So in other words, the factors that explain the values of a of different gases should be somehow similar to its boiling temperature right?
There is probably a good relationship between them....but I'm not sure if it's 100% true all of the time. Generally a good rule though because they're both related to intermolecular forces. Good call on that one, Disturbia.
Also, lets say fictionally that the atoms occupy the same volume how will this affect the VDW equation ? do you consider removing both a and b or just b ?
Not sure I follow you. If the molecules took up the exact same volume and packed the exact same way, then their
b values would be the same. So you'd just plug the same value in for
b in the Van der Waals equation.
All I was really saying with that last bit, is that the ideal gas law makes two assumptions:
1. Molecules take up no space. This means
b = 0
2. Molecules don't interact. This means
a = 0
And when you make these two assumptions in the Van der Waals equation, the ideal gas law comes out. It's kinda cool. And so, just as you were probably told in class, the Van der Waals equation (and constants) are really just there to adjust for non-ideality.