GEOMETRY 1
Stampa
Enrollment year
2019/2020
Academic year
2019/2020
Regulations
DM270
Academic discipline
MAT/03 (GEOMETRY)
Department
DEPARTMENT OF MATHEMATICS "FELICE CASORATI"
Course
MATHEMATICS
Curriculum
PERCORSO COMUNE
Year of study
Period
2nd semester (02/03/2020 - 09/06/2020)
ECTS
9
Lesson hours
84 lesson hours
Language
Italian
Activity type
WRITTEN AND ORAL TEST
Teacher
STOPPINO LIDIA (titolare) - 6 ECTS
TORELLI SARA - 3 ECTS
Prerequisites
A course in Calculus and a course in Linear Algebra
Learning outcomes
The aim of the course is to introduce the students to the basic notions of general topology and of affine and projective geometry. The students are expected to understand the main structures and properties of general topology (open and closed sets, continuity, product topology, quotient topology conectedness, compactness, numerability axioms, sequences and compactness in metric spaces) and of affine, euclidean and projective geometry; moreover, the students are expected to learn how to solve exercises to verify these properties in concrete cases.
Course contents
General topology.
metric spaces and contiunuity. Equivalent metrics. Properties of open sets.
Topological spaces; open and closed sets, neighborhoods and related notions. Topological space associated to a metric space: metrizable topology.
Basis of a topological space. Base lemma. Fundamentale system of neighborhoods. Numerability axioms. Sequences and limits in a topological space. Classification of points. Continuous functions between topological spaces. Separation axioms: T0,..., T4.
Subspace topology. Immersions. Product topology, canonical basis. Regular and normal spaces and their properties. Uryson Lemma and metrizabilty Theorem. Quotient topology. Quotient of a topological space mosulo an equivalence relation. Compact spaces; compactness and continuous functions. Cauchy sequences. Completedness; extension of Heine-Borel. Some topics on completion of a metric space, and on the construction of the real numbers as a completion of the rationals. Connected spaces; connectedness and continuous maps. Arc connectedness.
Connected and arc connected components.

Affine, euclidean and projective geometry:
Affine spaces and affine maps. Affine subspaces and giacitura.
Theorems of Talete, Pappo and Desargues.
Affine properties. Grassmann Formula.
Some affine geometry in dimension 2 and 3.
Euclidean geometry. Isometries. Euclidean properties.
Projections.
Introduction to projective geometry. Historical motivation.
Projective space associated to a vector space (particularly over the real numbers)
Projective subspaces; Grassmann formula; homogeneous coordinates.
Affine charts. Pappus theorem in the projective space.
Projection from a point.
Some ideas about duality.
Projectivities. Projective properties.
Algebraic curves, affine and projective.
Affine, euclidean and projective classification of conics.
Some ideas about quadrics
Teaching methods
Lectures, exercise sessions and tutorato.
Reccomended or required readings
For the topology:
E. Sernesi, Geometria 2, seconda edizione, Bollati Boringhieri, 2000
- M. Manetti, Topologia, seconda edizione, Springer, Milano 2014.
- C. Kosniowski, Introduzione alla topologia algebrica, Zanichelli, Bologna 1988

For projective geometry:
- E. Sernesi, Geometria 1, seconda edizione, Bollati Boringhieri, Torino 2000,
E. Fortuna, R. Frigerio, R. Pardini, Geometria Proiettiva, Esercizi e richiami di teoria, Springer Milano, 2011
Assessment methods
The exam is composed of a written and oral part, that have to take place in the same exam session. The exam program is the one one of the current academic year. During the written exam the student is not allowed to consult books or any other source. The oral exam usually stems from a discussion of the written exam, followed by theoretical questions and/or exercises. To be admitted to the oral exam the student has to obtain a score of at least 15/30 in the written exam. The oral exams are public and usually take place at the blackboard.
Further information
More information can be found on the webpage: www.stoppino.it
Sustainable development goals - Agenda 2030