The volume of an ideal diatomic gas is doubled isothermally. The internal energy

For an ideal diatomic gas:

If an ideal gas is isothermally expanded its internal energy will

If pressure of an ideal gas is doubled and volume is halved, then its internal energy will remain unchanged. Internal energy of an ideal gas is a function of only temperature.

The internal energy of diatomic gas is due to

If the pressure of an ideal gas is decreased by 10% isothermally, then its volume will

The pressure of an ideal gas of diatomic molecules is doubled by halving the volume. The ratio of the new internal energy to the old, both measured relative to the internal energy at 0 K, is

Molar specific heat at constant volume of an ideal diatomic gas is (5)/(2)R On heating one mole of an ideal diatomic gas through 1^(@)C at constant pressure the increase in internal energy of gas is (7)/(2)R .

" One mole of an ideal gas at "300K" is " , expanded isothermally from an initial , volume of 1 litre to 10 litres.The change , in internal energy for this process is : "(R=2 cal "mol^(-1)K^(-1)):" - "

When gas is given heat DeltaQ , a part of heat energy is utilized into work done W by gas and the remaining part is utilized to change in internal energy. An ideal diatomic gas is heated at constant pressure, the ratio of the internal energy change to heat energy supplied, is