The vibration model is subjected to the force shown in the figure. Find the response of the system for time t>2T O z(t) = O z(t)= O r(t) = Ox(t)=0 [1-cosw, t]-1-coswn (t-T)] (1-coswnt]+2-1-coswn (t-T)]-[1-coswn (t - 2T)] [t-sinwnt] - [1-swn(t-T)] + [1-coswn (t-27)] O r(t) =(1-coswnt] - [1-coswn (t-T)]+[1-coswn (t - 27')]

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 vibration model is subjected to the force shown in the figure. Find the response of the system
for time t>2T
O r(t) =
Ox(t) =
Ox(t) =
Ox(t) = 0
[1-coswnt] - [1-coswn (t-T)]
(1-cosw, t) + 2 (1-coswn (t-T)]-[1-coswn (t - 2T)]
[t-sinwnt] - [1-swn (t-T)]+[1-coswn (t-2T)]
O r(t) =(1-coswnt] - [1-coswn (t-T)]+[1-coswn (t - 2T)]
Transcribed Image Text:The vibration model is subjected to the force shown in the figure. Find the response of the system for time t>2T O r(t) = Ox(t) = Ox(t) = Ox(t) = 0 [1-coswnt] - [1-coswn (t-T)] (1-cosw, t) + 2 (1-coswn (t-T)]-[1-coswn (t - 2T)] [t-sinwnt] - [1-swn (t-T)]+[1-coswn (t-2T)] O r(t) =(1-coswnt] - [1-coswn (t-T)]+[1-coswn (t - 2T)]
x(t)
0000000000
m
kea
F
Vibration model
Fo
Fo
F(t)
T
2T
t (sec)
The vibration model is subjected to the force shown in the figure. Find the response of the system
for time t>2T
Transcribed Image Text:x(t) 0000000000 m kea F Vibration model Fo Fo F(t) T 2T t (sec) The vibration model is subjected to the force shown in the figure. Find the response of the system for time t>2T
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