# MA4J2 content

**Content:
**1) Surfaces, handlebodies, I-bundles, polyhedral

2) Hauptvermutung, Heegaard splittings, S

^{3}, T

^{3}, PHS

3) Reducibility, Alexander's Theorem, knot complements, submanifolds of R

^{3 }4) Fundamental group, incompressible surfaces, surface bundles

5) Tori and JSJ decomposition, circle bundles

6) Seifert fibered spaces

7) Loop theorem

8) Normal surfaces

9) Sphere theorem

10) Discussion of geometrization conjecture

Other possible topics:

Poincare conjecture, Fox's reimbedding theorem, space forms spherical, euclidean, hyperbolic, eg dodecahedral space, Thurston's eight geometries, Dehn fillings topologically, algebraically, geometrically, eg fillings of the trefoil, figure eight, non-Haken manifolds, three views of PHS (following Gordon).

**Aims: **An introduction to the geometry and topology of three-dimensional manifolds, a natural extension of MA3F1 Introduction to Topology

**Objectives: **By the end of the module the student should be:

Familiar with the basic examples (S3, ∏3, knot components...)

Able to compute ∏, (M3) from a variety of presentations of M.

Familiar with the sphere and torus decomposition.

Able to state the loop theorem and use it (e.g. to prove that knot components are aspherical).

**Books:
**

*Three-dimensional Topology*by Andrew J Casson

*The Theory of Normal Surfaces*by Cameron Gordon

*Notes on Basic 3-manifold Topology*by Allen Hatcher

*3-manifolds*by John Hempel

*Classical Tessellations and Three-manifolds*by José María Montesinos