2. ?̇=??, ?= [3 −18 ; 2 −9]. (1) Find the eigenvalue of multiplicity two and...

2.  For each 3*3 matrix and each eigenvalue below construct a basis for the eigenspace Eλ. A=...

2.  For each 3*3 matrix and each eigenvalue below construct a basis for the eigenspace Eλ. A= (9 42 -30 -4 -25 20 -4 -28 23),λ = 1,3 A= (2 -27 18 0 -7 6 0 -9 8) , λ = −1,2 3. Construct a 2×2 matrix with eigenvectors(4 3) and (−3 −2) with eigen-values 2 and −3, respectively. 4. Let A be the 6*6 diagonal matrix below. For each eigenvalue, compute the multiplicity of λ as a root of the...

Let lambda be an eigenvalue of A in X'=AX of multiplicity n. Find the general solution...

Let lambda be an eigenvalue of A in X'=AX of multiplicity n. Find the general solution of dx/dt = -5x +3y dy/dt = -3x + y Use eigenvalues, eigenvectors, and coefficients in your method.

Let A  =  58 9 1 9 20 9 59 9 A has λ  =  7...

Let A  =  58 9 1 9 20 9 59 9 A has λ  =  7 as an eigenvalue, with corresponding eigenvector   1 5  , and λ  =  6 as an eigenvalue, with corresponding eigenvector   −1 4  .  Find the solution to the system y′1   =   58 9  y1  +  1 9  y2 y′2   =   20 9  y1 +   59 9  y2 that satisfies the initial conditions y1(0)  =  0 and  y2(0)  =  3. What is the value of y1(1)

The matrix [−1320−69] has eigenvalues λ1=−1 and λ2=−3. Find eigenvectors corresponding to these eigenvalues. v⃗ 1=...

The matrix [−1320−69] has eigenvalues λ1=−1 and λ2=−3. Find eigenvectors corresponding to these eigenvalues. v⃗ 1= ⎡⎣⎢⎢ ⎤⎦⎥⎥ and v⃗ 2= ⎡⎣⎢⎢ ⎤⎦⎥⎥ Find the solution to the linear system of differential equations [x′1 x′2]=[−13 20−6 9][x1 x2] satisfying the initial conditions [x1(0)x2(0)]=[6−9]. x1(t)= ______ x2(t)= _____

Find the eigenvalues and the eigenvectors corresponding to them of the matrix -2 1 3 0...

Find the eigenvalues and the eigenvectors corresponding to them of the matrix -2 1 3 0 -2 6 0 0 4

Consider the matrix A= −2−2 6] [−2−3 5] [3 4−8] [−7−9 18 (all one matrix) (a)...

Consider the matrix A= −2−2 6] [−2−3 5] [3 4−8] [−7−9 18 (all one matrix) (a) How many rows ofAcontain a pivot position? (b) Do the columns ofAspanR4? (c) Does the equationA ~x=~b have a solution for every~b∈R^4? (d) Would the equation A~x=~0 have a nontrivial solution? (e) Are the columns of A linearly independent? (~x is vector x)

Linear Algebra Project : Dominant Eigenvalue Computation a. Apply the Power Method to estimate the dominant...

Linear Algebra Project : Dominant Eigenvalue Computation a. Apply the Power Method to estimate the dominant eigenvalue and a corresponding eigenvector for the matrix A and initial vector x0 below. Stop at k = 5. You can use 5 decimal places maximum if you wish (using rounding). A = 8 0 12 1 −2 1 0 3 0 ; x0 = 1 0 0 (You can also choose any other 3 × 3 or 4 × 4 matrix instead of...

Find the 3 * 3 matrix A corresponding to orthogonal projection onto the solution space of...

Find the 3 * 3 matrix A corresponding to orthogonal projection onto the solution space of the system below. 2x + 3y + z = 0; x - 3y - z = 0: Your solution should contain the following information: (a) The eigenvector(s) of A that is (are) contained in the solution space; (b) The eigenvector(s) of A that is (are) perpendicular to the solution space; (c) The corresponding eigenvalues for those eigenvectors.

Find the characteristic equation and the eigenvalues (and corresponding eigenvectors) of the matrix. 0 −3 5...

Find the characteristic equation and the eigenvalues (and corresponding eigenvectors) of the matrix. 0 −3 5 −4 4 −10 0 0 4 (a) the characteristic equation (b) the eigenvalues (Enter your answers from smallest to largest.) (λ1, λ2, λ3) = the corresponding eigenvectors x1 = x2 = x3 =

Given Eigenvalue 3, -2. Respective Eigenvector V1 = [1 1], V2= [1 -1]. Find the matrix...

Given Eigenvalue 3, -2. Respective Eigenvector V1 = [1 1], V2= [1 -1]. Find the matrix A