The relation `C_p-C_v=R(C_p,C_v)`: Molar specific heats at constant pressure, volume is exactly true for

Specific heat at constant pressure C_P of a gas

The ratio [C_(p)//C_(v)] of the specific heats at a constant pressure and at a constant volume of any perfect gas

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

Given the , C_p-C_v=R and gamma=(C_p)/(V_v) where C_p =molar specific heat at constant pressure C_v =molar specific heat at constant volume. Then C_v =

When water is heated from 0^(@)C to 4^(@)C and C_(P) and C_(V) are its specific heats at constant pressure and constant volume respectively , then :-

C_(p) over C_(v) are specific heats at constant pressure and constant volume respectively. It is observed that C_(p)-C_(v)=a for hydrogen gas C_(p)-C_(v)=b for niotrogen gas The correct relation between a and b is

Given that C_(p)-C_(V)=R and gamma=C_(p)//C_(V) , where C_p =Molar specific heat at constant pressure, C_(V) =molar specific heat at constant volume. Then C_(V) =

C_p and C_v are specific heats at constant pressure and constant volume respectively. It is observed that C_p - C_v = a for hydrogen gas C_p = C_V = b for nitrogen gas The correct relation between a and b is:

C_(p) and C_(v) denote the molar specific heat capacities of a gas at constant pressure and volume respectively. Then :