| I. Singular Homology |
| 1 | Introduction: Singular Simplices and Chains | |
| 2 | Homology | |
| 3 | Categories, Functors, Natural Transformations | |
| 4 | Categorical Language | |
| 5 | Homotopy, Star-shaped Regions | |
| 6 | Homotopy Invariance of Homology | |
| 7 | Homology Cross Product | Problem set 1 due |
| 8 | Relative Homology | |
| 9 | The Homology Long Exact Sequence | |
| 10 | Excision and Applications | |
| 11 | The Eilenberg Steenrod Axioms and the Locality Principle | |
| 12 | Subdivision | Problem set 2 due |
| 13 | Proof of the Locality Principle | |
| II. Computational Methods |
| 14 | CW-Complexes | |
| 15 | CW-Complexes II | |
| 16 | Homology of CW-Complexes | Problem set 3 due |
| 17 | Real Projective Space | |
| 18 | Euler Characteristic and Homology Approximation | |
| 19 | Coefficients | |
| 20 | Tensor Product | |
| 21 | Tensor and Tor | |
| 22 | The Fundamental Theorem of Homological Algebra | Problem set 4 due |
| 23 | Hom and Lim | |
| 24 | Universal Coefficient Theorem | |
| 25 | Künneth and Eilenberg-Zilber | |
| III. Cohomology and Duality |
| 26 | Coproducts, Cohomology | |
| 27 | Ext and UCT | |
| 28 | Products in Cohomology | Problem set 5 due |
| 29 | Cup Product (cont.) | |
| 30 | Surfaces and Nondegenerate Symmetric Bilinear Forms | |
| 31 | Local Coefficients and Orientations | |
| 32 | Proof of the Orientation Theorem | |
| 33 | A Plethora of Products | |
| 34 | Cap Product and “Cech” Cohomology | |
| 35 | Cech Cohomology as a Cohomology Theory | Problem set 6 due |
| 36 | The Fully Relative Cap Product | |
| 37 | Poincaré Duality | |
| 38 | Applications | |
| Oral Exam during Final Exam Week |
