Change in internal energy in an isothermal process for ideal gas is

In an isothermal process for an ideal gas

Statement-1 : When an ideal gas is freely expanded change in internal energy of gas is zero, where as when real gas is expanded freely it's internal energy decreases. Statement-2 : There is no intermolecular force of attraction in ideal gas.

The dependence of Gibbs free energy on pressure for an isothermal process of an ideal gas is given by

During the isothermal of an ideal gas :

For an isothermal expansion of an ideal gas

isothermal elasticity of an ideal gas is

Assertion: For an ideal gas in a cyclic process and in an isothermal process change in internal energy is zero. Reason: In both processes there is no change in temperature.

0.5 moles of an ideal monoatomic gas undergoes a thermodynamic process from A to B as shown in figure. The change in internal energy of the gas during the process from A to B is

In a cyclic process shown in the figure an ideal gas is adiabatically taken from B to A , the work done on the gas during the process B to A is 30,J when the gas is taken from A to B the heat absorbed by the gas is 20 J Then change in internal energy of the gas in the process A to B is :

In a cyclic process shown in the figure an ideal gas is adiabatically taken from B to A , the work done on the gas during the process B to A is 30,J when the gas is taken from A to B the heat absorbed by the gas is 20 J Then change in internal energy of the gas in the process A to B is :