A block of mass 1.86 kg is attached to a string that is wrapped around a pulley and then attached on the other side to a spring as shown. The pulley is a uniform solid cylinder of mass m, = 2.69 kg and radius R = 0.6 m. At first the block is held so the spring is unstretched. You then let the block go. As the block falls, the rope and pulley move together without slipping. What is the speed of the block after it has fallen a distance d = 0.67 m if the spring constant equals 20.1 N/m? (in m/s) 000000

College Physics
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Chapter1: Units, Trigonometry. And Vectors
Section: Chapter Questions
Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...
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my question is in the image.

Every time I do this I get 1.756 m/s which is wrong. Where am I going wrong?

A block of mass 1.86 kg is attached to a string that is wrapped around a pulley and then attached on the other side to
a spring as shown. The pulley is a uniform solid cylinder of mass m, = 2.69 kg and radius R = 0.6 m. At first the block
is held so the spring is unstretched. You then let the block go. As the block falls, the rope and pulley move together
without slipping. What is the speed of the block after it has fallen a distance d = 0.67 m if the spring constant equals
20.1 N/m?
(in m/s)
0000od
Transcribed Image Text:A block of mass 1.86 kg is attached to a string that is wrapped around a pulley and then attached on the other side to a spring as shown. The pulley is a uniform solid cylinder of mass m, = 2.69 kg and radius R = 0.6 m. At first the block is held so the spring is unstretched. You then let the block go. As the block falls, the rope and pulley move together without slipping. What is the speed of the block after it has fallen a distance d = 0.67 m if the spring constant equals 20.1 N/m? (in m/s) 0000od
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