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

If I prove Det(A)Det(B) = Det(AB) for matrices A and B when A and B are...

If I prove Det(A)Det(B) = Det(AB) for matrices A and B when A and B are 2x2 matrices, can I use that to show that Det(A)Det(B) = Det(AB) for any n x n matrix? If so how?

Let A and B be 3x3 matrices with det(A) = 2 and det(B) = -3. Find...

Let A and B be 3x3 matrices with det(A) = 2 and det(B) = -3. Find a. det(AB) show all steps. b. det(2B) show all steps. c. det(AB^-1) show all steps. d. det(2AB) show all steps.

If A, B, and C are 4x4 matrices; and det(A) = 1, det(B) = -5, and...

If A, B, and C are 4x4 matrices; and det(A) = 1, det(B) = -5, and det(C) = -3, then compute: det(4B3A-1C-1A-1B2) = ____

Let A, B, and C be n×n matrices of the form A= [c_1...x...c_n], B= [c_1...y...c_n], and...

Let A, B, and C be n×n matrices of the form A= [c_1...x...c_n], B= [c_1...y...c_n], and C= [c_1...x+y...c_n] where x, y, and x+y are the jth column vectors. Use cofactor expansions to prove that det(C)=det(A)+det(B).

Let A and B be 6×6 matrices such that det(A)= 3 and det(B)=2 What is det(−2AT?-1)?...

Let A and B be 6×6 matrices such that det(A)= 3 and det(B)=2 What is det(−2AT?-1)? Justify your answer.

Let A, B be n × n matrices. The following are two incorrect proofs that ABhas...

Let A, B be n × n matrices. The following are two incorrect proofs that ABhas the same non-zero eigenvalues as BA. For each, state two things wrong with the proof: (i) We will prove that AB and BA have the same characteristic equation. We have that det(AB − λI) = det(ABAA−1 − λAA−1) = det(A(BA − λI)A−1) = det(A) + det(BA − λI) − det(A) = det(BA − λI) Hence det(AB − λI) = det(BA − λI), and so...

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.

4.4.3. Suppose A and B are n × n matrices. Prove that, if AB is invertible,...

4.4.3. Suppose A and B are n × n matrices. Prove that, if AB is invertible, then A and B are both invertible. Do not use determinants, since we have not seen them yet. Hint: Use Lemma 4.4.4. Lemma 4.4.4. If A ∈ Mm,n(F) and B ∈ Mn,k(F), then rank(AB) ≤ rank(A) and rank(AB) ≤ rank(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) .

True or False 1.) det(A-B) = det(A) - det(B) 2.) det(cA) = c*det(A) 3.)det(ABT)=det(ATB) 4.)det(A-B)=0 implies...

True or False 1.) det(A-B) = det(A) - det(B) 2.) det(cA) = c*det(A) 3.)det(ABT)=det(ATB) 4.)det(A-B)=0 implies A=B