The discussion revolves around the behavior of a cue ball in snooker, particularly focusing on its speed when bouncing off the cushions. Participants explore the physics behind the ball's rebound speed, the effects of spin, and the perception of speed changes during gameplay.
Participants express differing views on whether the cue ball can rebound faster than it approached, with some attributing this to spin and others suggesting it may be a perceptual illusion. The discussion remains unresolved regarding the exact mechanics involved.
Participants acknowledge limitations in understanding the physics of cushion impacts, including the need for further analysis of speed before and after impact and the complexities introduced by spin.
Yes top spin giving angular momentum which will not be apparent from a normal view point. You can see a slowed down cue ball with spots more easily like in this video.tkyoung75 said:Maybe if it has spin
Have you ever played with a "superball" (high friction bouncy rubber ball)? If you give them lots of spin, they shoot off very fast at bounce. Rotational kinetic energy is converted into linear kinetic energy.TSN79 said:is that even possible? Does physics work that way?
I think the effect is that the trained eye expects a certain reduction in speed upon impact with the cushion. When this doesn't happen and the ball rebounds faster than expected it creates the illusion that it speeded up.TSN79 said:I was watching a game of snooker, and sometimes the cue ball bounces off the cushions with surprisingly high speed. Some people often say that it comes off the cushion faster than it went into it. And I started thinking - is that even possible? Does physics work that way?
PeroK said:I think the effect is that the trained eye expects a certain reduction in speed upon impact with the cushion. When this doesn't happen and the ball rebounds faster than expected it creates the illusion that it speeded up.
That said, I would like to see some analysis of the speed of a ball before and after it strikes the cushion.
The cases in question are not where spin is involved. Those cases are known and understood.