ARCHIVE PAGE

This page is not updated any more.

Homework assignments
(MATH 3163-002, Fall 2019)

Last update: Wednesday, November 20, 2019

Disclaimer: The information below comes with no warranty. If, due to typographical error, there is a discrepancy between the exercises announced in class and the ones below, or this page is not completely up to date, the required homework consists of those exercises which were announced in class. Check for the time of last update above. If, by my mistake, a wrong exercise shows up below, I will allow you extra time to hand in the exercise that was announced in class. If, however, exercises are missing because this page is not up to date, it is your responsibility to contact me before the due date. (No extra time will be allowed in that case.) This page is up to date if the last update happened after the last class before the next due date.

Notation: In the table below, 1.1/1a means exercise 1, part a, in section 1.1.

No.	Date due:	Problems:
13	Mo Nov 25	6.1/2,4,7a,16b. Bonus: Consider the ring of polynomials I with integer coefficients. Let I be the ideal consisting of all polynomials whose constant term is a multiple of k. What is R/I isomorphic to? (B10, 5 points).
12	Mo Nov 18	5.1/10, 12; 5.2/2,8; 5.3/8. Bonus: 5.3/9b (B09, 5 points)
11	Mo Nov 11	4.4/12, 14b (assume r,s and t are pairwise different), 19a; 4.5/1b, 1d; 5.1/4 Bonus: 4.4/24 (B08, 5 points) Which earlier homework exercise is a special case of 4.4/24 and what is the value of a there? (B09, 2 points).
10	Mo Nov 4	4.3/8, 22a; 4.4/14a. Bonus: Suppose R is an integral domain. A non-unit element p in R is prime if whenever p divides a product ab it divides one of the factors. A non-unit element p in R is irreducible if its only divisors are units and associates of p. Prove that every prime is also irreducible. (B07, 5 points)
9	Mo Oct 28	4.1/5d; 4.2/2,10.
8	Mo Oct 21	3.3/2, 8 (we already know it is a homomorphism, prove only that it is a bijection); 4.1/12,18,20. Bonus: Let R be a commutative ring with a multiplicative identity element. We say that a is an associate of b in R if there is a unit c satisfying a=bc. Prove that the relation "a is an associate of b" is an equivalence relation. (B06, 5 points)
7	Mo Oct 14	3.3/12a,12b, 24b,26.
6	We Oct 9	3.1/6b, 10, 11bc, 22 (only prove it is a ring); 3.2/3b,20, 22b. Bonus: (B02, 7 points) Find an isomorphism (=a bijection that is compatible with addition and multiplication) between the ring of integers (with the usual addition and multiplication) and the ring in exercise 3.1/22. 2.1/20 for n=6 (B03, 5 points) 2.3/13b (B04, 5 points) 2.3/14a (B05, 5 points)
5	Mo Sep 30	2.3/4a, 4d, 8b (for 8b, use the equations [8][x]=[2], [3][x]=[1] and [6][x]=[4] in ℤ₁₂).
4	Mo Sep 23	2.2/2, 10 (parts 8 and 9), 16a, 16d.
3	Mo Sep 16	2.1/4,10,14a,16.
2	We Sep 11	1.3/6,8b, 14, 16, 19
1	We Sep 4	1.1/8,11 Board problem: Prove by induction that 1²+2²+...+n²=n(n+1)(2n+1)/6. 1.2/15c (also write the greatest common divisor of 1003 and 456 as 1003 m+ 456 n, see the file notes-0828.pdf on Canvas for help), 1.2/34a. Bonus Problem: (B01, 5 points) 1.2/33.