SHM PROBLEM, A mass of 22 kg and a spring constant of 1289 N/m (the mass is sliding along a horizontal frictionless surface). It started at a distance of +0.5 meters in front of the origin) and it was at rest. What are the fully specified position and velocity equations( x as a function of time, v as a function of time) for this situation? How can you verify that the maximum velocity (found fr9m the velocity equation) is correct( meaning, the maximum velocity should be Aw- how else can you find it? How many times will this mass pass through the equilibrium in, say, 5 minutes? We suddenly “turn on” a damping force with a damping constant of 239 kg/s. What kind of damped system is this? How long will it take to essentially come to rest?

SHM PROBLEM, A mass of 22 kg and a spring constant of 1289 N/m (the mass is sliding along a horizontal frictionless surface). It started at a distance of +0.5 meters in front of the origin) and it was at rest. What are the fully specified position and velocity equations( x as a function of time, v as a function of time) for this situation? How can you verify that the maximum velocity (found fr9m the velocity equation) is correct( meaning, the maximum velocity should be Aw- how else can you find it? How many times will this mass pass through the equilibrium in, say, 5 minutes? We suddenly “turn on” a damping force with a damping constant of 239 kg/s. What kind of damped system is this? How long will it take to essentially come to rest?

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Question

Definition Definition Special type of oscillation where the force of restoration is directly proportional to the displacement of the object from its mean or initial position. If an object is in motion such that the acceleration of the object is directly proportional to its displacement (which helps the moving object return to its resting position) then the object is said to undergo a simple harmonic motion. An object undergoing SHM always moves like a wave.

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