Mass m, and mass m2 are on a frictionless horizontal surface. Mass m, has initial velocity Viz to the right; mass m2 is initially at rest. Connected only to m2 is a spring with a stiffness coefficient k as shown in the diagram. Mass m1 slides toward m2, comes in contact with the spring and begins to compress the spring. In terms of m1, m2, k, and Vi1, find the maximum compression of the spring. k wlleer mz m,
Mass m, and mass m2 are on a frictionless horizontal surface. Mass m, has initial velocity Viz to the right; mass m2 is initially at rest. Connected only to m2 is a spring with a stiffness coefficient k as shown in the diagram. Mass m1 slides toward m2, comes in contact with the spring and begins to compress the spring. In terms of m1, m2, k, and Vi1, find the maximum compression of the spring. k wlleer mz m,
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Connected only to m2 is a spring with a stiffness coefficient k as shown in the diagram. Mass m1 slides toward m2, comes in contact
with the spring and begins to compress the spring. In terms of m1, m2, k, and Vi1, find the maximum compression of the spring.
Mass m1 and mass m2 are on a frictionless horizontal surface. Mass m1 has initial velocity Vi1 to the right; mass mą is initially at rest.
Vin =0
k
Vil
M2
II
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