(i) As the Vander Waals constants,‘b’ is approximately equal to the total volume of the molecules of a gas. Hence, the increasing order of ‘b’ is as follows:

He < H₂< O₂< CO₂

This is because the parameter ‘b′ is proportional to the proper volume of a single particle, and the volume of CO₂ is maximum followed by O₂ which is followed by H₂ and He. Or in other words the value of ‘b’ is directly proportional to the size of gas molecules. Hence we get the order shown above.

The volume of CO₂ is maximum; this is because CO₂ contains 3 atoms, whereas O₂ has greater volume than H₂ because Oxygen atom has 2 shells whereas H has only one shell. Hence, H is smaller in size than O. And He is having the lowest volume because it is single atom and has only one shell like H, but unlike He, H-H is having greater volume than He.

(ii) The value of‘a’ for any gas depends on the strength of inter molecular attraction. Molecules having the weakest forces of attraction has the smallest value of ‘a’ whereas the molecules having the strongest force of attraction has the largest a values.

Hence, as the surface area of CH₄ is highest so, it has highest Vander Waal’s force of attraction so, has highest value of ‘a’, followed by O₂ and H₂.

So the decreasing order is found to be:

CH₄> O₂> H₂