A billiard player wishes to place his ball as close as possible to a pocket without falling into it. The two balls have a mass of 165 g each. The deceleration of the ball on the table is 0.1 m/s2, and the angle between the resulting balls' directions (vi' and v2*) is 90°. a) Calculate the initial velocity of the white ball, just after being hit by the cue. b) Calculate the impulse produced by the cue.
A billiard player wishes to place his ball as close as possible to a pocket without falling into it. The two balls have a mass of 165 g each. The deceleration of the ball on the table is 0.1 m/s2, and the angle between the resulting balls' directions (vi' and v2*) is 90°. a) Calculate the initial velocity of the white ball, just after being hit by the cue. b) Calculate the impulse produced by the cue.
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A billiard player wishes to place his
ball as close as possible to a pocket without falling into it. The two balls have a mass of 165 g each. The deceleration of the ball on the table is 0.1 m/s2, and the angle between the resulting balls' directions (vi' and v2*) is 90°.
a) Calculate the initial velocity of the white ball, just after being hit by the cue.
b) Calculate the impulse produced by the
cue.
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