Prove that for a matrix A(m*n): rankA + NullityA = n

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.

Prove that any m ×n matrix A can be written in the form A = QR,...

Prove that any m ×n matrix A can be written in the form A = QR, where Q is an m × m orthogonal matrix and R is an m × n upper right triangular matrix.

Prove the following: Given k x m matrix A, m x n matrix B. Then rank(A)=m...

Prove the following: Given k x m matrix A, m x n matrix B. Then rank(A)=m --> rank(AB)=rank(B)

For an arbitrary m x n matrix, Prove that (AT)T = A by using the definition...

For an arbitrary m x n matrix, Prove that (AT)T = A by using the definition of the transpose.

1. If A is an n n matrix, prove that (a) ATA is a symmetric matrix....

1. If A is an n n matrix, prove that (a) ATA is a symmetric matrix. (b) A + AT is a symmetric matrix and A - AT is a skew-symmetric matrix. (c) A is the sum of a symmetric and a skew-symmetric matrix.

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,B be a m by n matrix, Prove that |rank(A)-rank(B)|<=rank(A-B)

Let A,B be a m by n matrix, Prove that |rank(A)-rank(B)|<=rank(A-B)

Let A be an n×n nonsingular matrix. Denote by adj(A) the adjugate matrix of A. Prove:...

Let A be an n×n nonsingular matrix. Denote by adj(A) the adjugate matrix of A. Prove: 1)   det(adj(A)) = (det(A)) 2)    adj(adj(A)) = (det(A))n−2A

5. (a) Prove that det(AAT ) = (det(A))2. (b) Suppose that A is an n×n matrix...

5. (a) Prove that det(AAT ) = (det(A))2. (b) Suppose that A is an n×n matrix such that AT = −A. (Such an A is called a skew- symmetric matrix.) If n is odd, prove that det(A) = 0.

Prove the Cayley-Hamilton theorem for any n x n square matrix.

Prove the Cayley-Hamilton theorem for any n x n square matrix.