A diatomic ideal gas initially at 273K is given 100cal heat due to which system did 209J work. Molar heat capcity (Cm) of gas for the process is:

The molar heat capacity for an ideal gas

In a thermodynamic process on an ideal diatomic gas, work done by the gas is eta times the heat supplied (eta lt 1) . The molar heat capacity of the gas for the process is

An ideal gas with adiabatic exponent ( gamma=1.5 ) undergoes a process in which work done by the gas is same as increase in internal energy of the gas. Here R is gas constant. The molar heat capacity C of gas for the process is:

An amount of heat is added to a monatomic ideal gas in a process in which the gas performs work Q/2 on its surrounding. Find the molar heat capacity for the process.

600J of heat is added to a monoatomic gas in a process in which the gas performs a work of 150J. The molar heat capacity for the 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

For a certain process, pressure of diatomic gas varies according to the relation P = aV^2 , where a is constant. What is the molar heat capacity of the gas for this process ?

If Q amount of heat is given to a diatomic ideal gas in a process in which the gas perform a work (2Q)/(3) on its surrounding. Find the molar heat capacity (in terms of R ) for the process.

The pressure P of an ideal diatomic gas varies with its absolute temperature T as shown in figure . The molar heat capacity of gas during this process is [R is gas constant]

Find the value of molar heat capacity for an ideal gas in an adiabatic process.