googling or remembering GCSE Physics
I got a B in GCSE physics and I do have a first class degree in mechanical engineering but I still don't remember the maths!!
Look at this though
4. Weight Transfer due to body roll
Body roll also introduces weight transfer thus reduction of total grip. Let's see the following drawing :
The lateral displacement of center of gravity (CG) is d. If we again use the Boxster example (track width 1600 mm, height of CG 500 mm, weight 1250 kg), if it rolls 10 degrees when cornering, d will be 500 x sin10° = 86.8 mm. Then the load of the outside wheels can be calculated as: ( 1250 x ( 800 + 86.8 ) ) / 1600 = 693 kg while the inside wheels take 557 kg. So there is 68 kg weight transfer. Although it is not a great amount compare with the weight transfer due to lateral acceleration, its influence should not be ignored because camber change exists in this case.
We want to keep the body roll to an adequate level. We can use stiffer spring and anti-roll bar to reduce roll in the price of ride comfort. We can move the roll center, which is determined by the suspension geometry, as close to the CG as possible so that the roll moment is largely reduced, but this has a very bad drawback - a large jerking force will be generated and jerk up the body thus raise the CG. Alternatively, we could leave the body roll alone and try to lower the CG, so the weight transfer is also reduced.
After all, I don't recommend to eliminate body roll, since it is an important signal to tell us how well the car enters a corner and how close it approaches its limit. Body roll is a kind of feedback.
In this example, if you increase the track by 16mm weight transfer is reduced from 68kg to 60.5kg thus reducing body roll.
Its all a bit geeky really isn't it