When the rope is at an angle of a = 30° the 0.5-kg sphere A has a speed vo=1.2 m/s. The coefficient of restitution between A and the 0.9-kg wedge B is 0.7 and the length of rope 1 = 0.8 m. The spring constant has a value of 500 N/m and 0= 20°. Determine the velocity of A and B immediately after the impact. A a B k www
When the rope is at an angle of a = 30° the 0.5-kg sphere A has a speed vo=1.2 m/s. The coefficient of restitution between A and the 0.9-kg wedge B is 0.7 and the length of rope 1 = 0.8 m. The spring constant has a value of 500 N/m and 0= 20°. Determine the velocity of A and B immediately after the impact. A a B k www
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No need to solve. Just draw the free body diagram of the sphere and wedge that would help in solving the problem.
Transcribed Image Text:When the rope is at an angle of a = 30° the 0.5-kg sphere A has
a speed to = 1.2 m/s. The coefficient of restitution between A and
the 0.9-kg wedge B is 0.7 and the length of rope = 0.8 m. The
spring constant has a value of 500 N/m and = 20°. Determine
the velocity of A and B immediately after the impact.
A
vo
a
B
k
www
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