I’d say it’s an increase or decrease of the same force. Maybe you’re saying the same thing...I'm simply going by what I remember from Dr. Dave's and Bob J's data on throw when using various combinations of stun, roll, spin, or speed. There is always collision-induced throw, which is caused by the cb rubbing against the ob (friction - the ob's resistance to the cb rubbing). Since spin can increase or decrease friction at the contact point, I believe it's because an additional force, another friction vector, requires the ob to respond according to the direction of the additional force, the resulting friction being the combination of these forces.
I don’t know if I believe it or not - can’t tell if we disagree substantively or just semantically. Fun, subtle topic for us nerds.You don't believe it. I'm good with that.:thumbup:
pj
chgo
Last edited: