bokFind a general solution to the system below.x' (t) =8 -66-4x(t)This system has a repeated eigenvalue and one linearly independent eigenvector. To find a general solution, first obtain a nontrivial solution x₁ (t). Then, to obtain a second linearly independentsolution, try x₂(t) = te "u₁ + eu₂, where r is the eigenvalue of the matrix and u, is a corresponding eigenvector. Use the equation (A-rI)u₂ = u₁ to find the vector u₂.x(t) =(Do not use d, D, e, E, i, or I as arbitrary constants since these letters already have defined meanings.)Ask my instructor20 F3F6➤II►►F9Clear allF104)Show workF11Check answer

The given system is , x'(t) = 8-66-4x(t) => x'(t) = A x(t) where , A = 8-66-4…

Answered: Find a general solution to the system…

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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Solve the system of differential equations given in matrix form for the general solution. We must do this by calculating the eigenvalues and eigenvectors. Note: we get a repeated eigenvalue and must solve for the second eigenvector to get two linearly independent solutions for our general solution. Please explain how you calculate the second eigenvector
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