1 mole of rigid diatomic gas performs a work of `(Q)/(5)` when heat Q is supplied to it.the molar heat capacity of the gas during this transformation is `(xR)/(8)`. The value of x is ,[R=universal gas constant]

The molar heat capacity for a gas at constant T and P 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

The molar heat capacity in a process of a diatomic gas if it does a work of Q/4 when a heat of Q is supplied to it 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

The heat capacity per mole of water is (R is universal gas constant)

P-V diagram of a diatomic gas is a straight line passing through origin. The molar heat capacity of the gas in the process will be

P-V diagram of a diatomic gas is a straight line passing through origin. The molar heat capacity of the gas in the process will be

For an ideal diatomic gas, during any process T = KV , find out the molar heat capacity of the gas during process (neglecting vibrational degree of freedom)

P-V indicator diagram for a given sample of monoatomic ideal gas is shown in figure. If the average molar specific heat capacity of the system for the process ABCD is (xR)/(4) than find value of x:(R is a universal gas constant)

One mole of an ideal gas undergoes a process such that P prop (1)/(T) . The molar heat capacity of this process is 4R.