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

If the P-V diagram of a diatomic gas is plotted, it is a straight line passing through the origin. The molar heat capacity of the gas in the process is IR, where I is an integer. Find the value of I.

The molar heat capacity for an ideal gas

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

The variation of pressure P with volume V for an ideal diatomic gas is parabolic as shown in the figure . The molar species heat of the gas during this process is

P-V curve of a diatomic gas is shown in the Fig. Find the total heat given to the gas in the process A rarr B rarr C

P-V curve of a diatomic gas is shown in the Fig. Find the total heat given to the gas in the process A rarr B rarr C

P-V curve of a diatomic gas is shown in the Fig. Find the total heat given to the gas in the process A rarr B rarr C

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

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]

Temperature of two moles of a monoatomic gas is increased by 300 K in the process p prop V . Find (a) molar heat capacity of the gas in the given process (b) heat required in the given process.