For a gas if ratio of specific heats at constant pressure and volume is 'gamma' then value of degrees of freedom is

When a gas is heated at constant pressure, its volume changes and hence

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

Molar specific heat at constant volume C_v for a monatomic gas is

The ratio of specific heat of air at constant pressure (cp) to specific heat of air at constant volume (cv) 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 specific heat at constant pressure is greater than that for the same gas at constant volume because

What is the value of gamma=C_p/C_v , if the gas has f degrees of freedom?

The product of the pressure and volume of an ideal gas is

The molar specific heat of an ideal gas at constant pressure and constant volume is C_(p) and C_(v) respectively. If R is the universal gas constant and the ratio of C_(p) to C_(v) is gamma , then C_(v) .

If a gas is heated at constant pressure, its isothermal compressibility