A pendulum of mass M₁=1 kg and length L = 0.75 m is released from rest in the horizontal position as shown below. When it reaches its lowest point it collides elastically with a stationary block of mass M₂ = 2 kg resting on a frictionless horizontal surface. The 2-kg mass then collides with a spring. Calculate the maximum compression of the spring. (10 Ste

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please define the system and provide the free-body diagram with x-y-axis

1. A pendulum of mass M₁=1 kg and length L = 0.75 m is released from rest in the
horizontal position as shown below. When it reaches its lowest point it collides
elastically with a stationary block of mass M₂ = 2 kg resting on a frictionless
horizontal surface. The 2-kg mass then collides with a spring. Calculate the
maximum compression of the spring.
V = 0
M₁
L
M₂
K = 350 N/m
N
Transcribed Image Text:1. A pendulum of mass M₁=1 kg and length L = 0.75 m is released from rest in the horizontal position as shown below. When it reaches its lowest point it collides elastically with a stationary block of mass M₂ = 2 kg resting on a frictionless horizontal surface. The 2-kg mass then collides with a spring. Calculate the maximum compression of the spring. V = 0 M₁ L M₂ K = 350 N/m N
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