The homogeneous rod OA is supported at point 0, and a mass of 2m is attached at the bottom of the system as shown. For small oscillations and by use МЕТНOD; of ENERGY a) determine the equation of motion and natural frequency of the system by neglecting the mass of the homogeneous rod OA, b) determine the equation of motion and natural frequency of the system by assuming that the homogeneous rod OA has a mass of m.
The homogeneous rod OA is supported at point 0, and a mass of 2m is attached at the bottom of the system as shown. For small oscillations and by use МЕТНOD; of ENERGY a) determine the equation of motion and natural frequency of the system by neglecting the mass of the homogeneous rod OA, b) determine the equation of motion and natural frequency of the system by assuming that the homogeneous rod OA has a mass of m.
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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Question
![The homogeneous rod OA is supported at
point 0, and a mass of 2m is attached at the
bottom of the system as shown. For small
oscillations
МЕТНOD;
and by use
of ENERGY
2k
ww
k
a) determine the equation of motion and
natural frequency of the system by neglecting
the mass of the homogeneous rod OA,
L
A
2m
b) determine the equation of motion and
natural frequency of the system by assuming
that the homogeneous rod OA has a mass of m.
S.E.P.
The system is in static equilibrium position at
the instant given.](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F67de318c-d478-4eb8-8209-d71dc4dcbb48%2F99cd3b99-2741-4ef7-930a-97bba83963e0%2F3wadeg_processed.jpeg&w=3840&q=75)
Transcribed Image Text:The homogeneous rod OA is supported at
point 0, and a mass of 2m is attached at the
bottom of the system as shown. For small
oscillations
МЕТНOD;
and by use
of ENERGY
2k
ww
k
a) determine the equation of motion and
natural frequency of the system by neglecting
the mass of the homogeneous rod OA,
L
A
2m
b) determine the equation of motion and
natural frequency of the system by assuming
that the homogeneous rod OA has a mass of m.
S.E.P.
The system is in static equilibrium position at
the instant given.
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