Consider a thermodynamic process where internal energy `U = AP^2V` (A = constant). If the process is performed adiabatically, then

An ideal gas undergoes a thermodynamic process in which internal energy of the gas depends on pressure of the gas as U= ap!, where a is a positive constant. Assuming gas to be monoatomic, the molar heat capacity of the gas for given process will be

Thermodynamics - Internal Energy 2

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

Total internal energy of an ideal gas remains constant in isothermal process.

An ideal gas undergoes a thermodynamic process in which internal energy of the gas depends on pressure of the gas as U = ap^(4) , where a is a positive constant. Assuming gas to be monoatomic, the molar heat capacity of the gas for given process will be

According to the first law of thermodynamics, the internal energy of a//an ________ is constant.

The thermodynamic process in which temeprature remains constant is

The relation between the internal energy U adiabatic constant gamma is