Find the characteristic polynomial of the matrix -5 4 0 0 -2 3 -1 2 0...

6. Let A =   3 −12 4 −1 0 −2 −1 5 −1 ...

6. Let A =   3 −12 4 −1 0 −2 −1 5 −1   . 1 (a) Find all eigenvalues of A5 (Note: If λ is an eigenvalue of A, then λ n is an eigenvalue of A n for any integer n.). (b) Determine whether A is invertible (Check if the constant term of the characteristic polynomial χA(λ) is non-zero.). (c) If A is invertible, find (i) A−1 using the Cayley-Hamilton theorem (ii) All the eigenvalues...

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 =

Obtain a spectral decomposition for the symmetric matrix A = [0 2 2, 2 0 2,...

Obtain a spectral decomposition for the symmetric matrix A = [0 2 2, 2 0 2, 2 2 0] (that means the first row is 022, then below that 202, etc.) , whose characteristic polynomial is −(λ + 2)^2 (λ − 4) If you could provide a step-by-step way to solve this I'd greatly appreciate it.

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...

Find the inverse matrix of [ 3 2 3 1 ] [ 2 1 0 0...

Find the inverse matrix of [ 3 2 3 1 ] [ 2 1 0 0 ] [ 3 -5 1 0 ] [ 4 2 3 1 ] This is all one 4x4 matrix Required first step add second row multiplied by (-1) to first row try to not use fractions at all to solve this problem

Given a matrix F = [3 6 7] [0 2 1] [2 3 4]. Use Cramer’s...

Given a matrix F = [3 6 7] [0 2 1] [2 3 4]. Use Cramer’s rule to find the inverse matrix of F. Given a matrix G = [1 2 4] [0 -3 1] [0 0 3]. Use Cramer’s rule to find the inverse matrix of G. Given a matrix H = [3 0 0] [-1 1 0] [-2 3 2]. Use Cramer’s rule to find the inverse matrix of H.

LINEAR ALGEBRA For the matrix B= 1 -4 7 -5 0 1 -4 3 2   ...

LINEAR ALGEBRA For the matrix B= 1 -4 7 -5 0 1 -4 3 2    -6 6    -4 Find all x in R^4 that are mapped into the zero vector by the transformation Bx. Does the vector: 1 0 2 belong to the range of T? If it does, what is the pre-image of this vector?

Let A =[6,8;-4,-6] A. Find the characteristic polynomial of A p(x)= B. Find the eigenvalue of...

Let A =[6,8;-4,-6] A. Find the characteristic polynomial of A p(x)= B. Find the eigenvalue of A and the basis for the associated eigenspaces. smallest eigenvalue= Basis for the eigenspaces= largest eigenvalue= basis for the eigenspaces=

1. Find P{X = x} for x = 0, 1, 2, 3, 4, 5 for a...

1. Find P{X = x} for x = 0, 1, 2, 3, 4, 5 for a Bin(5, 3/7) random variable. 2. Find the first and third quartiles as well as the median for a Beta(3, 3) random variables. 3. Find P{X ≤ x} for x = 0, 1, 2, 3 for a χ 2 2 random variable. 4. Simulate 80 Pois(5) random variable. Find the mean and variance of these simulated values.

Let ?? be the path with ? edges and ?? (?) be the characteristic polynomial of...

Let ?? be the path with ? edges and ?? (?) be the characteristic polynomial of ??; recall that ?? (?) = det(? − ??) where ? is the adjacency matrix of ??. Use properties of determinants of adjacency matrices to show that for ? ≥ 3, ?? (?) = −? ??−1 (?) − ??−2 (?). It is acceptable to examine a generic adjacency matrix ? for a path and expand det(? − ??) along the first row.