The equation of motion of a certain mass-spring-damper system is 5x'' + cx' +10x = f(t). Suppose that f(t) = Fsin(wt). Define the magnitude ratio as M = X/F. Determine the natural frequency w_n, the peak frequency w_p, and the peak magnitude ratio M_p for damping ratio = 0.1 and the damping ratio = 0.3 Problem 4.2 The equation of motion of a certain mass spring damper system is 5 X + c X + 10 X = f(t)Supposed that f(t) = F sin wt. Define the magnitude ratio as M = X / F. Determine the natural frequencywn, the peak frequency wp, and the peak magnitude ratio Mp for(a) = 0.1(b) = 0.3

The equation is The applied force is

Answered: Problem 4.2 The equation of motion of a…

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

ChapterMA: Math Assessment

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The equation of motion of a certain mass-spring-damper system is 5x'' + cx' +10x = f(t). Suppose that f(t) = Fsin(wt). Define the magnitude ratio as M = X/F. Determine the natural frequency w_n, the peak frequency w_p, and the peak magnitude ratio M_p for damping ratio = 0.1 and the damping ratio = 0.3

Problem 4.2 The equation of motion of a certain mass spring damper system is 5 X + c X + 10 X = f(t)
Supposed that f(t) = F sin wt. Define the magnitude ratio as M = X / F. Determine the natural frequency
wn, the peak frequency wp, and the peak magnitude ratio Mp for
(a) = 0.1
(b) = 0.3

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