A 0.9-kg ball A is moving with a velocity of magnitude 6 m/s when it is hit as shown by a 1.6-kg ball B which has a velocity of magnitude 4 m/s. Knowing that the coefficient of restitution is 0.8 and assuming no friction, determine the velocity of each ball after impact. (Round the final answer to three decimal places.) ₁ - 6 m/s 40° 0-4 m/s The velocity of ball A after impact is v'A= The velocity of ball B after impact is v'B = m/s > m/s 4
A 0.9-kg ball A is moving with a velocity of magnitude 6 m/s when it is hit as shown by a 1.6-kg ball B which has a velocity of magnitude 4 m/s. Knowing that the coefficient of restitution is 0.8 and assuming no friction, determine the velocity of each ball after impact. (Round the final answer to three decimal places.) ₁ - 6 m/s 40° 0-4 m/s The velocity of ball A after impact is v'A= The velocity of ball B after impact is v'B = m/s > m/s 4
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Transcribed Image Text:A 0.9-kg ball A is moving with a velocity of magnitude 6 m/s when it is hit as shown by a
1.6-kg ball B which has a velocity of magnitude 4 m/s. Knowing that the coefficient of
restitution is 0.8 and assuming no friction, determine the velocity of each ball after impact.
(Round the final answer to three decimal places.)
DA A-6 m/s.
40°
0-4 m/s
The velocity of ball A after impact is v'A =
The velocity of ball B after impact is v'B =
m/s >
m/s 4
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