Hello. Answer is s=0.42m (how far the spring goes down before stopping the object falling). I am uploading this question as the example answer's working out was bad I find it hard to follow. I would like to see working out how the calculations equate to the answer being s=0.42m A mass of 100 kg and is released from rest 0.75 m from the top of a spring,A, that has a stiffness k = 12 kN/m.o determine the maximum displacement of A needed to stop thedownward motion of the ram.o Neglect the mass of the springs.m木0.75 m

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Answered: A mass of 100 kg and is released from…

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

ChapterMA: Math Assessment

Section: Chapter Questions

Problem 1.1MA

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Hello. Answer is s=0.42m (how far the spring goes down before stopping the object falling). I am uploading this question as the example answer's working out was bad I find it hard to follow. I would like to see working out how the calculations equate to the answer being s=0.42m

A mass of 100 kg and is released from rest 0.75 m from the top of a spring,
A, that has a stiffness k = 12 kN/m.
o determine the maximum displacement of A needed to stop the
downward motion of the ram.
o Neglect the mass of the springs.
m
木
0.75 m

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