What work has to be done isobarically on a mole of diatomic gas to increase its rms speed `eta` = 3 times from `T_0`=300 K ?

What work has to be done adiabatically to increase the root mean square speed of a mole of a diatomic gas eta =5 times from T_1 = 300 K?

Temperature of 1 mole of an ideal gas is increased from 300K to 310K under isochoric process. Heat supplied to the gas in this process is Q=25R, where R=universal gas constant. What amount of work has to be done by the gas if temperature of the gas decreases from 310K to 300K adiabatically?

One mole of oxygen being initially at a temperature T_0 = 290 K is adiabatically compressed to increase its pressure eta = 10.0 times. Find : (a) the gas temperature after the compression , (b) the work that has been performed on the gas.

4 moles of an ideal monoatomic gas is heated isobarically so that its absolute temperature increases 2 times. Then the entropy increment of the gas in this process is

The work done by one mole of ideal gas when its temperature is increased by 1^@C at constant pressure is

An ideal gas whose adiabatic exponent equals gamma is expanded so that the amount of heat transferred to the gas is equal to the decrease of its internal energy. Find : (a) the molar heat capacity of the gas in the process , The equation of the process in the variables t, V , ( c) the work performed by one mole of the gas when its volume increases eta times if the initial temperature of the gas is T_0 .

Figure shows a cycle ABCDA undergone by 2 moles of an ideal diatomic gas. The curve AB is a rectangular hyperbola and T_(1)=300K and T_(2)=500K . Determine the work done by the gas in the process ArarrB .

Two moles of a diatomic gas at 300 K are kept in a nonconducting container enclosed by a piston . Gas is now compressed to increase the temperature from 300 K to 400 K. Find word done by the gas