forks                 HOME PAGE OF MATH 5020:
            Introduction to Commutative Algebra

                                                      Fall 2014



Sarah Glaz

glaz@math.uconn.edux (click on link and remove end x)                                                                                                                     
Office: MSB 202
Phone: (860) 486 9153
Office Hours: T, Th 11:15 - 12:15 and by appointment


T, Th 12:30 - 1:45, MSB 403


Main Textbook:  Introduction to Commutative Algebra, by M.F. Atiyah & I.G. MacDonald, Academic Press, Inc.
                          (May be ordered new or used from, or other reliable online used book sites like,, or
Other Texts (you need not purchase):
                          Commutative Algebra, by Bourbaki
                          Commutative Coherent Rings, by Sarah Glaz   
                          Multiplicative Ideal Theory,
by Robert Gilmer
                          Commutative Rings with Zero-Divisors, by James Huckaba
                          Commutative Rings, by Irving Kaplansky
                          Commutative Ring Theory, by Hideyuki Matsumura


Commutative Algebra, the study of commutative rings and their modules, emerged as a definite area of mathematics at the beginning of the twentieth century. Its origins lie in the works of eminent mathematicians such as Kronecker, Dedekind, Hilbert and Emy Noether who sought to develop a solid foundation for Number Theory. Later, the field was enriched by its relation to modern Algebraic Geometry, Topology, Homological Algebra, and Combinatorics. Today Commutative Algebra is a deep and beautiful area of study in its own right, which both draws on, and is applicable to, all the disciplines that contributed to its development. In this course we will study the fundamental notions and methods of research of commutative algebra. Topics will include: basic module and ideal notions and constructions (such as prime ideals, zero-divisors, localizations, primary decomposition, integral dependence, completions, and dimension theory), special types of rings (such as valuation rings, Krull domains, Noetherian rings, Artinian rings, and coherent rings), and homological algebra aspects of commutative algebra (such as projectivity, flatness, grade, and factorization properties). Other topics may be introduced as time allows. We anticipate covering most of  Chapters 1 - 11 from the main textbook, supplemented from the other texts mentioned above.


Grading would be based on a homework grade (50%), and a semester project grade (50%). There will be 3 - 5 homework assignments, each comprising of a number of exercises. Students are encouraged to discuss the homework assignments with each other, but need to formulate, write, and hand in their own individual solutions. The semester project will be on a topic chosen by the instructor in collaboration with each student. Each students will hand in a typed report (5 - 10 pages) and give a class presentation on his/her project. Topics will be assigned a few weeks into the semester. Reports and presentations will begin in November.


First Day of Classes: Monday, August 25
Labor Day (no classes): Monday, September 1
No class: Thursday, September 25
                Thursday, October 16
Thanksgiving Break: Sunday, November 23 - Sunday, November 30
Last Day of Classes: Friday, December 5


MATH 5020: Introduction to Commutative Algebra Homework  # 1: Assignment Handout
                            Solutions (by David Nichols)

Homework  # 2
: Assignment Handout
                            Solutions (by David Nichols)

Homework  # 3
: Assignment Handout
                            Solutions (by David Nichols)

MATH 5020: Introduction to Commutative Algebra Schedule of Presentations and Reports:  Schedule Handout

untitled    This page is maintained by Sarah Glaz                   
    Last modified: Fall 2014