An ideal gas has molecules with 5 degrees of freedom. The ratio of specific heats at constant pressure `(C_(p))` and at constant volume `(C_(v))` is

If a gas has n degrees of freedom ratio of specific heats of gas is

If an ideal gas is heated at constant pressure :

A lomecole of a gas has six degrees of freedom. Then the molar specific heat of the gas at constant volume is

The molar specific heat at constant pressure of an ideal gas is (7//2 R) . The ratio of specific heat at constant pressure to that at constant volume is

The ratio of the molar heat capacities of a diatomic gas at constant pressure to that at constant volume is

One mole of ideal monoatomic gas (gamma=5//3) is mixed with one mole of diatomic gas (gamma=7//5) . What is gamma for the mixture? gamma Denotes the ratio of specific heat at constant pressure, to that at constant volume

Graph for specific heat at constant volume for a monoatomic gas

Graph for specific heat at constant volume for a monoatomic gas

One mole of an ideal gas at an initial temperature true of TK does 6R joule of work adiabatically. If the ratio of specific heats of this gas at constant pressure and at constant volume is 5//3 , the final temperature of the gas will be

One mole of an ideal gas at an initial temperature true of TK does 6R joule of work adiabatically. If the ratio of specific heats of this gas at constant pressure and at constant volume is 5//3 , the final temperature of the gas will be