Path: ...!news.misty.com!3.eu.feeder.erje.net!feeder.erje.net!fu-berlin.de!uni-berlin.de!news.dfncis.de!not-for-mail From: Luigi Fortunati Newsgroups: sci.physics.research Subject: Re: Converging forces Date: 30 Apr 2025 07:04:27 GMT Organization: A noiseless patient Spider Lines: 37 Approved: hees@itp.uni-frankfurt.de (sci.physics.research) Message-ID: References: X-Trace: news.dfncis.de imbJ77nL+lUpNnw1+5Jx8QjZFx6T8gcksRvTjqKJWo/L1zWu+YgHGJ6Jqu5VW7lqHD Cancel-Lock: sha1:NXBIVc069vUBlCIkL+Pc4/riM7w= sha256:6MYgv7f+eYOh02Q5kpfFYtxQBvwggZM7vk1Ti23PEQo= Bytes: 2284 Luigi Fortunati il 27/04/2025 17:23:11 ha scritto: > The small body P is at rest at the point x_P=0, while the bodies A and > B approach at the same speed from the left and right, arriving at P at > the same time, as shown in the animation > https://www.geogebra.org/classic/fyymjr9s > > During the collision, the crushing of the tiny body P is always there > (regardless of the mass of the two bodies A and B) because the forces > F1 and F2 are convergent. > > Instead, the acceleration of P may or may not be there because, after > the collision, P can start moving to the right or to the left (changing > its speed from zero to +v or -v) or it can remain at its initial place > x_P=0, leaving its zero speed unchanged. > > What conditions must be met for P to accelerate to one side or the > other and what conditions for it to remain at rest in its place? > > If the small body P is not there and the points A and B collide > directly with each other, do the forces F1 and F2 stop being > convergent? > > Luigi Fortunati > > [[Mod. note -- We are given that A and B have the same speed. So, if > (and only if) A and B have the same mass, then the system is left-right > symmetric, so P will remain stationary. > -- jt]] If A and B have the same mass, will only P remain stationary or will the entire system A+P+B remain stationary? Are the internal forces of the system A+P+B (F1 and F2) in equilibrium only if A and B have the same mass or are they also in equilibrium when their masses are different? Luigi Fortunati