n moles of an ideal gas with constant volume heat capacity `C_V` undergo an isobaric expansion by certain volume.The ratio of the work done in the process, to the heat supplied is :

n moles of an ideal gas with constant volume heat capacity C_(V) undergo an isobaric expansion by certain volumes. The ratio of the work done in the process, to the heat supplied is:

Molar heat capacity of a gas at constant volume.

Heat supplied to a gas at constant volume is utilised to

For one mole of an ideal gas (C_(p) and C_(v) are molar heat capacities at constant presure and constant volume respectively)

In an isobaric process of an ideal gas. The ratio of heat supplied annd work done by the system [i.e.,((Q)/(W))] 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 pressure of an ideal gas varies with volume as P= aV, where a is a constant. One mole of the gas is allowed to undergo expansion such that its volume becomes ‘m’ times its initial volume. The work done by the gas in the process is

The molar heat capacity for an ideal monatomic gas is 3R.If dQ is the heat supplied to the gas and dU is the change in its internal energy then for the process the ratio of work done by the gas and heat supplied is equal to