linear algebra Chapter based on invertible matrix. For square matrix A, A is invertible if and...

(Linear Algebra) A n×n-matrix is nilpotent if there is a "r" such that Ar is the...

(Linear Algebra) A n×n-matrix is nilpotent if there is a "r" such that Ar is the nulmatrix. 1. show an example of a non-trivial, nilpotent 2×2-matrix 2.let A be an invertible n×n-matrix. show that A is not nilpotent.

Please explain what the identity matrix is. The course is linear algebra. The book describes it...

Please explain what the identity matrix is. The course is linear algebra. The book describes it simply as a matrix with 1's on the diagonal and 0's elsewhere. Why is that? Can you explain it for a first time learner of this material? Thank you! I appreciate it!

I'm studying Linear Algebra. A Matrix A is a 3*3 matrix and it has 3 linear...

I'm studying Linear Algebra. A Matrix A is a 3*3 matrix and it has 3 linear independent eigenvectors. The Matrix B has the same eigenvectors (but not necessarily the same eigenvalues). I'm supposed to prove that AB=BA. I'm given a clue that says: ,, Is it possible to diagonal A and B?''. I want to be clear that the matrixes are not given. Thank you.

n x n matrix A, where n >= 3. Select 3 statements from the invertible matrix...

n x n matrix A, where n >= 3. Select 3 statements from the invertible matrix theorem below and show that all 3 statements are true or false. Make sure to clearly explain and justify your work. A= -1 , 7, 9 7 , 7, 10 -3, -6, -4 The equation A has only the trivial solution. 5. The columns of A form a linearly independent set. 6. The linear transformation x → Ax is one-to-one. 7. The equation Ax...

Prove that for a square n ×n matrix A, Ax = b (1) has one and...

Prove that for a square n ×n matrix A, Ax = b (1) has one and only one solution if and only if A is invertible; i.e., that there exists a matrix n ×n matrix B such that AB = I = B A. NOTE 01: The statement or theorem is of the form P iff Q, where P is the statement “Equation (1) has a unique solution” and Q is the statement “The matrix A is invertible”. This means...

Linear Algebra question:Suppose A and B are invertible matrices,with A being m*m and B n*n.For any...

Linear Algebra question:Suppose A and B are invertible matrices,with A being m*m and B n*n.For any m*n matrix C and any n*m matrix D,show that: a)(A+CBD)-1-A-1C(B-1+ DA-1C)-1DA-1 b) If A,B and A+B are all m*m invertible matrices,then deduce from a) above that (A+B)-1=A-1-A-1(B-1+A-1)-1A-1

Question for linear algebra ----diagonalization If a nxn matrix A is diagonalizable, will their power matrix...

Question for linear algebra ----diagonalization If a nxn matrix A is diagonalizable, will their power matrix AK be diagonalizable? If there are two non-diagonalizable matrix A and B, will their product AB must also non-diagonalizable?

True or False (5). Suppose the matrix A and B are both invertible, then (A +...

True or False (5). Suppose the matrix A and B are both invertible, then (A + B)−1 = A−1 + B−1 . (6). The linear system ATAx = ATb is always consistent for any A ∈ Rm×n, b ∈Rm . (7). For any matrix A ∈Rm×n , it satisfies dim(Nul(A)) = n−rank(A). (8). The two linear systems Ax = 0 and ATAx = 0 have the same solution set. (9). Suppose Q ∈Rn×n is an orthogonal matrix, then the 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

Show that if a square matrix K over Zp ( p prime) is involutory ( or...

Show that if a square matrix K over Zp ( p prime) is involutory ( or self-inverse), then det K=+-1 (An nxn matrix K is called involutory if K is invertible and K-1 = K) from Applied algebra show details