MATH 113 FINAL EXAM December 14, 2012

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p.1 MATH 113 FINAL EXAM December 14, 2012 This exam has 9 problems on 18 pages, including this cover sheet. The only thing you may have out during the exam is one or more writing utensils. You have 180 minutes to complete the exam. DIRECTIONS Be sure to carefully read the directions for each problem. All work must be done on this exam. If you need more space for any problem, feel free to continue your work on the back of the page. Draw an arrow or write a note indicating this, so I know where to look for the rest of your work. For the proofs, you may use more shorthand than is accepted in homework, but make sure your arguments are as clear as possible. If you want to use theorems from the homework or reading, you must state the precise result you are using. Exception: for the big-name theorems, you may just use the name of the result. Good luck do the best you can! Problem Max Score 1 40 2 10 3 20 4 55 5 20 6 15 7 15 8 15 9 10 Total 200

Math 113 Final Exam p.2 1. The parts of this problem are not related to each other. Your justifications should be very brief, and you don t need to use complete sentences. (a) (5 points) Find ϕ(15), where ϕ denotes Euler s function. Then use Euler s Theorem to find the remainder of 7 103 when divided by 15. Show all of your calculations in an organized manner. (b) (5 points) Find the kernel of the ring homomorphism φ : Z[x, y] Z[x] given by φ(f(x, y)) = f(x, 0).

Math 113 Final Exam p.3 (c) (5 points) Consider the congruence 65x 115 (mod 75). Find all solutions in Z 75, showing your work. (d) (5 points) Prove that the quotient group Z 6 Z 2 / (2, 0) is isomorphic to Z 2 Z 2 by finding an appropriate group homomorphism and applying the first isomorphism theorem.

Math 113 Final Exam p.4 (e) (5 points) How many elements of order 2 are there in the group D 7? (f) (5 points) The polynomial x 3 + x 2 11x + 3 in Z 7 [x] can be factored into linear factors. Find this factorization, using the division algorithm for polynomials.

Math 113 Final Exam p.5 (g) (5 points) Suppose φ : G H is a group homomorphism. If ker(φ) = 6 and H = 15, what are the possible sizes of G? (h) (5 points) Find a subring R of Z 24 and an ideal I of R such that the quotient ring R/I has two elements but is not isomorphic to Z 2. Fill in the addition and multiplication tables for your cosets below. R/I : +

Math 113 Final Exam p.6 2. (10 points ) Construct a field with 8 elements, by taking an appropriate quotient of a polynomial ring. Be sure to describe the elements of your field and justify your work, quoting any relevant theorems you need.

Math 113 Final Exam p.7 3. (2 points each) No justification is required, but you may use the space to do (ungraded) scratch work if you want. Circle the correct answer, and make sure there is no ambiguity if you change your mind. (a) In the group Q/Z under addition, every element has finite order. (b) Let D be the integral subdomain D = {a + bi : a, b Z} of C. Then the field of quotients of D is {c + di : c, d R}. (c) If g 1 and g 2 are elements of a group G such that g 1 = 2 and g 2 = 3, then g 1 g 2 = 6. (d) Every nonabelian group has at least one proper nonabelian subgroup. (e) The set of 3 3 invertible upper triangular matrices with real entries forms a subgroup of GL(3, R).

Math 113 Final Exam p.8 (f) If G is a group and H and K are two subgroups of G, then H K is a subgroup of G. (g) The groups Z 4 Z 18 Z 14 and Z 36 Z 28 are isomorphic. (h) The ring Z[x] has infinitely many ideals. (i) If G is an infinite group and H G, then the index [G : H] is also infinite. (j) If E and F are fields, then E F is also a field.

Math 113 Final Exam p.9 4. (5 points each) For each of the items listed below, give a specific example with the stated property. All of these are possible, and no justification is required. (a) A subgroup of D 4 GL(2, C) which has order 32. (b) A cyclic subgroup H of G = Z 12 Z 10 such that there are 8 cosets of H in G. (c) A nonabelian group with at least eight elements of order 5.

Math 113 Final Exam p.10 (d) A subgroup of S 9 which is isomorphic to Z 2 Z 3 Z 4. (e) Three rings R, S, and T with different characteristics, such that the direct product ring R S T has characteristic 44. (f) A polynomial ring R which is not an integral domain and an ideal I such that R/I is a field.

Math 113 Final Exam p.11 (g) A nontrivial ring homomorphism Z[x, y] M 2 (Z). (h) A polynomial in Z[x] which has 4 terms and is irreducible using Eisenstein s Criterion with p = 7. (i) A basis for the field extension Q( 5, i), viewed as a vector space over Q.

Math 113 Final Exam p.12 (j) An irreducible polynomial in Q(π 3 )[x] such that the corresponding extension field of Q(π 3 ) contains π. (k) A field F which contains Q as a proper subfield and is a proper subfield of Q( 4 7), i.e. Q F Q( 4 (7)).

Math 113 Final Exam p.13 5. All parts of this problem deal with Z 4 Z 2. (a) (5 points) Viewing G = Z 4 Z 2 as an additive group, find two different subgroups K and L, each of which is isomorphic to Z 4. Briefly justify your answer. (b) (5 points) Viewing G = Z 4 Z 2 as an additive group, find a subgroup H which is isomorphic to Z 2 Z 2. Briefly justify your answer.

Math 113 Final Exam p.14 (c) (5 points) Viewing R = Z 4 Z 2 as a ring, find a subring S of R which is not an ideal. Briefly justify your answer. (d) (5 points) Viewing R = Z 4 Z 2 as a ring, find an ideal I of R which is not a prime ideal. Briefly justify your answer.

Math 113 Final Exam p.15 6. (10 points) Prove ONE of the following. If you try both, clearly indicate which one you want to be graded. (a) Suppose E is a finite extension of a field F and [E : F ] is a prime number. Prove that E is a simple extension of F. (b) Suppose p is an odd prime. Prove that no field of order p 2 is algebraically closed.

Math 113 Final Exam p.16 7. (10 points) Prove ONE of the following. If you try both, clearly indicate which one you want to be graded. (a) Suppose A and B are ideals of a ring R. Prove that A + B is also an ideal of R. (b) Let φ : R S be a surjective ring homomorphism, and let I be an ideal of R. Prove that ϕ(i) is an ideal of S.

Math 113 Final Exam p.17 8. (10 points) Prove ONE of the following. If you try both, clearly indicate which one you want to be graded. (a) Suppose that G is a cyclic group and H is a subgroup of G. Prove that G/H is cyclic. (b) Let H be a normal subgroup of G of index m. Prove that g m H for all g G. (Hint: use what you know about G/H.)

Math 113 Final Exam p.18 9. (a) (5 points) What is your favorite group? Why? (b) (5 points) What is your favorite 113 theorem? Briefly describe (3-5 sentences) something that you like about the proof or about an application of the theorem you choose.

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