of separation r is shown in figure. Identify the correct stateement.

There is no change in internal energy for an ideal gas at constant temperature. Internal energy of an ideal gas is a function of temperature only.

Figure shows an ideal gas changing its state A to state C by two different path ABC and AC . The internal energy of the gas at A is 10 J and the amount of heat supplied to change its state to C through the path AC is 200 J . Find the internal energy at C .

An ideal monoatomic gas undergoes a process in which its internal energy U and density rho vary as Urho = constant. The ratio of change in internal energy and the work done by the gas is

An ideal monoatomic gas undergoes a process in which its internal energy U and density rho vary as Urho = constant. The ratio of change in internal energy and the work done by the gas is

The change in the internal energy of a substance