The system shown in figure P5 is initially at rest in the position x - 0 with the sprie deformed. At time t = 0 the mass receives an impulse that gives it an initial velocity of V = 80 fp the damping constant is c= 50 lb-s/t, determine a) the damping condition of the system; and e expression for x(t). 400 Ihớh m 15 Ib

The system shown in figure P5 is initially at rest in the position x - 0 with the sprie deformed. At time t = 0 the mass receives an impulse that gives it an initial velocity of V = 80 fp the damping constant is c= 50 lb-s/t, determine a) the damping condition of the system; and e expression for x(t). 400 Ihớh m 15 Ib

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

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Free undamped vibrations

Whenever an object/system displaces in either side of its equilibrium position with the help of an external/internal means, then the object/system moves regularly or randomly on both sides of its equilibrium position. This motion is called vibration. Generally, there are three types of vibration: longitudinal vibration, transverse vibration, and torsional vibration.

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#5 vibrations, will upvote anyone who will answer. Thanks

The system shown in figure P5 is initially at rest in the position x = 0 with the spring
undeformed. At time t = 0 the mass receives an impulse that gives it an initial velocity of V = 80 fps.
If the damping constant is c = 50 lb-s/t, determine a) the damping condition of the system; and b)
the expression for x(t).
PS
k = 400 Ib/t
m 15 Ib

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