A mass of 2 kg stretches a spring by meters. The spring is placed in a medium which exerts a damping 30 force numerically equal to 4 times the mass's velocity. The spring is then stretched to a position 0.1 meters below equilibrium and is released from rest. Set up, but DO NOT SOLVE, an IVP for the equation of motion x(t) for the mass attached to the spring. Please assume that "below equilibrium" corresponds to a negative value of x.

A mass of 2 kg stretches a spring by meters. The spring is placed in a medium which exerts a damping 30 force numerically equal to 4 times the mass's velocity. The spring is then stretched to a position 0.1 meters below equilibrium and is released from rest. Set up, but DO NOT SOLVE, an IVP for the equation of motion x(t) for the mass attached to the spring. Please assume that "below equilibrium" corresponds to a negative value of x.

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Question

help solve correctly pls. Thank you.

1
A mass of 2 kg stretches a spring by meters. The spring is placed in a medium which exerts a damping
30
force numerically equal to 4 times the mass's velocity. The spring is then stretched to a position 0.1 meters
below equilibrium and is released from rest.
Set up, but DO NOT SOLVE, an IVP for the equation of motion ä(t) for the mass attached to the spring.
Please assume that "below equilibrium" corresponds to a negative value of x.

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