Consider the following matrix. A = 4 -1 -1 2 6 -3 6 4 1 Let...

Consider the following matrix A, and let B = A−1. Find b31, b32, and b33. (i.e.,...

Consider the following matrix A, and let B = A−1. Find b31, b32, and b33. (i.e., find the entries in the third row of  A−1. A = 1 1 -2 8 -1 4 -2 -1 2 Please highlight each answer

Q2. Answer this question by hand. Consider the matrix matrix A = 2 6 6 7...

Q2. Answer this question by hand. Consider the matrix matrix A = 2 6 6 7 Determine the eigenvalues and normalized eigenvectors of A Compare the trace of A to the sum of the eigenvalues of A. Compare the determinant of A to the product of the eigenvalues of A. Find A−1 using elementary row operations. Be sure to indicate the elementary row operation used at each step of your calculation. Apply the formula A-1 = adj(A) = to obtain...

Let M = ( (−3 1 3 4), (1 2 −1 −2), (−3 8 4 2))...

Let M = ( (−3 1 3 4), (1 2 −1 −2), (−3 8 4 2)) 14. (3 points) Let B1 be the basis for M you found by row reducing M and let B2 be the basis for M you found by row reducing M Transpose . Find the change of coordinate matrix from B2 to B1.

Let C = column matrix [1 2 3 1] and D = row matrix[−1 2 1...

Let C = column matrix [1 2 3 1] and D = row matrix[−1 2 1 4] . Prove that (CD)^10 is the same as C(DC)^9D and do the calculation by hand.

Let A be a 2x2 matrix and suppose that det(A)=3. For each of the following row...

Let A be a 2x2 matrix and suppose that det(A)=3. For each of the following row operations, determine the value of det(B), where B is the matrix obtained by applying that row operation to A. a) Multiply row 1 by -4 b) Add 4 times row 2 to row 1 c) Interchange rows 2 and 1 Resulting values for det(B): a) det(B) = b) det(B) = c) det(B) =

. Given the matrix A = 1 1 3 -2 2 5 4 3 −1 2...

. Given the matrix A = 1 1 3 -2 2 5 4 3 −1 2 1 3 (a) Find a basis for the row space of A (b) Find a basis for the column space of A (c) Find the nullity of A

Using this matrix A = 4 -1 -1 2 6 -3 6 4 1 Find (a)...

Using this matrix A = 4 -1 -1 2 6 -3 6 4 1 Find (a) M21 (b) C32 (c) C13

1.Consider the following linear system in augmented matrix form [2 4−3 | 11 1 2−1 |...

1.Consider the following linear system in augmented matrix form [2 4−3 | 11 1 2−1 | 4] (a) Find the general solution of the linear system. (b) Find two particular solutions to this linear system.

#2. For the matrix A =   1 2 1 2 3 7 4 7...

#2. For the matrix A =   1 2 1 2 3 7 4 7 9   find the following. (a) The null space N (A) and a basis for N (A). (b) The range space R(AT ) and a basis for R(AT ) . #3. Consider the vectors −→x =   k − 6 2k 1   and −→y =   2k 3 4  . Find the number k such that the vectors...

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.