1. Two blocks, of masses M = 2.3 kg and 2M are connected to a spring of spring constant k = 180 N/m that has one end fixed, as shown in the Figure-1. The coefficient of kinetic friction between the horizontal surface and the block is 0.12. The pulley is frictionless and has a negligible mass. The blocks are released from rest with the spring relaxed. M 2M Figure-1 (a) What is the work done by the friction on the block of mass M? (b) What is the combined kinetic energy of the two blocks when the hanging block has fallen 8 cm? (c) What maximum distance does the hanging block fall before momentarily stopping?

1. Two blocks, of masses M = 2.3 kg and 2M are connected to a spring of spring constant k = 180 N/m that has one end fixed, as shown in the Figure-1. The coefficient of kinetic friction between the horizontal surface and the block is 0.12. The pulley is frictionless and has a negligible mass. The blocks are released from rest with the spring relaxed. M 2M Figure-1 (a) What is the work done by the friction on the block of mass M? (b) What is the combined kinetic energy of the two blocks when the hanging block has fallen 8 cm? (c) What maximum distance does the hanging block fall before momentarily stopping?

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Question

Please provide unique solution. Thank you.

1. Two blocks, of masses M = 2.3 kg and 2M are connected to a spring of spring constant k
= 180 N/m that has one end fixed, as shown in the Figure-1. The coefficient of kinetic
friction between the horizontal surface and the block is 0.12. The pulley is frictionless
and has a negligible mass. The blocks are released from rest with the spring relaxed.
M
2M
Figure-1
(a) What is the work done by the friction on the block of mass M?
(b) What is the combined kinetic energy of the two blocks when the hanging block has
fallen 8 cm?
(c) What maximum distance does the hanging block fall before momentarily stopping?

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