.Two snooker balls, each of mass m, move freely on a frictionless, horizontal surface, as shown in Figure Q1(b). Ball A is moving at a speed v0 = 10 m/s when it hits ball B which is at rest and the impact causes ball B to break into two parts, each of mass m/2. One of the parts reaches Point C about 0.07 s after the collision and the other part reaches Point D about 0.09 s after the collision. (i) Determine the velocity of ball A after the collision. (ii) Determine the angle θ and the velocities of the two parts after the collision. (iii) From your working in Q1(b)(i), explain with calculations and reasoning how the velocity of ball A could move forward after the collision.
.Two snooker balls, each of mass m, move freely on a frictionless, horizontal surface, as shown in Figure Q1(b). Ball A is moving at a speed v0 = 10 m/s when it hits ball B which is at rest and the impact causes ball B to break into two parts, each of mass m/2. One of the parts reaches Point C about 0.07 s after the collision and the other part reaches Point D about 0.09 s after the collision. (i) Determine the velocity of ball A after the collision. (ii) Determine the angle θ and the velocities of the two parts after the collision. (iii) From your working in Q1(b)(i), explain with calculations and reasoning how the velocity of ball A could move forward 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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(b).Two snooker balls, each of mass m, move freely on a frictionless, horizontal surface, as shown in Figure Q1(b). Ball A is moving at a speed v0 = 10 m/s when it hits ball B which is at rest and the impact causes ball B to break into two parts, each of mass m/2. One of the parts reaches Point C about 0.07 s after the collision and the other part reaches Point D about 0.09 s after the collision.
-
(i) Determine the velocity of ball A after the collision.
-
(ii) Determine the angle θ and the velocities of the two parts after the collision.
-
(iii) From your working in Q1(b)(i), explain with calculations and reasoning how
the velocity of ball A could move forward after the collision.
Transcribed Image Text:A B
30°
Vo
0.1m
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