Mr.Gib wrote: ↑Fri Jan 19, 2024 11:40 pm
@Hexsense, if my understanding is correct, at a given speed, a given radius of turn, and a given mass of rider and bike, the lateral load on the tire contact patch will be constant regardless of body position. I see the advantage of the position you advocate (Pidcock's position vs others), as enabling better use of the outside leg as a suspension member, and indeed the whole body makes a much more effective spring when you incorporate some angulation of the upper body over the tires or at least toward the outside of the turn. You need to be off the saddle to use the leg effectively, and getting off the saddle is very difficult or impossible to accomplish the in the position demonstrated by Pinot. If the enemy of fast descending is a lack of traction, then positioning to maximize traction is the goal. By my reckoning, Pidcock's position achieves this.
None of this will be novel to anyone involved in competitive alpine skiing. In skiing separating the upper and lower body in this way is critical in maintain grip on an icy race course. The reverse would be completely absurd.
Noted. And apologize for long text below. I don't understand enough to write in a concise way.
I don't know if lateral grip is the right word.
But being off center from top of the tire vs just on top of the pivot point (tires) change the force vector direction created by your own body weight (lets draw force vector from cg to pivot point, which is the tire).
If you are on top of the tire then your weight create more vertical force pushing the tire onto the ground and less lateral force trying to push or rotate the tire outside.
If you are on the inside, part of your body weight push the tire outward. Making it easier to slide or tip over.
Is it lateral grip? or does it call something else? Maybe a moment around the tire?
I don't know, it's just so easy to test that if you put the body too far inside, it's easier for the tire to slip under you.
Plus, most MTB-ers just don't want to be that far off-center from the tire when cornering on flat loose surface. Like the video that I post above.
Imagine riding on ice vs on tarmac in a straight line first (ignore lateral force from cornering for a moment). Even if you are not turning, your CG can be off center from where tire meet the road from positioning.
On tarmac, it's fine either if you are on top of the tire or being off center, hanging on the side of the bike that go straight.
The tire have enough lateral grip that you can ride straightline even if you are off balance on the the bike.
On ice, nope. You only stay upright if CG is on top of the tire.
That'd be a way to observe some friction and lateral resistance needed from the tire when CG not being on top of contact patch.