An ideal gas undergoes a thermodynamic process in which internal energy of the gas depends on pressure of the gas as `U = ap^(4)`, where a is a positive constant. Assuming gas to be monoatomic, the molar heat capacity of the gas for given process will be

An ideal gas undergoes a thermodynamic process in which internal energy of the gas depends on pressure of the gas as U= ap!, where a is a positive constant. Assuming gas to be monoatomic, the molar heat capacity of the gas for given process will be

The molar heat capacity of a gas in a process

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

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 ?

Two moles of an ideal mono-atomic gas undergoes a thermodynamic process in which the molar heat capacity 'C' of the gas depends on absolute temperature as C=(RT)/(T_(0)) , where R is gas consant and T_(0) is the initial temperature of the gas. ( V_(0) is the initial of the gas). Then answer the following questions: The equation of process is

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

A monotomic ideal gas undergoes a process in which the ratio of p to V at any instant is constant and equals to 1. what is the molar heat capacity of the gas?

A monoatomic ideal gas undergoes a process ABC . The heat given to the gas is

What is the molar specific heat capacity of a gas undergoing an adiabatic process ?