Under critical states for one mole of a gas, compressibility factor is

At a particular temperature and pressure for a real gas Van der Waal's equation can be written as: (P + a/(V^(2)m)) (V_(m) -b) =RT where Vm is molar volume of gas. This is cubic equation in the variable Vm and therefore for any single value of P & T there should be 3 values of Vm. Which are shown in graph as Q, M and L. As temperature is made to increase at a certain higher temperature the three values of Vm becomes identical. The temperature, pressure & molar volume at point X are called Tc, Pc & Vc for real gas. The compressibility factor in terms of Pc, Vc and T is called Zc. The value of critical compressibility factor Zc is approximately

The compressibility factor of an ideal gas is

The translational kinetic energy of diatomic gas for one mole of the gas is equal to

Vander Waal's equation for one mole of CO_(2) gas at low pressure will be

The critical temperature of a gas is that temperature

7g of nitrogen occupies a volume of 5 litres under certain conditions. Under the same conditions one mole of a gas, having molecular weight 56, occupies a volume of

(A) A gas with higher critical temperature is adsorbed more than a gas with lower critical temperature (R ) At higher temperature the gas is more easily liquefiabe