Let A, B and C be matrices such that the following operations are defined. Let A and tr(A) denote the transpose and trace of A respectively. Let I and O denote identity and zero matrices respectively. For each of the following statements, determine whether it is True or False. If it is True, prove it. If it is False, give a counter example to disprove it. Four or five randomly selected statements will be (1) If AB= O, then A= O or B = 0. (2) If A² = I, then A = I or A = -1. (3) AB=BA (4) If AB=AC, then B = C. (5) A(BC) = (AB)C (6) (AB)' = B' A' (7) A+ A¹ is symmetric. (8) A-A' is skew-symmetric. (9) If A and B are symmetric, then so is AB. (10) If A = (a)nxn is skew-symmetric, then a=0 for all 1 ≤ i ≤n. (11) tr(A + B) = tr(A) + tr(B) (12) tr(aA) = a"tr(A), where a R and A has size n. x n. (13) tr(AB) = tr(A)tr(B) (14) tr(AB) = tr(BA) (15) tr(A4) = (tr(A)) (16) There exist square matrices A and B such that AB - BA=I.

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Let A, B and C be matrices such that the following operations are defined. Let A and tr(A) denote the transpose and trace of A respectively. Let I and O denote identity and zero matrices respectively. For each of the following statements, determine whether it is True or False. If it is True, prove it. If it is False, give a counter example to disprove it.. Four or five randomly selected statements will be (1) If AB = O, then A= O or B = 0. (2) If A² = I, then A = I or A = -1. (3) AB=BA (4) If AB AC, then B = C. (5) A(BC) = (AB)C (6) (AB) = B' A' (7) A+ A' is symmetric. (8) A A' is skew-symmetric. (9) If A and B are symmetric, then so is AB. (10) If A = (ai)nxn is skew-symmetric, then a=0 for all 1 ≤ i ≤ n. (11) tr(A + B) = tr(A) + tr(B) (12) tr(aA) = a"tr(A), where a E R and A has size nx n. (13) tr(AB) = tr(A)tr(B) - (14) tr(AB) = tr(BA) (15) tr(AA) = (tr(A))2 (16) There exist square matrices A and B such that AB - BA= I.