ADVANCED GEOMETRY B
AlgebraI, AlgebraII, Algebra Lineare e Geometria, Geometria 1, Geometria 2.
Aims of the course and outcomes
The aim of the course is to introduce the students to the basic concept and techniques of Algebraic Geometry.
Contents and course program
This course is an introduction to Algebraic Geometry.
The objects studied in Algebraic Geometry are algebraic varieties, which are loosely speaking geometric objects locally defined by common zeroes of polynomials. The study of the geometric properites of algebraic varieties is mainly carried out by means of Commutative Algebra.
In this course we will introduce, at a basic level, some of the main concepts and tools of Algebraic Geometry, such as:
- affine and projective varieties;
- Algebraic tangent spaces, singularities and blow ups;
- maps between varieties and fields of fractions;
- maps in projective spaces and linear systems;
A great focus will be given to concrete classical constructions and computations, mainly in the case of complex projective curves and surfaces.
The course will be as much as possible self-contained: the results in Commutative Algebra needed will be recalled during the course.
Teaching methods
Lessons and home exercises to be discussed together.
Textbooks and other material
To be integrated and modified later
Miles Reid, Undergraduate Algebraic Geometry, London Mathematical Society Student Texts, 12.
Igor Dolgachev, Introduction to Algebraic Geometry, available online at
http://www.math.lsa.umich.edu/~idolga/631.pdf
Robin Hartshorne, Algebraic Geometry
Igor Shafarevich - "Basic Algebraic Geometry" vol. 1
David Mumford, Algebraic Geometry 1
Joe Harris, Algebraic Geometry: A First Course
Miles Reid, Undergraduate Algebraic Geometry
M.F. Atiyah, I.G. Mac Donald, Introduzione all'algebra commutativa, Feltrinelli 1991.
Type of examination
Oral exam with discussion of exercises
Borrowed from
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