A white billiard ball has a mass of 0.170 kg. A green billiard ball has a mass of 0.160 kg. A collision involving a white ball and a green ball is described in the Before and After diagrams below. Before the White Ball-Green Ball Collision White ball mwb= 0.170 kg Vwh = 2.00 m/s Pwb = 0.340 kg-m/s Ek = 0.340 J Kwb 40 Green ball mb = 0.160 kg = 0 m/s Pgb = 0 kg-m/s gb Ek = 0 J Kgb After the White Ball-Green Ball Collision White ball Vwh = 1.20 m/s Pwb = 0.204 kg-m/s Ek = 0.122 J Kwb Green ball 75° Vgb = ? Immediately after the collision with the green ball, the white ball collided with the rubber bumper along the edge of the billiard table. The white ball’s velocity before the ball hit th bumper was 1.20 m/s, right, and immediately after the ball hit the bumper it was 1.10 m/s, left Rubber bumper

- How would you find the speed of the green ball exactly right after the collision?

- How would you find the impulse that was experienced by the white ball during the collision with the side bumper?

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A white billiard ball has a mass of 0.170 kg. A green billiard ball has a mass of 0.160 kg. A collision involving a white ball and a green ball is described in the Before and After diagrams below. Before the White Ball-Green Ball Collision White ball = 0.170 kg mwb Pwb = 0.340 kg-m/s = 2.00 m/s V wb = 0.340 J wb 40 Green ball = 0.160 kg Pgh = 0 kg-m/s m. %3D 'gb Ek, = 0J `gb Vgb = 0 m/s Aft the White Ball-Green Ball Collision White ball Vwh = 1.20 m/s Pwb = 0.204 kg-m/s %3D = 0.122 J wb Green ball 75° Vgb = ? Immediately after the collision with the green ball, the white ball collided with the rubber bumper along the edge of the billiard table. The white ball's velocity before the ball hit the bumper was 1.20 m/s, right, and immediately after the ball hit the bumper it was 1.10 m/s, left. Rubber bumper