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

Two moles of a monoatomic gas at 300K are kept in a non conducting container enclosed by a piston . Gas is now compressed to increase the temperature from 300K to 400K . Find work done by the gaS (R = (25)/(3) J//mol-K)

One mole of a diatomic ideal gas at 300 K is heated at constant volume until its pressure is doubled and then expanded adiabatically till its temperature falls to 300K. The work done by the gas is, if R is molar gas constant:

Two moles of a diatomic gas at 300K are enclosed in a cylinder as shown in figure. Piston is light. Find out the heat given if the gas is slowly heated to 400K in the following three cases. (i) Piston to free to move (ii) If piston does not move (iii) If piston is heavy and movable

Two moles of a diatomic gas at 300K are enclosed in a cylinder as shown in figure. Piston is light. Find out the heat given if the gas is slowly heated to 400K in the following three cases. (i) Piston to free to move (ii) If piston does not move (iii) If piston is heavy and movable

Some gas at 300K is enclosed in a container. Now the container is placed on a fast moving train. While the train is in motion, the temperature of the gas

Some gas at 300K is enclosed in a container. Now the container is placed on a fast moving train. While the train is in motion, the temperature of the gas

Three moles of an diatomic gas are in a closed rigid container at temperature T (in K). 1 mole of diatomic gas gets dissociated into atoms without appreciable change in temperature. Now heat is supplied to the gas and temperature becomes 2T. If the heat supplied to the gas is x(RT), find the value of x.

Three moles of an diatomic gas are in a closed rigid container at temperature T (in K). 1 mole of diatomic gas gets dissociated into atoms without appreciable change in temperature. Now heat is supplied to the gas and temperature becomes 2T. If the heat supplied to the gas is x(RT), find the value of x.

Two moles of an ideal gas are contained in a vertical cylinder with a frictionless piston. The piston is slowly displaced so that expansionin gas is isothermal at temperature T_(0)=400 K. find the amount of work done in increasing the volume to 3 times.t ake atmospheric pressure =10^(5)N//m^(2)