After the collision, the orange ball always goes off in the positive x-direction. The final speeds are v and V. Calculate the angle 0 that the green ball goes off in. (0 should be positive.) • Vo = the initial green body's speed = 2 m/s • M = the mass of both balls = 2 kg p = the incoming green ball's angle = 40° %3D %3D It's always a good idea to check your answer with the momentum-conservation and energy-conservation equations.

After the collision, the orange ball always goes off in the positive x-direction. The final speeds are v and V. Calculate the angle 0 that the green ball goes off in. (0 should be positive.) • Vo = the initial green body's speed = 2 m/s • M = the mass of both balls = 2 kg p = the incoming green ball's angle = 40° %3D %3D It's always a good idea to check your answer with the momentum-conservation and energy-conservation equations.

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Description: Treat the collision as elastic. A moving billiard ball hits an identical (except for color) stationary ball. After the collision, the orange ball always goes off in the positive x-direction. Thefinal speeds are v and V. Calculate the angle 0 that th

College Physics

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ISBN:9781305952300

Author:Raymond A. Serway, Chris Vuille

Publisher:Raymond A. Serway, Chris Vuille

Chapter1: Units, Trigonometry. And Vectors

Section: Chapter Questions

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Treat the collision as elastic. A moving billiard ball hits an identical (except for color) stationary ball.

After the collision, the orange ball always goes off in the positive x-direction. The
final speeds are v and V. Calculate the angle 0 that the green ball goes off in. (0
should be positive.)
Vo = the initial green body's speed = 2 m/s
• M = the mass of both balls = 2 kg
p = the incoming green ball's angle = 40°
%D
It's always a good idea to check your answer with the momentum-conservation
and energy-conservation equations.

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