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

See similar textbooks

Similar questions

Ben can wash a car in 2 hours while his younger brother James can do it in 3 hours. How longwill it take to wash the car if they work together?
solve the initial value problem
4 A B and C please
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.
Solve both parts plz solve both
do not copy
(a) If 2 is the eigenvalue and V is the corresponding eigenvector of the matrix A then prove that X(t) = elty is a solution of the system of DEs X' = AX.
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
5. Solve the linear systems using eigenvalues and eigenvectors. dx = x+4z dt dy dt -= 2y dz -= 3x+y-3z dt
Find the general solution of the system x'(t) = Ax(t) for the given matrix A. A = -1 1 0 1 4 1 0 131 What are the eigenvalues of the matrix A? The eigenvalues are -1, -3,6. (Type an integer or a fraction. Use a comma to separate answers as needed.) What is the general solution of the system? x(t)= (Do not use d, D, e, E, i, or I as arbitrary constants since these letters already have defined meanings.)
dy dy +3 dr? 6. Consider the second-order equation - 10y = 0. di (a) Convert the equation to a first-order, linear system. (b) Compute the eigenvalues and eigenvectors of the system. (c) For each eigenvalue, pick an associated eigenvector V, and determine the solution Y(t) to the system. (d) Compare the results of your calculation with the results that you obtained when you used the guess-and-test method in Homework 6, question 4.

Recommended textbooks for you

Advanced Engineering Mathematics

Advanced Math

ISBN:

9780470458365

Author:

Erwin Kreyszig

Publisher:

Wiley, John & Sons, Incorporated

Numerical Methods for Engineers

Advanced Math

ISBN:

9780073397924

Author:

Steven C. Chapra Dr., Raymond P. Canale

Publisher:

McGraw-Hill Education

Introductory Mathematics for Engineering Applicat…

Advanced Math

ISBN:

9781118141809

Author:

Nathan Klingbeil

Publisher:

WILEY

Advanced Engineering Mathematics

Advanced Math

ISBN:

9780470458365

Author:

Erwin Kreyszig

Publisher:

Wiley, John & Sons, Incorporated

Numerical Methods for Engineers

Advanced Math

ISBN:

9780073397924

Author:

Steven C. Chapra Dr., Raymond P. Canale

Publisher:

McGraw-Hill Education

Introductory Mathematics for Engineering Applicat…

Advanced Math

ISBN:

9781118141809

Author:

Nathan Klingbeil

Publisher:

WILEY

Mathematics For Machine Technology

Advanced Math

ISBN:

9781337798310

Author:

Peterson, John.

Publisher:

Cengage Learning,

Basic Technical Mathematics

Advanced Math

ISBN:

9780134437705

Author:

Washington

Publisher:

PEARSON

Topology

Advanced Math

ISBN:

9780134689517

Author:

Munkres, James R.

Publisher:

Pearson,

SEE MORE TEXTBOOKS