Van Der Waal's equation reduces itself to the ideal gas equation at

The gases obey the different gas laws only theoretically. Practically all of them show some deviation from these laws. These are called real gases. The deviation are maximum under high pressure and at low temperature. These are comparatively small when the conditions are reversed. It has been found that the easily liquefiable gases show more deviations from the ideal gas behaviour as compared to the gases which are liquified with difficulty. The van der Waals equation reduces itself to ideal gas equation at

van der Waal's equation is true for

In the van der Waals equation

A real gas obeying van der Waal equation will resemble ideal gas if the

van der Waal's equation explains the behaviour of

In van der Waals equation of state for a non-ideal gas , the term that accounts for intermolecular forces is

Assertion: van der Waals equation is applicable only to non-ideal gases. Reason: Ideal gases obey the equation PV=nRT .

Assertion: van der Waals equation is applicable only to non-ideal gases. Reason: Ideal gases obey the equation PV=nRT .

In van der Waals equation of gases, the kinetic equation for gas is modified with respect to

Van der Waal's equation at high pressure for 1 mole is