The change in internal energy when a gas is cooled from `927°C` to `27°C` is

The internal energy of an ideal gas depends on

Calculate the change in internal energy of a block of copper of mass 200 g when it is heated from 25^@ C to 75^@ C. Specific heat of copper = 0.1 cal /g/ ""^(@) C and assume change in volume is negligible.

One mole of an ideal diatomice gas undergoes a transition from AtoB along a path AB as shown in the figure,The change in the internal energy of the gas during the tranition is :

One mole of an ideal gas with gamma = 1.4 , is adiabatically compressed so that its temperature rises from 42°C to 48°C . The change in the internal energy of the gas is ( R = 8.3 J / mol / K )

calculate the change in internal energy of a gas kept in a rigid container when 100 J of heat is supplied to it.

The ratio of the molar heat capacities of an ideal gas is (C_p / C_v = 7/6) . Calculate the change in internal energy of 1.0mole of the gas when its temperature is raised by 50 K , (a) keeping the pressure constant , (b) keeping the volume constant and (c ) adiabatically.