Figure P5 below shows a block of mass m that is attached to two ideal springs and viscous damper. If x = 0 and V = 5 m/s when t = 0, derive the equation of motion for the block a) for a damping factor of 1.75, b) for a damping factor of 1.0, and c) for a damping factor of 0.50. Assuming that x is measured from the position where the springs are undeformed, and use m = 0.4 kg, kı = 25 N/m, and k2 = 35 N/m. P5 m

Figure P5 below shows a block of mass m that is attached to two ideal springs and viscous damper. If x = 0 and V = 5 m/s when t = 0, derive the equation of motion for the block a) for a damping factor of 1.75, b) for a damping factor of 1.0, and c) for a damping factor of 0.50. Assuming that x is measured from the position where the springs are undeformed, and use m = 0.4 kg, kı = 25 N/m, and k2 = 35 N/m. P5 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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Design of Observer

According to the control theory, the state observer (state estimator) is known as the term that gives the measures of the internal state of any particular absolute system. The state observer uses the input as well as output of the system for measuring the internal state. It is standard computer-implemented and delivers the basis for numerous practical applications.

Question

Vibration Engineering. Please help to answer this problem. Show complete solution. Thanks will upvote after

Figure P5 below shows a block of mass m that is attached to two ideal springs and
viscous damper. If x = 0 and V = 5 m/s when t= 0, derive the equation of motion for the block a)
for a damping factor of 1.75, b) for a damping factor of 1.0, and c) for a damping factor of 0.50.
Assuming that x is measured from the position where the springs are undeformed, and use m =
0.4 kg, kı = 25 N/m, and k2 = 35 N/m.
P5
k2

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