
Course unit
COMMUTATIVE ALGEBRA
SCP3050935, A.A. 2018/19
Information concerning the students who enrolled in A.Y. 2018/19
Mutuated
Course unit code 
Course unit name 
Teacher in charge 
Degree course code 
SCP3050935 
COMMUTATIVE ALGEBRA 
REMKE NANNE KLOOSTERMAN 
SC1172 
ECTS: details
Type 
ScientificDisciplinary Sector 
Credits allocated 
Core courses 
MAT/03 
Geometry 
8.0 
Course unit organization
Period 
First semester 
Year 
1st Year 
Teaching method 
frontal 
Type of hours 
Credits 
Teaching hours 
Hours of Individual study 
Shifts 
Practice 
4.0 
32 
68.0 
No turn 
Lecture 
4.0 
32 
68.0 
No turn 
Start of activities 
01/10/2018 
End of activities 
18/01/2019 
Examination board
Board 
From 
To 
Members of the board 
6 Algebra Commutativa  a.a. 2018/2019 
01/10/2018 
30/09/2019 
KLOOSTERMAN
REMKE NANNE
(Presidente)
GARUTI
MARCOANDREA
(Membro Effettivo)
BALDASSARRI
FRANCESCO
(Supplente)
CAILOTTO
MAURIZIO
(Supplente)
CHIARELLOTTO
BRUNO
(Supplente)
LONGO
MATTEO
(Supplente)

Prerequisites:

Basic notions of algebra (groups, rings, ideals, fields, quotients, etc.), as acquired in the "Algebra 1" course. 
Target skills and knowledge:

A good knowledge of the algebraic objects used in Algebraic Geometry and Number Theory:
 Modules;
 Tensor products;
 Prime spectrum;
 Localization;
 Integral extensions;
 Noetherian rings;
 Dedekind domains and discrete valuation rings;
 Basics on dimension theory. 
Examination methods:

Written exam 
Assessment criteria:

The student will be evaluated on his/her understanding of the topics, on the acquisition of concepts and methodologies proposed and on the ability to apply them in full independence and awareness. 
Course unit contents:

Commutative rings with unit, ideals, homomorphisms, quotient rings. Fields, integral domains, zero divisors, nilpotent elements. Prime ideals and maximal ideals. Local rings and their characterization. Operations on ideals (sum, intersection, product). Extension and contraction of ideals w.r.t. homomorphisms. Annihilator, radical ideal, nilradical and Jacobson radical of a ring. Direct product of rings.
Modules, submodules and their operations (sums, intersection). Annihilator of a module. Direct sums and direct products of modules. Exact sequences of modules, snake lemma. Projective and injective modules. Finitely generated and finitely presented modules, free modules. CayleyHamilton theorem and Nakayama's lemma.
Tensor product and its properties. Extension of scalars for modules. Algebras over a ring and their tensor product. Adjunction and exactness of the Hom and tensor product functors. Flat modules. Kahler differentials
Rings of fractions and localisation. Exactness of localisation. of rings and modules. Local properties.
Integral elements, integral extension of rings and integral closure. Going Up, Going Down and geometric translation. Valuation rings. Overview of completions.
Chain conditions, Artinian and Noetherian rings and modules. Hilbert's basis theorem. Normalization Lemma and Nullstellensatz.
Discrete valuation rings. Fractional ideals and invertible modules. Cartier and Weil divisors, Picard group, cycle map. Dedekind domains and their extensions. Decomposition of ideals, inertia, ramification.
Krull dimension, height of a prime ideal. Principal ideal theorem. Characterisation of factorial domains. Regular local rings. Finiteness of dimension for local noetherian rings. 
Planned learning activities and teaching methods:

Lectures. Recommended exercises. 
Additional notes about suggested reading:

Lecture notes available at http://www.mathematik.unikl.de/agag/mitglieder/professoren/gathmann/notes/commalg/ 
Textbooks (and optional supplementary readings) 

Atiyah, Michael Francis; Mac_Donald, Ian Grant, Introduction to commutative algebraM. F. Atiyah, I. G. Macdonald. Reading [etc.]: AddisonWesley, .

Atiyah, Michael Francis; Mac_Donald, Ian Grant; Maroscia, Paolo, Introduzione all'algebra commutativaM. F. Atiyah e I. G. Macdonaldappendice all'edizione italiana di Paolo Maroscia. Milano: Feltrinelli, 1981.

Eisenbud, David, Commutative algebra with a view toward algebraic geometry. New York [etc.]: Springer, .

Gathmann, A., Commutative Algebra. Kaiserslautern: , 2013. Disponibile gratuitamente alla pagina web dell'autore.

Innovative teaching methods: Teaching and learning strategies
 Lecturing
 Problem solving
 Loading of files and pages (web pages, Moodle, ...)
Innovative teaching methods: Software or applications used
 Moodle (files, quizzes, workshops, ...)
 One Note (digital ink)

