For a non-zero value of force of attraction between the gas molecules and zero volume occupied by the gas molecules, give a modified expression of van der Waals' equation.

For the non-zero value of the force of attraction between gas molecules, gas equation will be

A gas described by van der Waals equation

A gas described by van der Waals equation

Assertion: In van der Waals equation (P+(a)/(V^(2)))(V-b)=RT pressure correction (a//V^(2)) is due to the force of attraction between molecules. Reason: Volume of gas molecule cannot be neglected due to force of attraction.

The main reason for deviation of gases from ideal behaviour is few assumptions of kinetic theory . These are (i) there is no force of attraction between the molecules of a gas (ii) volume of the molecules of a gas is negligibly small in comparison to the volume of the gas (iii) particles of a gas are always in constant random motion .

The numerical value of b is ......times the actual volume occupied by one mole of gas molecule.

In vander waals gas equation, the term that accounts for the volume occupied by 'n' mole molecules is

For a real gas critical volume (Vc) is '2x' times the actual volume occupied by gas molecules, 'x' value is

If the forces of attraction between the molecules of a gas suddently disappear, will there be any change in pressure inside a gas container ?

For the non-zero volume of the molecules, real gas equation for n mol of the gas will be