A 1 kg object is attached to a spring and will stretch the spring 9.8 cm by itself. Aforcing function of the form F(t) = 18 cos(wt) is attached to the object and thesystem experiences resonance. The object is initially displaced 8.5 cm downward fromits equilibrium position and given a velocity of 7 cm/sec upward. Assume there is nodamping in the system and displacement and velocity are positive downward. Useg = 9.8 m/s². Keep the coefficients in your answer exact or round them off to at leastfive decimal places.a) What is the differential equation of the motion.y' +=y' +y=b) Solve the differential equation to find the displacement as a function of time (t).y(t)

We have a 1 kg object attached to a spring that stretches the spring by 9.8 cm when hanging freely.…

Answered: A 1 kg object is attached to a spring…

Advanced Engineering Mathematics

10th Edition

ISBN:9780470458365

Author:Erwin Kreyszig

Publisher:Erwin Kreyszig

Chapter2: Second-order Linear Odes

Section: Chapter Questions

Problem 1RQ

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An object stretches a spring 6 inches in equilibrium. a) Find its displacement for t > 0 if it is initially displaced 4 inches below equilibrium and given an upward velocity of 8 ft/s. y(t) = = b) State the natural frequency of the oscillation. Wo = rad/s c) State the period of the oscillation. T S = d) State the amplitude of the oscillation. R ft = e) State the phase angle of the oscillation. The phase angle should be between - T and π radians. = Notes: 1. Use g 32 ft/s². = rad 2. Assume there is no damping in the system and displacement and velocity are positive upward.
13-41. A 150-mm-diameter shaft with a mass of 20 kg is rotating at 900 rpm. A pulley mounted on the shaft has a mass moment of inertia of 0.15 kg - m2. If the shaft and the pulley coast to a stop due to a tangential frictional force of 8 lb at the outer radius of the shaft, determine the time required.
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(a) A pivot is placed under the beam at x = 4. Calculate the total torque around the pivot and state whether the beam is rotating clockwise or counter-clockwise. (b) The pivot is moved such that the beam is now in equilibrium. Find the new x-position of the pivot.

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