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Question 9 The ram R has a mass of 100-kg and is released from rest 0.75-m from the top of a spring, A, that has a stiffness ka = 12 kN/m. If a second spring B, having a stiffness kB = 15 kN/m is “nested" in A, determine the max displacement of A needed to stop the downward motion of the ram. 0.75 m k = 12 kNAn- A 0.4 m 0.3 m B- kg = 15 kN/D

Question 9 The ram R has a mass of 100-kg and is released from rest 0.75-m from the top of a spring, A, that has a stiffness ka = 12 kN/m. If a second spring B, having a stiffness kB = 15 kN/m is “nested" in A, determine the max displacement of A needed to stop the downward motion of the ram. 0.75 m k = 12 kNAn- A 0.4 m 0.3 m B- kg = 15 kN/D

Elements Of Electromagnetics
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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Question 9 The ram R has a mass of 100-kg and is released from rest 0.75-m from the top of a spring, A, that has a stiffness kA = 12 kN/m. If a second spring B, having a stiffness kB = 15 kN/m is “nested" in A, determine the max displacement of A needed to stop the downward motion of the ram. R 0.75 m A = 12 kN/m- A 0.4 m 0.3 m B- kg = 15 kN/D %3D
Transcribed Image Text:Question 9 The ram R has a mass of 100-kg and is released from rest 0.75-m from the top of a spring, A, that has a stiffness kA = 12 kN/m. If a second spring B, having a stiffness kB = 15 kN/m is “nested" in A, determine the max displacement of A needed to stop the downward motion of the ram. R 0.75 m A = 12 kN/m- A 0.4 m 0.3 m B- kg = 15 kN/D %3D
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