At low pressure, vander waal’s equation is reduced to `[P + (a)/(V^(2))] V = RT`. The compressibility factor can be given as :

At low pressure the van der Waals' equation is reduced to [P +(a)/(V^(2)]]V =RT The compressibility factor can be given as .

At low pressure, the van der Waals equation is reduced to

At high pressure , the van der Waals equation is reduced to

At low pressures, the van der Waals equation is written as [P+(a)/(V^(2))]V=RT The compressibility factor is then equal to

At very high pressure, the van der Waals equation reduces to

At very high pressure, the van der Waals equation reduces to

The van der Waal equation of gas is (P + (n^(2)a)/(V^(2))) (V - nb) = nRT

At high temperature and low pressure van der Waal's equation becomes

For real gases, van der Waals' equation is written as (P+(an^(2))/(V^(2))) (V-nb)= nRT where a and b are van der Waals' constants. Two sets of gases are: (I) O_(2), CO_(2), H_(2) and He(II) CH_(4), O_(2) and O_(2) and H_(2) The gases given in set I in increasing order of b and gases given in set II in decreasing order of a are arranged below. Select the correct order from the following: