The building with the pendulum can be represented using a cart-pendulum model shown in figure (2.3) below. Derive the equation of motion of the system. Assume the force amplitude and frequency are 40e4 [N] and 2 [rad/s], respectively. x(x) Ym =lsine Xm X+loose Xm =X-lOsine © ym=lecose x(t) X1 F(t) leoso e esno K K T- Y2MX+ Y%m X1 Keg ww F(t) M m2
The building with the pendulum can be represented using a cart-pendulum model shown in figure (2.3) below. Derive the equation of motion of the system. Assume the force amplitude and frequency are 40e4 [N] and 2 [rad/s], respectively. x(x) Ym =lsine Xm X+loose Xm =X-lOsine © ym=lecose x(t) X1 F(t) leoso e esno K K T- Y2MX+ Y%m X1 Keg ww F(t) M m2
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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How would you solve for the equation of motion using Lagrange equations ?
![TImuiIVIAL147.. U
A TInal_MAE147-Win...
X Equations Of Mo
The building with the pendulum can be represented using a cart-pendulum model shown in figure
(2.3)
below. Derive the equation of motion of the system. Assume the force amplitude and frequency are 40e4 [N] and
2 [rad/s], respectively.
Ym elsine
Xm² X+lose
Xm=X-eOsino o ym-l0cose
X(t)
M.
X1
leoso e
F(t)
V-V2kx
K
K
%3D
X1
Keg
F(t)
M
m2](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fbb3b63b4-702e-4c2c-936a-1674e5e2ea60%2F4e0a4616-910a-46c7-9cd8-27a72310a4a1%2Four3sky_processed.jpeg&w=3840&q=75)
Transcribed Image Text:TImuiIVIAL147.. U
A TInal_MAE147-Win...
X Equations Of Mo
The building with the pendulum can be represented using a cart-pendulum model shown in figure
(2.3)
below. Derive the equation of motion of the system. Assume the force amplitude and frequency are 40e4 [N] and
2 [rad/s], respectively.
Ym elsine
Xm² X+lose
Xm=X-eOsino o ym-l0cose
X(t)
M.
X1
leoso e
F(t)
V-V2kx
K
K
%3D
X1
Keg
F(t)
M
m2
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