Show that |Aij | ≤ 1 for every entry Aij of a unitary matrix A

(a) Construct the matrix A=[Ajj] if A is 2x3 and Aij= -i+6j (b) Construct the 2*4...

(a) Construct the matrix A=[Ajj] if A is 2x3 and Aij= -i+6j (b) Construct the 2*4 matrix C=[(4i+j)^2]

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) .

a)Assume that you are given a matrix A = [aij ] ∈ R n×n with (1...

a)Assume that you are given a matrix A = [aij ] ∈ R n×n with (1 ≤ i, j ≤ n) and having the following interesting property: ai1 + ai2 + ..... + ain = 0 for each i = 1, 2, ...., n Based on this information, prove that rank(A) < n. b) Let A ∈ R m×n be a matrix of rank r. Suppose there are right hand sides b for which Ax = b has no solution,...

Let B = [ aij ] 20×17 be a matrix with real entries. Let x be...

Let B = [ aij ] 20×17 be a matrix with real entries. Let x be in R 17 , c be in R 20, and 0 be the vector with all zero entries. Show that each of the following statements implies the other. (a) Bx = 0 has only the trivial solution x = 0 n R 17, then (b) If Bx = c has a solution for some vector c in R 20, then the solution is unique.

Show that the product of two n × n unitary matrices is unitary. Is the same...

Show that the product of two n × n unitary matrices is unitary. Is the same true of the sum of two n × n unitary matrices? Prove or find a counterexample.

The trace of a square n×nn×n matrix A=(aij)A=(aij) is the sum a11+a22+⋯+anna11+a22+⋯+ann of the entries on...

The trace of a square n×nn×n matrix A=(aij)A=(aij) is the sum a11+a22+⋯+anna11+a22+⋯+ann of the entries on its main diagonal. Let VV be the vector space of all 2×22×2 matrices with real entries. Let HH be the set of all 2×22×2 matrices with real entries that have trace 11. Is HH a subspace of the vector space VV? Does HH contain the zero vector of VV? choose H contains the zero vector of V H does not contain the zero vector...

1. (a) Construct the matrix Upper A equals left bracket Upper A Subscript ij right bracketA=Aij...

1. (a) Construct the matrix Upper A equals left bracket Upper A Subscript ij right bracketA=Aij if A is 2*3 and Upper A Subscript ij Baseline equals negative i plus 4 jAij=−i+4j. ​(b) Construct the 2*4 matrix Upper C equals left bracket left parenthesis 3 i plus j right parenthesis squared right bracketC=(3i+j)2. 2. Solve the following matrix equation. left bracket Start 2 By 2 Matrix 1st Row 1st Column 3 x 2nd Column 4 y minus 5 2nd Row...

Show/Prove that every invertible square (2x2) matrix is a product of at most four elementary matrices

Show/Prove that every invertible square (2x2) matrix is a product of at most four elementary matrices

Let A be a symmetric matrix of size 3 × 3 and consider the following quadratic...

Let A be a symmetric matrix of size 3 × 3 and consider the following quadratic function f(x) = x T Ax. Show that the gradient of f is: ∇xf(x) = 2Ax. A matrix is symmetric if Aij = Aji for all i and j.

The three following coordinate vectors are given in unitary coordinates (in [m]): a = (5; 0;...

The three following coordinate vectors are given in unitary coordinates (in [m]): a = (5; 0; 0) b = (-1; 4; 1) c = (0; 1; 3) a) Determine the new coordinate system, giving |a|, |b|, |c|, alpha, beta and gamma. Use vector operations to obtain the values. b) Determine the metric matrix for this coordinate system, and the volume of the parallelepiped spanned by a, b, c. For the volume calculation, use the determinant of the metric matrix. c)...