| EC | 8 |
| Location | Utrecht University |
| Weeks | 6 - 21 |
| Lecture | Thursday, 10:00 - 12:45 |
| Provider | Geometry and Quantum Theory (GQT) |
| Links | Course page (requires login) |
Prerequisites:
A working knowledge of algebraic topology at the level of Algebraic Topology I: This includes, but is not limited to: (co)homology, Eilenberg-Steenrod axioms, CW-complexes, cellular (co)homology, representability of cohomology by Eilenberg-Maclane spaces, degree theory, fundamental group, definition of higher homotopy groups.
Manifold topology: (Smooth) manifolds, smooth maps, tangent bundle, derivative, embedding, immersion, submersion, approximation of continuous maps by smooth maps up to homotopy, inverse function theorem, implicit function theorem.
Aim of the course
The content of algebraic topology varies year by year. This year the focus lies on fiber bundle theory.
Fiber bundles are twisted products of spaces. Many interesting topological spaces arise naturally as fiber bundles: for example the tangent bundle of a manifold is a fiber bundle, but projective spaces, and more generally grassmannian manifolds are fiber bundles. In this course we will study fiber bundles from an algebraic topological perspective. We intent to cover the following topics:
Cup products and Poincare duality.
Definition of fiber bundle, principal G-bundle
Classification of bundles by homotopy classes of maps into classifying spaces
The cohomology rings of Grassmannian manifolds.
Characteristic classes of fiber bundles
The splitting principle
The Thom isomorphism
An introduction to cobordism theory and the relation with classifying spaces
Rules about homework / Exam
There are two homework problem sets that will be graded with grade H_1 and H_2. There is one final written exam, with grade F. The weighted average A is calculated by
A=H_1/10+H_2/10+8 F/10
To pass the course the grades should satisfy F>=5, and A>= 5.5.
If F>=5, the grade of the course is A
If F<5 the grade of the course is F
There is one resit of the whole course. For the resit the homework does not count.
Lecture notes / literature
There will be lecture notes made available.
We will sometimes refer to the following additional literature
Husemöller: Fiber bundles
Milnor and Stasheff: Characteristic classes.
Hatcher: Algebraic Topology
Hatcher: Vector bundles and K-Theory
Lecturers
Renee Hoekzema (VU)
Thomas Rot (VU)
We will lecture from 10-12 (with a break). From 12:00-12:45 there will be a tutorial. Lectures will not be recorded.