A 5.0 kg bowling ball going 3.6 m/s E hits a 0.70 kg bowling pin which is at rest. The collision lasts 0.012 s and the bowling pin ends up going 7.4 m/s 34° S of E (two dimensional collision, use vectors). (a) What is the final velocity of the bowling ball? (2.8 m/s, 12° N of E) b) What impulse (change in momentum) did the bowling pin experience ? The bowling ball ? (5.2 kg m/s, 34° S of E, 5.2 kg m/s, 34° N of W, equal & opp) c) What force did the bowling pin experience during the collision (size and direction)? (4.3 x 102 N, 34° S of E)
A 5.0 kg bowling ball going 3.6 m/s E hits a 0.70 kg bowling pin which is at rest. The collision lasts 0.012 s and the bowling pin ends up going 7.4 m/s 34° S of E (two dimensional collision, use vectors). (a) What is the final velocity of the bowling ball? (2.8 m/s, 12° N of E) b) What impulse (change in momentum) did the bowling pin experience ? The bowling ball ? (5.2 kg m/s, 34° S of E, 5.2 kg m/s, 34° N of W, equal & opp) c) What force did the bowling pin experience during the collision (size and direction)? (4.3 x 102 N, 34° S of E)
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Transcribed Image Text:A 5.0 kg bowling ball going 3.6 m/s E hits a 0.70 kg bowling pin which is at rest. The
collision lasts 0.012 s and the bowling pin ends up going 7.4 m/s 34° S of E (two
dimensional collision, use vectors).
a) What is the final velocity of the bowling ball ?
(2.8 m/s, 12° N of E)
b) What impulse (change in momentum) did the bowling pin experience? The
bowling ball ? (5.2 kg m/s, 34° S of E, 5.2 kg m/s, 34° N of W, equal & opp)
c) What force did the bowling pin experience during the collision (size and direction)?
(4.3 x 102 N, 34° S of E)
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