The system shown in figure task 2c is displaced from its static equilibrium position to the right a distance of 0.01m. An impulsive force acts towards the left on the mass at the instant of its release to give it an initial velocity Vo in that direction. If the system has the following parameters K=15700N/m, c=1570N-sec/m, m=9.8kg Figure: TASK 2c (a) Derive the expression for the displacement from the equilibrium position in terms of time t and initial velocity Vo (b) What value of Vo would be required to make the mass pass the position of the static equilibrium 1/100 sec after it is applied

The system shown in figure task 2c is displaced from its static equilibrium position to the right a distance of 0.01m. An impulsive force acts towards the left on the mass at the instant of its release to give it an initial velocity Vo in that direction. If the system has the following parameters K=15700N/m, c=1570N-sec/m, m=9.8kg Figure: TASK 2c (a) Derive the expression for the displacement from the equilibrium position in terms of time t and initial velocity Vo (b) What value of Vo would be required to make the mass pass the position of the static equilibrium 1/100 sec after it is applied

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Question

(c)
The system shown in figure task 2c is displaced from its static equilibrium position to the right a
distance of 0.01m. An impulsive force acts towards the left on the mass at the instant of its release to
give it an initial velocity Vo in that direction. If the system has the following parameters K=15700N/m,
c=1570N-sec/m, m=9.8kg
Figure: TASK 2c
(a) Derive the expression for the displacement from the equilibrium position in terms of time t and
initial velocity Vo
(b) What value of Vo would be required to make the mass pass the position of the static equilibrium
1/100 sec after it is applied

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