Suppose that M is an n×n matrix of finite order. Find all possible values for det(M).

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.

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) =

Suppose A, B, C are n x n matrices with det. A =1,det B =-1, det...

Suppose A, B, C are n x n matrices with det. A =1,det B =-1, det C is 2, find AB, A+B,

Given two unitary matrices Q1, Q2 and suppose det(Q1) = -det(Q2). Show that matrix Q =...

Given two unitary matrices Q1, Q2 and suppose det(Q1) = -det(Q2). Show that matrix Q = Q1 + Q2 is singular. hint: consider Q* = Q1*(Q2 + Q1)Q2* and det(Q) .

If an n × n matrix A has all the n eigenvalues λ1, λ2, ..., λn,...

If an n × n matrix A has all the n eigenvalues λ1, λ2, ..., λn, prove that det(A) = λ1 · λ2 · ... · λn.

Suppose A is an orthogonal matrix. Show that |λ| = 1 for all eigen- values λ....

Suppose A is an orthogonal matrix. Show that |λ| = 1 for all eigen- values λ. (Hint: start off with an eigenvector and dot-product it with itself. Then cleverly insert A and At into the dot-product.) b) Suppose P is an orthogonal projection. Show that the only possible eigenvalues are 0 and 1. (Hint: start off with an eigenvector and write down the definition. Then apply P to both sides.) An n×n matrix B is symmetric if B = Bt....

Suppose that a 4 × 4 matrix A has eigenvalues ?1 = 1, ?2 = ?...

Suppose that a 4 × 4 matrix A has eigenvalues ?1 = 1, ?2 = ? 2, ?3 = 4, and ?4 = ? 4. Use the following method to find det (A). If p(?) = det (?I ? A) = ?n + c1?n ? 1 + ? + cn So, on setting ? = 0, we obtain that det (? A) = cn or det (A) = (? 1)ncn det (A) =

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.

Suppose A ∈ Mm×n(R) is a matrix with rank m. Show that there is an n...

Suppose A ∈ Mm×n(R) is a matrix with rank m. Show that there is an n × m matrix B such that AB = Im. (Hint: Try to determine columns of B one by one

Let G be a finite group and let H be a subgroup of order n. Suppose...

Let G be a finite group and let H be a subgroup of order n. Suppose that H is the only subgroup of order n. Show that H is normal in G. Hint: Consider the subgroup aHa-1 of G. Please explain in detail!