3. A projectile of mass m = target of mass M = 2 kg and gets imbedded in it. Assuming that all the kinetic energy after the collision is converted into gravitational potential energy, to what maximum height above the original position will the two masses rise? 0.2 kg and initial speed v; = 200 ms- hits a stationary (a) h = 16.9 m (b) h = 18.6 m (c) h= 20.4 m (d) h = 22.5 m

3. A projectile of mass m = target of mass M = 2 kg and gets imbedded in it. Assuming that all the kinetic energy after the collision is converted into gravitational potential energy, to what maximum height above the original position will the two masses rise? 0.2 kg and initial speed v; = 200 ms- hits a stationary (a) h = 16.9 m (b) h = 18.6 m (c) h= 20.4 m (d) h = 22.5 m

Name: 3. A projectile of mass m =target of mass M = 2 kg and gets imbedded
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Description: 3. A projectile of mass m =target of mass M = 2 kg and gets imbedded in it. Assuming that all the kineticenergy after the collision is converted into gravitational potential energy, to whatmaximum height above the original position will the two mass

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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3. A projectile of mass m =
target of mass M = 2 kg and gets imbedded in it. Assuming that all the kinetic
energy after the collision is converted into gravitational potential energy, to what
maximum height above the original position will the two masses rise?
0.2 kg and initial speed vi = 200 ms- hits a stationary
(a) h = 16.9 m
(b) h = 18.6 m
(c) h= 20.4 m
(d) h = 22.5 m

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