One kg of a diatomic gas is at a pressure of `8 xx 10^(4) Nm^(-2)` the density of the gas if `4kg// m^(g)` .What is the energy of the gas due to its thermal mole

For a given ideal gas 6 xx 10^(5) J heat energy is supplied and the volume of gas is increased from 4 m^(3) to 6 m^(3) at atmospheric pressure . Calculate (a) the work done by the gas ( b) Change in internal energy of the gas ( c) graph this process in PV and TV diagram

A gas is compressed at a constant pressure of 50N//m^(2) from a volume 4m^(3) . Energy of 100 J is then added to the gas by heating. Its internal energy is ………….. .

The density of an ideal gas is 1.25xx10^(-3)g cm^(-3) at STP. Calculate the molecular weight of the gas.

In a thermodynamic process, pressure of a fixed mass of a gas is changed in such a manner that the gas releases 20 J of heat and 8 J of work is done on the gas. If the initial internal energy of the gas was 30 J , what will be the final internal energy ?

A vessel containing one of mole of a monatomic ideal gas (molecular weight = 20 g/(mol) ) is moving on a floor at a speed of 50 m s^(-1) The vessel is stopped suddenly. Assuming that the mechanical energy lost has gone into the internal energy of the gas , find the rise in its temperature .

A gas made of a mixture of 2 moles of oxygen and 4 moles of argon at temperature T. Calculate the energy of the gas in terms of RT. Neglect the vibrational modes.