1. Blocks A and B move along frictionless vertical bars and are connected with a rope that wraps around the frictionless pulley at P. Block A has a mass of 2kg and block B has a mass of 10 kg. The spring shown is unstretched when block B is in contact with the ground. The system is released from rest in the position shown. Determine the speeds of A and B immediately before B hits the ground. Neglect the mass of the rope and the pulley. The linear spring has a stiffness of 40 N/m and is attached to the ground and to block B. Treat blocks as Particles with negligible dimensie Ed = 2.5 m D P

1. Blocks A and B move along frictionless vertical bars and are connected with a rope that wraps around the frictionless pulley at P. Block A has a mass of 2kg and block B has a mass of 10 kg. The spring shown is unstretched when block B is in contact with the ground. The system is released from rest in the position shown. Determine the speeds of A and B immediately before B hits the ground. Neglect the mass of the rope and the pulley. The linear spring has a stiffness of 40 N/m and is attached to the ground and to block B. Treat blocks as Particles with negligible dimensie Ed = 2.5 m D P

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Question

It's urgent please solve asap.

1. Blocks A and B move along frictionless vertical bars and are connected
with a rope that wraps around the frictionless pulley at P. Block A has a
mass of 2kg and block B has a mass of 10 kg. The spring shown is
unstretched when block B is in contact with the ground. The system is
released from rest in the position shown. Determine the speeds of A and
B immediately before B hits the ground. Neglect the mass of the rope
and the pulley. The linear spring has a stiffness of 40 N/m and is
attached to the ground and to block B.
Treat bloeks as
particl es with
negligible dimensions
d = 2.5 m
P

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