to A block of mass 0.402 kg is hung from a vertical spring andallowed to reach equilibrium at rest. As a result, the spring isstretched by 0.648 m. Find the spring constant.O Macmillan LearningThe block is then pulled down an additional 0.384 m andreleased from rest. Assuming no damping, what is its periodof oscillation?How high above the point of release does the block reach asit oscillates?N/mm

Name: to A block of mass 0.402 kg is hung from a vertical spring andallowed
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Description: to A block of mass 0.402 kg is hung from a vertical spring andallowed to reach equilibrium at rest. As a result, the spring isstretched by 0.648 m. Find the spring constant.O Macmillan LearningThe block is then pulled down an additional 0.384 m andr

Given That: Mass of Block, m=0.402 kg Spring stretched by, x=0.648 m

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A block of mass 0.402 kg is hung from a vertical spring and allowed to reach equilibrium at rest. As a result, the spring is stretched by 0.648 m. Find the spring constant. The block is then pulled down an additional 0.384 m and released from rest. Assuming no damping, what is its period of oscillation? How high above the point of release does the block reach as it oscillates? N/m m

A block of mass 0.402 kg is hung from a vertical spring and allowed to reach equilibrium at rest. As a result, the spring is stretched by 0.648 m. Find the spring constant. The block is then pulled down an additional 0.384 m and released from rest. Assuming no damping, what is its period of oscillation? How high above the point of release does the block reach as it oscillates? N/m m

Inquiry into Physics

8th Edition

ISBN:9781337515863

Author:Ostdiek

Publisher:Ostdiek

Chapter2: Newton's Laws

Section: Chapter Questions

Problem 28P: . A mass of 0.75 kg is attached to a relaxed spring with k = 2.5 N/m. The mass rests on a...

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