202 Groups 45. 30. Express U(165) as an internal direct product of proper subgroups 46. in four different ways. 31. Let R denote the group of all nonzero real numbers under multi plication. Let R...


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202<br>Groups<br>45.<br>30. Express U(165) as an internal direct product of proper subgroups<br>46.<br>in four different<br>ways.<br>31. Let R denote the group of all nonzero real numbers under multi<br>plication. Let R denote the group of positive real numbers under<br>multiplication. Prove that R* is the internal direct product of R+<br>and the subgroup {1, -1}<br>32. Prove that D, cannot be expressed as an internal direct product of<br>two proper subgroups.<br>33. Let H and K be subgroups of a group G. If G = HK and g = hk.<br>where h E H and k E K, is there any relationship among Igl, Ihl,<br>47.<br>48.<br>49.<br>4<br>50.<br>and lkl? What if G = H X K?<br>51<br>34. In Z, let H = (5) and K = (7). Prove that Z = HK. Does Z = HX K<br>{3a6 10c I a, b, c E Z} under multiplication and H =<br>35. Let G<br>{3a6b12c I a, b, c E Z} under multiplication. Prove that G = (3) x<br>(6) X (10), whereas H (3) x (6) X (12).<br>36. Determine all subgroups of R* (nonzero reals under multiplica-<br>tion) of index 2<br>37. Let G be a finite group and let H be a normal subgroup of G. Prove<br>that the order of the element gH in G/H must divide the order<br>of g in G.<br>52<br>53<br>54<br>38. Let H bea normal subgroup of G and let a belong to G. If the ele-<br>ment aH has order 3 in the group G/H and H =10, what are the<br>possibilities for the order of a?<br>39. If H is a normal subgroup of a group G, prove<br>tralizer of H in G, is a normal subgroup of G.<br>1t<br>that C(H), the cen-<br>40. Let d be an isomorphism from a group G onto a group G. Prove<br>that if H is a normal subgroup of G, then d(H) is a normal sub-<br>group of G.<br>41. Show that Q, the group of rational numbers under addition, has no<br>proper subgroup of finite index.<br>42. An element is called a square if it can be expressed in the form b<br>for some b. Suppose that G is an Abelian group and H is a sub-<br>group of G. If every element of H is a square and every element of<br>GIH is a square, prove that every element of G is a square. Does<br>your proof remain valid when

Extracted text: 202 Groups 45. 30. Express U(165) as an internal direct product of proper subgroups 46. in four different ways. 31. Let R denote the group of all nonzero real numbers under multi plication. Let R denote the group of positive real numbers under multiplication. Prove that R* is the internal direct product of R+ and the subgroup {1, -1} 32. Prove that D, cannot be expressed as an internal direct product of two proper subgroups. 33. Let H and K be subgroups of a group G. If G = HK and g = hk. where h E H and k E K, is there any relationship among Igl, Ihl, 47. 48. 49. 4 50. and lkl? What if G = H X K? 51 34. In Z, let H = (5) and K = (7). Prove that Z = HK. Does Z = HX K {3a6 10c I a, b, c E Z} under multiplication and H = 35. Let G {3a6b12c I a, b, c E Z} under multiplication. Prove that G = (3) x (6) X (10), whereas H (3) x (6) X (12). 36. Determine all subgroups of R* (nonzero reals under multiplica- tion) of index 2 37. Let G be a finite group and let H be a normal subgroup of G. Prove that the order of the element gH in G/H must divide the order of g in G. 52 53 54 38. Let H bea normal subgroup of G and let a belong to G. If the ele- ment aH has order 3 in the group G/H and H =10, what are the possibilities for the order of a? 39. If H is a normal subgroup of a group G, prove tralizer of H in G, is a normal subgroup of G. 1t that C(H), the cen- 40. Let d be an isomorphism from a group G onto a group G. Prove that if H is a normal subgroup of G, then d(H) is a normal sub- group of G. 41. Show that Q, the group of rational numbers under addition, has no proper subgroup of finite index. 42. An element is called a square if it can be expressed in the form b for some b. Suppose that G is an Abelian group and H is a sub- group of G. If every element of H is a square and every element of GIH is a square, prove that every element of G is a square. Does your proof remain valid when "square" is replaced by "nth power, where n is any integer? 43. Show, by example, that in a factor group G/H it can happen that aH bH but lal lbl. 44. Observe from the table for A given in Table 5.1 on page 111 that the subgroup given in Example 9 of this chapter is the only sub- group of A, of order 4. Why does this imply that this subgroup must be normal in A? Generalize this to arbitrary finite groups. 4
Jun 04, 2022
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