01577nam a22002057a 4500 20240508091628.0 240508b |||||||| |||| 00| 0 eng d 0031-921X Schwerz, Roseli Constantino Rolling with Slipping and Transition to Pure Rolling on an Inclined Plane (Journal Article) Washington : American Association of Physics Teachers , , February 2024 132–134p. The Physics Teacher Volume 62, Number 2, February 2024 ***______{For Hard Copy, Please visit Library.}________*** Abstract: To illustrate the problem studied in this paper, we will use a scenario in which five rigid disks move in a race on an inclined plane. First, they slip and, after a particular time, they only roll. The friction forces between each disk and the plane are distinct, and their values increase from disk 1 to disk 5. In this situation, how long does a disk take to enter a pure rolling motion? What are the requirements for this motion transition to occur? Which disk will have more energy when reaching the finishing line if they all arrive without slipping (i.e., pure rolling)? Most undergraduates, even some physics teachers, would indicate disk 1. However, the result may surprise them. Energy conservation| Mechanical energy| Rigid body dynamics| Rotational dynamics| Gravitational force| Educational aids Fontes, Adriana da Silva | Schwerz, Andre Luis https://doi.org/10.1119/5.0088212 PER 0 0 0 0 RIEBPL RIEBPL 2024-05-08 0 2024-05-08 09:16:35 2024-05-08 PER 45788 45787