For the following mechanical systems, obtain the equations of motion in Laplace domain. 45% 10:29← Guia 6.pdf5:erencia X₁(s)/F(s) y X₂(s)/F(s). Se desea obtener con MATLAB la expansiónnes parciales de dichas funciones de transferencia, así como también sus polos.fv, = 1 N-s/mK= 1 N/m0000f(1) -fv,= 1 N-s/mM₂ = 1 kgfv,= 1 N-s/mfv₂ = 1 N-s/m2 N-s/m6 N/m0000 4kgf(1)M₁ = 8 kgFrictionlessM₁ = 1 kg2 N-s/m1 N/moooo4 N-s/mX₂(7)-00006 N/m4 kgFrictionlessM₂=3 kgTIILIIN3₂(1)4 kgFrictionlessA₂(1)000016 N-s/m 15 N/mFrictionless2 N-s/m

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For the following mechanical systems, obtain the equations of motion in Laplace domain

Power System Analysis and Design (MindTap Course List)

6th Edition

ISBN:9781305632134

Author:J. Duncan Glover, Thomas Overbye, Mulukutla S. Sarma

Publisher:J. Duncan Glover, Thomas Overbye, Mulukutla S. Sarma

Chapter8: Symmetrical Components

Section: Chapter Questions

Problem 8.1P

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Question

For the following mechanical systems, obtain the equations of motion in Laplace domain.

45% 10:29
← Guia 6.pdf
5
:
erencia X₁(s)/F(s) y X₂(s)/F(s). Se desea obtener con MATLAB la expansión
nes parciales de dichas funciones de transferencia, así como también sus pol
os.
fv, = 1 N-s/m
K= 1 N/m
0000
f(1) -
fv,= 1 N-s/m
M₂ = 1 kg
fv,= 1 N-s/m
fv₂ = 1 N-s/m
2 N-s/m
6 N/m
0000 4kg
f(1)
M₁ = 8 kg
Frictionless
M₁ = 1 kg
2 N-s/m
1 N/m
oooo
4 N-s/m
X₂(7)
-0000
6 N/m
4 kg
Frictionless
M₂=3 kg
TIILIIN
3₂(1)
4 kg
Frictionless
A₂(1)
0000
16 N-s/m 15 N/m
Frictionless
2 N-s/m

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