5. A 0.10-kg object is attached to a spring with a spring constant of 5 N/m. There are no external forces acting on the system. The spring is initially displaced 0.10 m upwards from its equilibrium position and given an initial velocity of 2 m/s downward. A damper is attached to the system such that it exerts a 2 N-force when the velocity is 1 m/s. Find the position of the mass in meter with respect to the equilibrium position after 2 seconds. A. At equilibrium position B. 0.10m above equilibrium position C. 0.10m below equilibrium position D. 0.25m below equilibrium position
5. A 0.10-kg object is attached to a spring with a spring constant of 5 N/m. There are no external forces acting on the system. The spring is initially displaced 0.10 m upwards from its equilibrium position and given an initial velocity of 2 m/s downward. A damper is attached to the system such that it exerts a 2 N-force when the velocity is 1 m/s. Find the position of the mass in meter with respect to the equilibrium position after 2 seconds. A. At equilibrium position B. 0.10m above equilibrium position C. 0.10m below equilibrium position D. 0.25m below equilibrium position
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Transcribed Image Text:5. A 0.10-kg object is attached to a spring with a spring constant of 5 N/m. There are no external forces acting on
the system. The spring is initially displaced 0.10 m upwards from its equilibrium position and given an initial
velocity of 2 m/s downward. A damper is attached to the system such that it exerts a 2 N-force when the velocity
is 1 m/s. Find the position of the mass in meter with respect to the equilibrium position after 2 seconds.
A. At equilibrium position
B. 0.10m above equilibrium position
C. 0.10m below equilibrium position
D. 0.25m below equilibrium position
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