then E and F commute. Explain why. 1. If the equation Gx = y has more than one solution for some y in R", can the columns of G span R"? Why or why not? 2. If the equation Hx = c is inconsistent for some e in R", what can you say about the equation Hx 0? Why? = . If an n x n matrix K cannot be row reduced to In, what can you say about the columns of K? Why? . If L is n x n and the equation Lx = 0 has the trivial solution,

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2.3 EXERCISES Unless otherwise specified, assume that all matrices in these exercises are n xn. Determine which of the matrices in Exercises 1-10 are invertible. Use as few calculations as possible. Justify your answers. ad 5 1. 3. 5. 7. 5 -3 co 3 -2 7 -6 9. [M] cod 0 -7 0 (5 9-1 0 3 stw n alo-5th tot ain! 1 0 2 6. purblies oli song of mo -4 -9 7 10. [M] 0 -1-300 120 of 5 8 ugu-3 -6301 2. 001-1pm 2 qs 1 −1 4 b 0 -7 -6 1 1 11 adi 7 -5 200 b2 -1 -4 6 ONT 6-9 [ ] 5 3 1 6 4 7 21 5 3 9 64 4 8 5 2 2. 4. Tollib 10 d 3 در 8. 1-71 9 19 -1 -7 3 2 [! 0 7 9 8 -8 10 9 -9 -5 11 4 1011 -3 1 0 000 0 -5 3 6 1 3 7 002 4 −1 9 -4 0 4 596 8 0 0 10 In Exercises 11 and 12, the matrices are all n xn. Each part of the exercises is an implication of the form "If "statement 1", then "statement 2"." Mark an implication as True if the truth of "statement 2" always follows whenever "statement 1" happens to be true. An implication is False if there is an instance in which "statement 2" is false but "statement 1" is true. Justify each answer. 11 a. If the equation Ax = 0 has only the trivial solution, then A is row equivalent to the n x n identity matrix. b. If the columns of A span R", then the columns are linearly independent. AP c. If A is an n x n matrix, then the equation Ax = b has at least one solution for each b in R". Yoon d. If the equation Ax = 0 has a nontrivial solution, then A has fewer than n pivot positions. e. If AT is not invertible, then A is not invertible. 12. If there is an n x n matrix D such that AD = I, then there is also an n x n matrix C such that CA = I. b. If the columns of A are linearly independent, then the columns of A span R". Jorn . c. If the equation Ax = b has at least one solution for each b in R", then the solution is unique for each b. 2.3 Characterizations of Invertible Matrices 117 d. If the linear transformation (x) → Ax maps R" into R". then A has n pivot positions. e. If there is a b in R" such that the equation Ax = b is inconsistent, then the transformation x → Ax is not one- to-one. 13. An mxn upper triangular matrix is one whose entries below the main diagonal are 0's (as in Exercise 8). When is a square upper triangular matrix invertible? Justify your BMoldinavill answer. 14. An mxn lower triangular matrix is one whose entries above the main diagonal are 0's (as in Exercise 3). When is a square lower triangular matrix invertible? Justify your answer. 15. Can a square matrix with two identical columns be invert- ible? Why or why not? 2500 16. Is it possible for a 5 x 5 matrix to be invertible when its columns do not span R5? Why or why not? 17. If A is invertible, then the columns of A are linearly independent. Explain why. HU ODAC 201 06 18. If C is 6 x 6 and the equation Cx = v is consistent for every v in R6, is it possible that for some v, the equation Cx = v has more than one solution? Why or why not? 020qqu2 TE 19. If the columns of a 7 x 7 matrix D are linearly independent, what can you say about solutions of Dx = b? Why?lot 20. If n ×n matrices E and F have the property that EF = I, then E and F commute. Explain why. gai 21. If the equation Gx = y has more than one solution for some y in R", can the columns of G span R"? Why or why not? 22. If the equation Hx = c is inconsistent for some c in R", what can you say about the equation Hx = 0? Why? 23. If an n x n matrix K cannot be row reduced to In, what can you say about the columns of K? Why? If Lis n x n and the equation Lx = 0 has the trivial solution, do the columns of L span R"? Why? bo 24. bo 25. Verify the boxed statement preceding Example 1. 26. Explain why the columns of A² span R" whenever the columns of A are linearly independent. 27. Show that if AB is invertible, so is A. You cannot use Theorem 6(b), because you cannot assume that A and B are invertible. [Hint: There is a matrix W such that ABW = I. Why?] 28. Show that if AB is invertible, so is B. 29. If A is an n x n matrix and the equation Ax=b has more than one solution for some b, then the transformation x → Ax is not one-to-one. What else can you say about this transforma- tion? Justify your answer.