A spring mass system consists of a spring with spring constant k and an attached block of mass m is submerged in a liquid that produces a damping force F, . m = 1 Kg F, = 10 times the instantaneous velocity of the center of mass of the block. k = 16 N/m If the mass is initially released from rest 1 meter below the equilibrium position. a. Give a second degree equation that describe the motion of the center of mass of the attached block b. Solve the equation in part a.

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A spring mass system consists of a spring with spring constant k and an attached block of mass m is
submerged in a liquid that produces a damping force F, .
m = 1 Kg
F, = 10 times the instantaneous velocity of the center of mass of the block.
k = 16 N/m
If the mass is initially released from rest 1 meter below the equilibrium position.
a. Give a second degree equation that describe the motion of the center of mass of the attached
block
b. Solve the equation in part a.
Transcribed Image Text:A spring mass system consists of a spring with spring constant k and an attached block of mass m is submerged in a liquid that produces a damping force F, . m = 1 Kg F, = 10 times the instantaneous velocity of the center of mass of the block. k = 16 N/m If the mass is initially released from rest 1 meter below the equilibrium position. a. Give a second degree equation that describe the motion of the center of mass of the attached block b. Solve the equation in part a.
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