Let A be an m x n matrix and let E be a m x m...

Let A be an n × n matrix and let x be an eigenvector of A...

Let A be an n × n matrix and let x be an eigenvector of A corresponding to the eigenvalue λ . Show that for any positive integer m, x is an eigenvector of Am corresponding to the eigenvalue λ m .

Let M be a 3x3 matrix. (4pts) For which matrix E will the transformation EM  ( from...

Let M be a 3x3 matrix. (4pts) For which matrix E will the transformation EM  ( from M to EM) perform an exchange of the first and the third row? (4pts)  What about scaling the second row by a factor of r ? (4pts)  What about adding a times the first row to the third row? (3pts) Can you describe the general forms of these matrices (that represent elementary row operations)?

Let M be an n x n matrix with each entry equal to either 0 or...

Let M be an n x n matrix with each entry equal to either 0 or 1. Let mij denote the entry in row i and column j. A diagonal entry is one of the form mii for some i. Swapping rows i and j of the matrix M denotes the following action: we swap the values mik and mjk for k = 1,2, ... , n. Swapping two columns is defined analogously. We say that M is rearrangeable if...

Let A be an n x M matrix and let T(x) =A(x). Prove that T: R^m...

Let A be an n x M matrix and let T(x) =A(x). Prove that T: R^m R^n is a linear transformation

Let A be an m × n matrix, and Q be an n × n invertible...

Let A be an m × n matrix, and Q be an n × n invertible matrix. (1) Show that R(A) = R(AQ), and use this result to show that rank(AQ) = rank(A); (2) Show that rank(AQ) = rank(A).

Let A be an m×n matrix, x a vector in Rn, and b a vector in...

Let A be an m×n matrix, x a vector in Rn, and b a vector in Rm. Show that if x1 in Rn is a solution to Ax=b and x2 is a solution to Ax=⃗0, then x1 +x2 is a solution to Ax=b.

Let E be an n×n matrix, and letU= {xE:x∈Rn} (where x∈Rn is written as arow vector)....

Let E be an n×n matrix, and letU= {xE:x∈Rn} (where x∈Rn is written as arow vector). Show that the following are equivalent. (a) E^2 = E = E^T (T means transpose). (b) (u − uE) · (vE) = 0 for all u, v ∈ Rn. (c) projU(v) = vE for all v ∈ Rn.

1.Let A be an n x n matrix. Which of these conditions show that A is...

1.Let A be an n x n matrix. Which of these conditions show that A is invertible? •det A= 0 • dim (NulA) = 1 •ColA=R^n •A^T is invertible •an n x n matrix, D, exists where AD=In

Let A be an m × n matrix with m ≥ n and linearly independent columns....

Let A be an m × n matrix with m ≥ n and linearly independent columns. Show that if z1, z2, . . . , zk is a set of linearly independent vectors in Rn, then Az1,Az2,...,Azk are linearly independent vectors in Rm.

n×n-matrix M is symmetric if M = M^t. Matrix M is anti-symmetric if M^t = -M....

n×n-matrix M is symmetric if M = M^t. Matrix M is anti-symmetric if M^t = -M. 1. Show that the diagonal of an anti-symmetric matrix are zero 2. suppose that A,B are symmetric n × n-matrices. Prove that AB is symmetric if AB = BA. 3. Let A be any n×n-matrix. Prove that A+A^t is symmetric and A - A^t antisymmetric. 4. Prove that every n × n-matrix can be written as the sum of a symmetric and anti-symmetric matrix.