For the system of differential equations,[]+[4]y6 8a) Find the characteristic polynomial of the matrix of coefficients A.CA(X)A1, A2 =U₁ ==b) Find the eigenvalues of A. Enter the eigenvalues as a list in ascending orderseparated by commas.U₂ =c) Find the eigenvectors assuming u₁ is the eigenvector associated with the smallereigenvalue X₁ and u₂ is the eigenvector associated with the larger eigenvalue A₂. Enterthe eigenvectors as a matrix with an appropriate size.v(t)y'=d) Determine a general solution to the system by completing the following steps.i. Find v(t) = = [y−¹(t)f(t)dt .yp(t) =-7y (t)ii. Find a particular solution y(t).=ii. Then a general solution for the system in the matrix form is

Answered: Image /qna-images/answer/ad73343e-62c1-4b21-adad-327456742095.jpg

Answered: For the system of differential…

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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11) Find the values of such that the equations have non-trivial solutions. What are the eigenvalues and eigenvectors? (6-2) x + 3y = 0 3x - (2+2)y = 0
4 2 -2 b) Find the Eigen values of the matrix A = -5 -2 4 2 1 sin 0 0] cos e 0| is an orthogonal 1. cos O c) Define orthogonal matrix. Show that A = matrix.
a) Find the eigenvalues of A. b) Find three linearly independent solutions of x' = Ax. c) Find the exponential e^(tA) Let A = 2 -1 ا دیا 0 0 3 0 -30
Assume that a 3 x 3 matrix A has eigenvalues 21 = 1,22=0.8, 23=0.6 With corresponding eigenvectors (₂), v₂ = (³) och (⁹). (a) Which 3-vectors can be written as a linear combination of the three eigenvectors? (b) What A¹v1, A2, Av3 respectively Av? (n is an arbitrary integer) (c) What about Anv when n→ ∞o? (It depends a little on the coefficients x1, x2, x3) (d) Now suppose that we have a 3×3 matrix with some eigenvalues 21, 22, 23 € R V₁ = V3 =
Find a 3 x 3 matrix A whose -4-eigenspace is and whose 3-eigenspace is A = V = {(x, y, z) in R³ | -8x14y + 10z = 0} 8pc (C) {}} W = Span
Suppose A is a 3 x 3 matrix with eigenvectors [1] V1 = V2 = 1 and v3 = corresponding to eigenvalues A1 =-, d2 = }, and A3 = 1, respectively. Find A and A20.
Consider the Initial Value Problem: X1 = (a) Find the eigenvalues and eigenvectors for the coefficient matrix. 181 v1 x₁ x^2 = = - 3x₁ + 3x₂ 9 - 6x1 + 3x₂ " (b) Solve the initial value problem. Give your solution in real form. X1 = x2 = and A2 x₁ (0) x₂ (0) = " = = V2 = 2 7 [8]
Find the three distinct real eigenvalues of the matrix
For the system of differential equations, X1, X2 a) Find the characteristic polynomial of the matrix of coefficients A. CA(X) b) Find the eigenvalues of A. Enter the eigenvalues as a list in ascending order separated by commas. U₁ = U2 = = y' = c) Find the eigenvectors assuming u₁ is the eigenvector associated with the smaller eigenvalue X₁ and u2 is the eigenvector associated with the larger eigenvalue A2. 5 2 - 1 Y2 (t) d) Determine two linearly independent solutions to the system. Enter the first solution in the format y₁ (t) y = = y₁ (t) Enter the second solution in the format y₂(t) = ƒ2(t) (v3h₁(t) + v₁h₂(t)) = : fi(t) (vigi(t) – v2g2(t)) . +
- (1-3). Determine the eigenvalue and corres- 3. a) Given the matrix A = ponding eigenvector and generalized eigenvector of A. b) Determine the general solution of the system of linear differential equations: x₁ = I₁=I₂ x₂ = x1₁+3x₂
x'(t) = of the any - 2 5-6 4 1-4-6|x (t) x (0) = -2 + -3 1 The only eigen value of this matrix is -3, a triple root. You must explicitly find matrix involved, with the exception cannot involve Also, your answer 0 imaginary any matrix inverses. number i.
A) Find the eigenbasis of the matrix and diagonalize it (if possible): when p=4. Also, Use this diagonalization to find A^3 and A^7. (the matrix in the photo) B) For the matrix in part (A), find A^2 and A^1 theorem.using Cayley-Hamilton

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