If A and B are two real matrices where A∗B is non-singular, then can it be...

Characterize the family of all nxn non singular matrices A for which one step of the...

Characterize the family of all nxn non singular matrices A for which one step of the Gauss- Seidel algorithm solves Ax=b starting at the vector x=0

1). Show that if AB = I (where I is the identity matrix) then A is...

1). Show that if AB = I (where I is the identity matrix) then A is non-singular and B is non-singular (both A and B are nxn matrices) 2). Given that det(A) = 3 and det(B) = 2, Evaluate (numerical answer) each of the following or state that it’s not possible to determine the value. a) det(A^2) b) det(A’) (transpose determinant) c) det(A+B) d) det(A^-1) (inverse determinant)

In what follows, A and B denote 2 x 2 matrices. Answer each question below, with...

In what follows, A and B denote 2 x 2 matrices. Answer each question below, with justification. No one answer should be more than a few lines long. A1. If k is a scalar, how does the determinant of kA relate to the determinant of A? A2. Show that the determinant of A + B is not necessarily the same as det A + det B. (Remark: a single specific counterexample suffices!) A3. If A is singular and B is...

Prove the following statements: a) If A and B are two positive semidefinite matrices in IR...

Prove the following statements: a) If A and B are two positive semidefinite matrices in IR ^ n × n , then trace (AB) ≥ 0. If, in addition, trace (AB) = 0, then AB = BA =0 b) Let A and B be two (different) n × n real matrices such that R(A) = R(B), where R(·) denotes the range of a matrix. (1) Show that R(A + B) is a subspace of R(A). (2) Is it always true...

Please do both: a. Suppose that A ∈ Mn is non-singular. Prove that if λ ∈...

Please do both: a. Suppose that A ∈ Mn is non-singular. Prove that if λ ∈ σ(A), then λ −1 ∈ σ(A−1 ). b. If λ ∈ σ(U) and U ∈ Mn is unitary, show that |λ| = 1.

Express (BC)∗ , where B and C are nxn matrices.

Express (BC)∗ , where B and C are nxn matrices.

We say two n × n matrices A and B are similar if there is an...

We say two n × n matrices A and B are similar if there is an invertible n × n matrix P such that A = PBP^ -1. a) Show that if A and B are similar n × n matrices, then they must have the same determinant. b) Show that if A and B are similar n × n matrices, then they must have the same eigenvalues. c) Give an example to show that A and B can be...

Hi, I know that if two matrices A and B are similar matrices then they must...

Hi, I know that if two matrices A and B are similar matrices then they must have the same eigenvalues with the same geometric multiplicities. However, I was wondering if that statement was equivalent. In order terms, if two matrices have the same eigenvalues with the same geometric multiplicities, must they be similar? If not, is it always false?

Hi, I know that if two matrices A and B are similar matrices then they must...

Hi, I know that if two matrices A and B are similar matrices then they must have the same eigenvalues with the same geometric and algebraic multiplicities. However, I was wondering if that statement was equivalent. In order terms, if two matrices have the same eigenvalues with the same algebraic multiplicities, must they be similar? What about geometric multiplicities?

We can identify the set V of all 3×3-matrices (real coefficients) with vector space R9. Show...

We can identify the set V of all 3×3-matrices (real coefficients) with vector space R9. Show that the set of all 3 × 3 symmetric matrices is a vector subspace of V .