One gm mol of a diatomic gas `(gamma=1.4)` is compressed adiabatically so that its temper ature rises from `27^(@)C` to `127^(@)C`. The work done will be

5 moles of Hydrogen (gamma =(7)/(5)) initially at STP are compressed adiabatically so that its temperature becomes 400^(@)C . The increase in the internal energy of the gas in kilo-joule is [R =8.30 J mol^(-1)K^(-1)]

Five moles of hydrogen initially at STP is compressed adiabatically so that its temperature becomes 673 K. The increase in internal energy of the gas , in kilo joule is (R= 8.3 J // mol-K, gamma = 1.4 for diatomic gas)

A system absorbs 10kJ of heat at constant volume and its temperature rises from 27^(@)C " to" 37^(@)C . The Delta E of reaction is

At N.T.P. one mole of diatomic gas is compressed adiabatically to half of its volume (gamma=1.41) . The work done on gas will be [2^(0.4)=1.32]

A monoatomic gas initially at 27^(@)C is compressed adiabatically to one eight of its origiani volume. The temperature after compression will be

When the temperature of a gas is raised from 27^@C to 927^@C , its RMS velocity