The discussion revolves around the nature of contact forces, specifically normal and tangential forces, in the context of collisions and friction. Participants explore the definitions, relationships, and implications of these forces in various scenarios, including inclined planes and different types of collisions.
Participants express differing views on the role and significance of tangential forces in various scenarios, indicating that multiple competing perspectives remain without a clear consensus.
Participants note that the treatment of tangential forces may vary based on the type of collision discussed, and there are unresolved questions regarding the assumptions made in different analytical models.
Not quite. The maximum static friction force is proportional normal force. The actual tangential frictional force is anything up to that.jfy4 said:The frictional force is tangential to that surface, and is proportional to the Normal force in elementary analysis.
Not at all. Any kind of force may have a component tangent to the trajectory.luis20 said:What I want to know is if all tangential forces are due to friction.
For what purpose?luis20 said:In a fast collision, the tangential force can be neglected?
nasu said:Not at all. Any kind of force may have a component tangent to the trajectory.
See for example motion on inclined plane. The gravity has a tangential component.For what purpose?
The effect of tangential forces on the final momentum distribution may become important for collisions that are not "head-on". For example, throwing a ball towards a wall at an angle. If the ball-wall friction is large the tangential component of the momentum will decrease and the angle of "reflection" will be smaller than the angle of incidence.
luis20 said:My teachers neglect the tangential component when we talk about collisions. Maybe that's because they are engineers.
Edit: But if you see collision articles, they talk only about the force which is normal to the contact surface! (tangential neglected) Collision is considered fast so the tangential force might be very little?
nasu said:Well, what kind of collisions are discussed by your teachers? Are they head-on collisions?
I mean, is there a tangential component of the momentum of the colliding object(s) or not?
It's not a question of whether the normal force passes through the centre of mass. The test is whether the relative motion of the points of contact immediately before collision is normal to the contact plane. Thus, a ball striking a flat surface at an angle will experience a tangential frictional force on impact unless it happened to be spinning in exactly the right way so that it made rolling contact instantaneously.luis20 said:Collisions which produce torque, where the normal force is not in the direction of the center of mass, those have tangential force for sure right?
haruspex said:If a ball radius R rebounds from a surface with speed V at θ to the normal, no sliding, I would think that the ball is now spinning at rate V sin(θ) / R.
I did specify "if no sliding"jbriggs444 said:This would be the case if the ball were to smoothly roll off the wall. That model is inaccurate in two ways.
1. The ball may slide across the wall instead of rolling without slippage. This would tend to apply in, for instance, the case of a steel ball hitting a steel wall at a glancing angle.
True - I did forget about that.2. Rotational rebound.