(3 points) Consider the ordinary differential equation where w- 1.8 and the values of bn are cons...
Consider the differential equation: y" + 12y' + 36 = 6x2 + 5e-52. a. Find the general solution to the corresponding homogeneous equation. In your answer, use cy and ca to denote arbitrary constants. Enter C as c1 and ca as c2. Yc = b. Apply the method of undetermined coefficients to find a particular solution. Yp = Submit answer
Problem 3: Insights into Differential Equations a. Consider the differential equation 습 +4 = f(t), where f(t) = e-u, 12 0. Please write the forms of the natural and forced solution for this differential equation. You DO NOT need to solve. (7 points) b. Again consider the differential equation f(t), where f(t) is an input and y(t) is the output (response) of interest. Please write the differential equation in state-space form. (10 points) c. The classical method for solving differential...
1. Consider the Partial Differential Equation ot u(0,t) = u(r, t) = 0 a(x, 0)-x (Y), sin (! We know the general solution to the Basic Heat Equation is u(z,t)-Σ b e ). n= 1 (b) Find the unique solution that satisfies the given initial condition ur, 0) -2. (Hint: bn is given by the Fourier Coefficients-f(z),sin(Y- UsefulFormulas/Facts for PDEs/Fourier Series 1)2 (TiT) » x sin aL(1)1 a24(부) (TiT) 1)+1 0 1. Consider the Partial Differential Equation ot u(0,t) =...
Consider the differential equation: y' - 5y = -2x – 4. a. Find the general solution to the corresponding homogeneous equation. In your answer, use cı and ca to denote arbitrary constants. Enter ci as c1 and ca as c2. Yc = cle cle5x - + c2 b. Apply the method of undetermined coefficients to find a particular solution. yp er c. Solve the initial value problem corresponding to the initial conditions y(0) = 6 and y(0) = 7. Give...
Find a particular solution to the differential equation using the Method of Undetermined Coefficients. y" - y' + 196y = 14 sin (14) A solution is yp(t) =
Find a particular solution to the differential equation using the Method of Undetermined Coefficients. y" - y' + 484y = 22 sin (22) A solution is yp(t)=0
6. (20 points) Consider the following non-homogeneous set of coupled, ordinary differential equations: X'=(02 (a) Write the general solution to the homogeneous problem in terms of the fundamental solution matrix, Ω(t). (b) Is the forcing function resonant with the homogeneous solution? Explain why or why not. (c) Write the general solution to the non-homogeneous problem- Use EITHER diagonalization (Let X = PY) or Variation of Parameters. d) EXTRA CREDIT: Check your work by using the other method. MacBook Air FS...
(27 points) Find the general solution of the associated homogeneous equation for each nonhomogeneous differential equation below. Then determine the form of a particular solution ур of the nonhomogeneous equation. Do not solve for the undetermined coefficients in yp (a) (10 points) y" – 9y' – 22 y = 5xe -2x (b) (10 points) y" – 4y' + 29 y = 8x sin 3x
(27 points) Find the general solution of the associated homogeneous equation for each nonhomogeneous differential equation below. Then determine the form of a particular solution y, of the nonhomogeneous equation. Do not solve for the undetermined coefficients in yp: (a) (10 points) y" - 9y' - 22y = 5xe-2x (b) (10 points) y" – 4y' + 29 y = 8x sin 3x
Previous Problem Problem List Next Problem (10 points) This problem is related to Problems 9.33-9.38 in the text. We have solved differential equations using the method of undetermined coefficients (Chapter 7) and Laplace transforms (Chapter 8). We can use Fourier series to find the particular solution of an arbitrary order differential equation - as long as the driving function is periodic and can be represented by a Fourier series In the problem description and answers, all numerical angles(phases) should be...