46 x mod k. What is the relationship between thishomomorphism and the subgroup U,(n) of U(n)?45. Determine all homomorphic images of D4 (up to isomorphism).46. Let N be a normal subgroup of a...


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a conite<br>tutior<br>1420<br>iS<br>222<br>Groups<br>51. Le<br>Th<br>37. Let H= {z E C* I Izl 1}. Prove that C*/H is isomorphic to R,<br>of positive real numbers under multiplication.<br>38. Let a be a homomorphism from G, to H, and B be a homomor-<br>phism from G2 to H,. Determine the kernel of the homomorphism<br>from G, G2 to H, H, defined by y(g1, 82) = (a(gj), B(82)<br>39. Prove that the mapping xxo from C* to C* is a homomorphism.<br>Н.<br>the<br>group<br>52. S<br>53. U<br>What is the kernel?<br>40. For each pair of positive integers m and n, we can define a homo-<br>morphism from Z to Z Z, by x- (x mod m, x mod n). What is<br>the kernel when (m, n) = (3, 4)? What is the kernel when (m, n) =<br>54.<br>т<br>55<br>(6, 4)? Generalize.<br>41. (Second Isomorphism Theorem) If K is a subgroup of G and Ni<br>a normal subgroup of G, prove that K/(K N) is isomorphic<br>to KNIN.<br>56<br>42. (Third Isomorphism Theorem) If M and N are normal subgroups of<br>G and N M, prove that (GIN)/(M/N) G/M.<br>43. Let (d) denote the Euler phi function of d (see page 85). Show<br>that the number of homomorphisms from Z,, to Z is 2p(d), where<br>k<br>the sum runs over all common divisors d of n and k. JIt follows<br>from number theory that this sum is actually gcd(n, k).]<br>44. Let k be a divisor of n. Consider the homomorphism from U(n) to<br>U(k) given by x>x mod k. What is the relationship between this<br>homomorphism and the subgroup U,(n) of U(n)?<br>45. Determine all homomorphic images of D4 (up to isomorphism).<br>46. Let N be a normal subgroup of a finite group G. Use the theorems<br>of this chapter to prove that the order of the group element gN in<br>GIN divides the order of g.<br>47. Suppose that G is a finite group and that Z10<br>image of G. What can we say about IGI? Generalize.<br>48. Suppose that Z and Z, are both homomorphic images of a finite<br>group G. What can be said about IGl? Generalize.<br>49. Suppose that for each prime p, Z, is the homomorphic image of<br>is a homomorphic<br>10<br>15<br>р<br>group G. What can we say about IGI? Give an example of such a<br>group.<br>50. (For students who have had linear algebra.) Suppose that x S a<br>particular solution to a system of linear equations and that S is the<br>entire solution set of the corresponding homogeneous system o<br>linear equations. Explain why property 6 of Theorem 10.1 guaran-<br>tees that x + S is the entire solution set of the nonhomogeneous<br>system. In particular, describe the relevant groups and the homo-<br>morphism between them.<br>X<br>

Extracted text: a conite tutior 1420 iS 222 Groups 51. Le Th 37. Let H= {z E C* I Izl 1}. Prove that C*/H is isomorphic to R, of positive real numbers under multiplication. 38. Let a be a homomorphism from G, to H, and B be a homomor- phism from G2 to H,. Determine the kernel of the homomorphism from G, G2 to H, H, defined by y(g1, 82) = (a(gj), B(82) 39. Prove that the mapping xxo from C* to C* is a homomorphism. Н. the group 52. S 53. U What is the kernel? 40. For each pair of positive integers m and n, we can define a homo- morphism from Z to Z Z, by x- (x mod m, x mod n). What is the kernel when (m, n) = (3, 4)? What is the kernel when (m, n) = 54. т 55 (6, 4)? Generalize. 41. (Second Isomorphism Theorem) If K is a subgroup of G and Ni a normal subgroup of G, prove that K/(K N) is isomorphic to KNIN. 56 42. (Third Isomorphism Theorem) If M and N are normal subgroups of G and N M, prove that (GIN)/(M/N) G/M. 43. Let (d) denote the Euler phi function of d (see page 85). Show that the number of homomorphisms from Z,, to Z is 2p(d), where k the sum runs over all common divisors d of n and k. JIt follows from number theory that this sum is actually gcd(n, k).] 44. Let k be a divisor of n. Consider the homomorphism from U(n) to U(k) given by x>x mod k. What is the relationship between this homomorphism and the subgroup U,(n) of U(n)? 45. Determine all homomorphic images of D4 (up to isomorphism). 46. Let N be a normal subgroup of a finite group G. Use the theorems of this chapter to prove that the order of the group element gN in GIN divides the order of g. 47. Suppose that G is a finite group and that Z10 image of G. What can we say about IGI? Generalize. 48. Suppose that Z and Z, are both homomorphic images of a finite group G. What can be said about IGl? Generalize. 49. Suppose that for each prime p, Z, is the homomorphic image of is a homomorphic 10 15 р group G. What can we say about IGI? Give an example of such a group. 50. (For students who have had linear algebra.) Suppose that x S a particular solution to a system of linear equations and that S is the entire solution set of the corresponding homogeneous system o linear equations. Explain why property 6 of Theorem 10.1 guaran- tees that x + S is the entire solution set of the nonhomogeneous system. In particular, describe the relevant groups and the homo- morphism between them. X
Jun 04, 2022
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