Consider the initial value problemтx" + сх + kx —F(t), x(0) = 0, x'(0) = 0modeling the motion of a damped mass-spring system initially at rest and subjected to anapplied force F(t), where the unit of force is the Newton (N). Assume that m = 2 kilograms,8 kilograms per second, k = 80 Newtons per meter, and F(t) = 40e¬ Newtons.C =Solve the initial value problem.x(t) =help (formulas)Determine the long-term behavior of the system (steady periodic solution). Is lim x(t) = 0?If it is, enter zero. If not, enter a function that approximates x(t) for very large positive valuesof t.For very large positive values of t,x(t) 2 Xsp(t) =help

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Answered: тx" + сх + kx — F(t), x(0) = 0, x' (0)…

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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Please help me is this correct for the question. And please complete part d) show all your work
(1 point) Consider the initial value problem my" + cy' + ky = F(t), y(0) = 0, y'(0) = 0 modeling the motion of a spring-mass-dashpot system initially at rest and subjected to an applied force F(t), where the unit of force is the Newton (N). Assume that m = 2 kilograms, c = 8 kilograms per second, k = 80 Newtons per meter, and the applied force in Newtons is 30 if 0 ≤t≤/2, F(t) 0 ift > π/2. a. Solve the initial value problem, using that the displacement y(t) and velocity y' (t) remain continuous when the applied force is discontinuous. For 0 ≤ts/2, y(t) Fortπ/2, y(t) = 0 (-3/8)(e^(-21))cos(6t)-(1/8)(e^(-2t))sin(6t)+3/8 help (formulas) help (formulas) b. Determine the long-term behavior of the system. Is lim y(t) = 0? If it is, enter zero. If not, enter a function that approximates y(t) for very large positive values of t. t-∞ For very large positive values of t, y(t) ≈0 help (formulas)
(c) The equation of a curve is given by, x²y² + 4y = x (i) Show that dy_1– 2xy? 4 + 2x²y dx Find the gradient of the curve at (0,0). (iii) Hence, find the equation of the tangent to the curve at (0,0).
Ut= Uxx u Cost)= U (1,t) -o U(Xio) =X
please all parts
Please Solve B15a

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