Consider the mass spring system shown in the figure below. The system is subject to a time dependent force 15 cos (wt) N and has zero initial displacement and velocity, i.e. w+wn 20 = 0 and v0 = 0 m/s. The mass of the system is m = 5 kg. The response of the system is 0.01 sin sin(t) m.lfwn - w = 1 rad/s, the driving frequency of the system, i.e.w, is: 999.5 rad/s 99.5 rad/s 499.5 rad/s 199.5 rad/s 299.5 rad/s Displacement x(t) F = Focos(wt)[ k m Hif
Consider the mass spring system shown in the figure below. The system is subject to a time dependent force 15 cos (wt) N and has zero initial displacement and velocity, i.e. w+wn 20 = 0 and v0 = 0 m/s. The mass of the system is m = 5 kg. The response of the system is 0.01 sin sin(t) m.lfwn - w = 1 rad/s, the driving frequency of the system, i.e.w, is: 999.5 rad/s 99.5 rad/s 499.5 rad/s 199.5 rad/s 299.5 rad/s Displacement x(t) F = Focos(wt)[ k m Hif
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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Consider the mass spring system shown in the figure below. The system is subject to a time dependent force
Transcribed Image Text:Consider the mass spring system shown in the figure below. The system is subject to a time dependent force 15 cos (wt) N and has zero initial displacement and velocity, i.e.
w+wn
= 0 m/s. The mass of the system is m = 5 kg. The response of the system is 0.01 sin ( t) sin(wwt) m. Ifwn - w = 1 rad/s, the driving frequency of
20 = 0 and vo
system, i.e.w, is:
the
00000
999.5 rad/s
99.5 rad/s
499.5 rad/s
199.5 rad/s
299.5 rad/s
Displacement
x(t)
F = Focos(wt)
m
k
Lüf
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