An ideal gas with adiabatic exponent `gamma` is heated at constant pressure. It absorbs Q amount of heat. Fraction of heat absorbed in increasing the temperature is

An ideal gas with adiabatic exponent gamma is heated isochorically. If it absorbs Q amount heat then, fraction of heat absorbed in increasing the internal energy is

An ideal gas with adiabatic exponent gamma is heated isochorically.If it absorbs Q amount heat then, fraction of heat absorbed in increasing the internal energy is

The volume of one mole of an ideal gas with adiabatic exponent gamma=1.4 is vaned according to law V=a//T where 'a' is a constant. Find amount of heat absorbed by gas in this process if gas temperature increases by 100 K.

The volume of 1 mol of an ideal gas with the adiabatic exponent gamma is changed according to the relation V = b/T where b = constant. The amount of heat absorbed by the gas in the process if the temperature is increased by Delta T will be

A monatomic ideal gas is heated at constant pressure. How much fraction of heat is used to increase internal energy?

An ideal gas is heated at constant pressure and absorbs amount of heat Q. if the adiabatic exponent is gamma . Then find the fraction of heat absorbed in raising the internal energy and perofrming the work is.

An ideal gas is heated at constant pressure and absorbs amount of heat Q. if the adiabatic exponent is gamma . Then find the fraction of heat absorbed in raising the internal energy and performing the work is.

The volume of one mole of an ideal gas with adiabatic exponent gamma is varied according to V=b/T , where b is a constant. Find the amount of Heat is absorbed by the gas in this process temperature raised by DeltaT

The latent gas is heated at constant pressure and absorbs amount of heat Q. if the adiabatic exponent is gamma , then find the fraction of heat absorbed in raising the