One mole of an ideal monatomic gas undergoes a process descrbed by the equation `pV^(3) =` constant. The heat capacity of the gas during this process is

One mole of an ideal monatomic gas undergoes a process described by the equation PV^(3) = constant. The heat capacity of the gas during this process is

an ideal diatomic gas undergoes a polytropic process described by the equation P√V= constant . The molar heat capacity of the gas during this process is

A certain amount of ideal monoatomic gas undergoes a process given by TV^(1//2) = constant. The molar specific heat of the gas for the process will be given by

An ideal monatomic gas undergoes process PV^(1.25) = constant .Then

One mole of an ideal monatomic gas undergoes the process P=alphaT^(1//2) , where alpha is constant . If molar heat capacity of the gas is betaR1 when R = gas constant then find the value of beta .

Tempareture and volume of one mole of an ideal momatomic gas in a process are related as TV^(2/3)=K ,where k is constant.The molar specific heat capacity for the process is

An ideal has undergoes a polytropic given by equation PV^(n) = constant. If molar heat capacity of gas during this process is arithmetic mean of its molar heat capacity at constant pressure and constant volume then value of n is

A diatomic gas undergoes a process represented by PV^(1.3) = constant . Choose the incorrect statement

An ideal gas (gamma = 1.5) undergoes a thermodynamic process in which the temperature and pressure of the gas are related as T^(-1)P^(2) = constant. The molar heat capacity of the gas during the process is

One mole of a diatomic gas undergoes a thermodynamic process, whose process equation is P prop V^(2) . The molar specific heat of the gas is