The mechanical system given in the figure below is critically damped. If the system starts XO3D1 m and Vo=10 m/s after finding the equation X(t), which gives the movement of the system, if it begins to move with its values, the value of XMax is measured calculate in unit. The value of the spring coefficient in the figure is K = 600 N/ m. Note: first find the damping coefficient c, which the damper must have for E=1.
The mechanical system given in the figure below is critically damped. If the system starts XO3D1 m and Vo=10 m/s after finding the equation X(t), which gives the movement of the system, if it begins to move with its values, the value of XMax is measured calculate in unit. The value of the spring coefficient in the figure is K = 600 N/ m. Note: first find the damping coefficient c, which the damper must have for E=1.
Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
Section: Chapter Questions
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![The mechanical system given in the figure below is critically damped. If the system starts XO=1 m and Vo=10 m/s after finding
the equation X(t), which gives the movement of the system, if it begins to move with its values, the value of XMax is measured
calculate in unit.
The value of the spring coefficient in the figure is K = 600 N / m.
Note: first find the damping coefficient c, which the damper must have for E=1.
- >x (t)
m=4kg
No friction
C
Please select one:
A.1,261 m
B.1,187 m
C.1,481 m
D.1,369 m
E.1,172 m
E1. 206 m](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F94c97cef-c5b4-4a1b-8af6-0798f59ca1cf%2F33279685-d1a7-4747-888c-780b1377caff%2Fu5cco7r_processed.jpeg&w=3840&q=75)
Transcribed Image Text:The mechanical system given in the figure below is critically damped. If the system starts XO=1 m and Vo=10 m/s after finding
the equation X(t), which gives the movement of the system, if it begins to move with its values, the value of XMax is measured
calculate in unit.
The value of the spring coefficient in the figure is K = 600 N / m.
Note: first find the damping coefficient c, which the damper must have for E=1.
- >x (t)
m=4kg
No friction
C
Please select one:
A.1,261 m
B.1,187 m
C.1,481 m
D.1,369 m
E.1,172 m
E1. 206 m
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