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139 6 I Isomorphisms 10. Let G be a group. Prove that the mapping a(g) = g1 for all g in G is an automorphism if and only if G is Abelian. 11. If g and h are elements from a group, prove that h 12. Find two groups G and H such that G H, but Aut(G) Aut(H). 13. Prove the assertion in Example 12 that the inner automorphisms and o, of Di are distinct. PRa 14. Find Aut(Z) 15. If G is a group, prove that Aut(G) and Inn(G) 16. If a group G is isomorphic to H, prove that Aut(G) is isomorphic to Aut(H). are groups. 17. Suppose belongs to Aut(Z,) and a is relatively prime to n. If d(a) b, determine a formula for p(x). 18. Let H be the subgroup of all rotations in D. and let d be an auto- morphism of D. Prove that (H) = H. (In words, an automor- phism of D, carries rotations to rotations.) 19. Let H {BES,IB(1) 1} and K that H is isomorphic to K. Is the same true if S, is replaced by S where n 3? 20. Show that Z has infinitely many subgroups isomorphic to Z. п 11 n n 2}. Prove {BE SIB(2) п> 21. Let n be an even integer greater than 2 and let o be an automor- phism of D. Determine (R, 80). 22. Let be an automorphism of a group G. Prove that H {x EG (x) =x} is a subgroup of G 23. Give an example of a cyclic group of smallest order that contains a subgroup isomorphic to Z12 and a subgroup isomorphic to Z20 No need to prove anything, but explain your reasoning. 24. Suppose that d: Z20Z20 is an automorphism and (5) 5. What are the possibilities for d(x)? 25. Identify a group G that has subgroups isomorphic to Z for all pos- itive integers n. 26. Prove that the mapping from U(16) to itself given by x -x3 is an automorphism. What about xx and x -x? Generalize. 27. Let r E U(n). Prove that the mapping a: Z> Z defined by a(s) = sr mod n for all s in Z, is an automorphism of Z (This exercise is referred to in this chapter.) n' 28. The group aEZis isomorphic to what familiar group? What if Z is replaced by R? U