One mole of an ideal gas with gamma=1.4 ...

One mole of an ideal gas with `gamma=1.4` is adiabatically compressed so that its temperature rises from `27^(@)C` to `34^(@)C` . The change in the internal energy of the gas is `(R=8.3J mol^(-10k^(-1)))`

Similar Questions

Explore conceptually related problems

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 )

One mole of an ideal gas (gamma=7//5) is adiabatically compressed so that its temperature rises from 27^(@)C to 35^(@)C the work done by the gas is (R=8.47J/mol-K)

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

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

One mole of an ideal gas (gamma=1.4) is compressed adiabatically , so that its temperature is increased from 27^@ C " to " 35^@C If R = 8.31 J/K/mole then the change in the internal energy of the gas is :

One mole of an ideal gas with `gamma=1.4` is adiabatically compressed so that its temperature rises from `27^(@)C` to `34^(@)C` . The change in the internal energy of the gas is `(R=8.3J mol^(-10k^(-1)))`

Similar Questions

Recommended Questions