A box with mass, m =2.10 kg glides down from a 4.30 m high and 30.0°incline. At the endof the slide, it hits another static box with M = 7.00 kgas shown in Figure 2. The friction isignored and the collision is elastic.4.30 mM30.0°Figure 2i. Briefly explain energy conservation, including the mechanical energyexperienced bythe mass, m right before the collision.ii. Determine the velocities of both boxes after the collision.

m = 2.10 kg h = 4.30 m (initial height) θ = 30oM = 7 kg Initial velocity of M = 0 msCollision type =…

A box with mass, m = 2.10 kg glides down from a 4.30 m high and 30.0° incline. At the endof the slide, it hits another static box with M=7.00 kg as shown in Figure 2. The friction isignored and the collision is elastic. m 4.30 m M 30.0 Figure 2 i. Briefly explain energy conservation, including the mechanical energy experienced bythe mass, m right before the collision. ii. Determine the velocities of both boxes after the collision.

A box with mass, m = 2.10 kg glides down from a 4.30 m high and 30.0° incline. At the endof the slide, it hits another static box with M=7.00 kg as shown in Figure 2. The friction isignored and the collision is elastic. m 4.30 m M 30.0 Figure 2 i. Briefly explain energy conservation, including the mechanical energy experienced bythe mass, m right before the collision. ii. Determine the velocities of both boxes after the collision.

College Physics

11th Edition

ISBN:9781305952300

Author:Raymond A. Serway, Chris Vuille

Publisher:Raymond A. Serway, Chris Vuille

Chapter1: Units, Trigonometry. And Vectors

Section: Chapter Questions

Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...

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