We present a multiple-collisions apparatus, based on low-cost and easy-to-find materials, which offers the opportunity to plan and to conduct a sequence of experimental activities aimed to study in a… Click to show full abstract
We present a multiple-collisions apparatus, based on low-cost and easy-to-find materials, which offers the opportunity to plan and to conduct a sequence of experimental activities aimed to study in a very simple way the energy transfer in multiple collisions. Our apparatus is based on the use of everyday life’s objects like toys, which allow stimulating students’ interest by creating a familiar learning context. Two significant experiments on multiple collisions are described and the analyses of the corresponding experimental results are discussed. The first experiment makes it possible to analyze the kinetic energy transfer along a chain of adjacent balls. The second experiment offers the opportunity to give an analogic conceptual illustration of the bounce of a supernova core after the gravitational collapse. Each experiment is pedagogically introduced by asking students to answer a appropriate stimulus questions, which were identified by instructors in a preliminary brainstorm session with students. Last, a theoretical model is given for kinetic energy transfer along a chain of balls and the experimental results are compared with the model predictions.
               
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