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Prob. # 1] The spring system shown in figure P1 has the following spring constants: ki = 5 N/m, k2 = 4 N/m, k3 = 6 N/m, ka = 3 N/m, and ks = 8 N/m. If the load of the springs is 3 kg, determine a) the equivalent spring constant, N/m and Ib/ft; b) the total elongation of the springs; c) the natural frequency, the period, and the frequency; and d) the vibration equation, the velocity equation, and acceleration equation if the amplitude of vibration is equal to the total elongation of the springs

Prob. # 1] The spring system shown in figure P1 has the following spring constants: ki = 5 N/m, k2 = 4 N/m, k3 = 6 N/m, ka = 3 N/m, and ks = 8 N/m. If the load of the springs is 3 kg, determine a) the equivalent spring constant, N/m and Ib/ft; b) the total elongation of the springs; c) the natural frequency, the period, and the frequency; and d) the vibration equation, the velocity equation, and acceleration equation if the amplitude of vibration is equal to the total elongation of the springs

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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Vibration Topic. Please answer with complete solution and correct units. Thanks

Prob. # 1] The spring system shown in figure P1 has the following spring constants: ki = 5 N/m, k2 = 4 N/m, k3 = 6 N/m, ka = 3 N/m, and ks = 8 N/m. If the load of the springs is 3 kg, determine a) the equivalent spring constant, N/m and Ib/ft; b) the total elongation of the springs; c) the natural frequency, the period, and the frequency; and d) the vibration equation, the velocity equation, and acceleration equation if the amplitude of vibration is equal to the total elongation of the springs P1
Transcribed Image Text:Prob. # 1] The spring system shown in figure P1 has the following spring constants: ki = 5 N/m, k2 = 4 N/m, k3 = 6 N/m, ka = 3 N/m, and ks = 8 N/m. If the load of the springs is 3 kg, determine a) the equivalent spring constant, N/m and Ib/ft; b) the total elongation of the springs; c) the natural frequency, the period, and the frequency; and d) the vibration equation, the velocity equation, and acceleration equation if the amplitude of vibration is equal to the total elongation of the springs P1
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