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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A 12-lb weight stretches a spring 2 ft. The weight is pulled 8 in below theequilibrium position and given an initial downward velocity of 3 ft/sec. (Recallthat the downward direction is positive.) Find the motion of the weight as afunction of time, assuming that the damping force may be neglected. *** Please show handwritten work - thank you
A particle is moving with the given data. Find the position function, s(t), of the particle. [Note: a'(t) = j(t); that is, the derivative of the acceleration function, a(t), is called the jerk function, j(t).] j(t) = cos t, s(0) = 1, v(0) = 2, a(0) = 3
(c) The electric potential V at the point P(x, y, z) in a rectangular coordinate system is given by V = x2 + 4y2 + 9z. Calculate the rate of change of V at P(2,–1,3) in the direction from P to the origin.
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In the figure particle 1 of charge +5e is above a floor by distance d1= 4.60 mm and particle 2 of charge +8e is on the floor, at distance d2 = 6.00 mm horizontally from particle 1. What is the x component of the electrostatic force on particle 2 due to particle 1? di
A spring is stretched 8 feet into equilibrium by an object weighing 64 pounds, with a damping force of 8 pounds per ft/sec and an ex ternal force of 24 pounds. If the object is pushed down with a speed of 4ft/sec from a position 1 ft above the equilibrium position, find its displacement.

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