Subject Code:  MA5L021 Subject Name:  Algebraic Topology L-T-P: 3-0-0 Credit:3
Pre-requisite(s):  Topology(MA5L008), Algebra  (MA5L006)
Paths and homotopy, homotopy equivalence, contractibility, deformation retracts. Basic constructions: cones, mapping cones, mapping cylinders, suspension. Cell complexes, subcomplexes, CW pairs. Fundamental groups. Examples (including the fundamental group of the circle) and applications (including Fundamental Theorem of Algebra, Brouwer Fixed Point Theorem and Borsuk-Ulam Theorem, both in dimension two). Van Kampen's Theorem, Covering spaces, lifting properties, deck transformations. universal coverings (existence theorem optional). Simplicial complexes, barycentric subdivision, stars and links, simplicial approximation. Simplicial Homology. Singular Homology. Mayer-Vietoris Sequences. Long exact sequence of pairs and triples. Homotopy invariance and excision (without proof). Degree. Cellular Homology. Applications of homology: Jordan-Brouwer separation theorem, Invariance of dimension, Hopf's Theorem for commutative division algebras with identity, Borsuk-Ulam Theorem, Lefschetz Fixed Point Theorem. Optional Topics: Outline of the theory of: cohomology groups, cup products, Kunneth formulas, Poincare duality.
Text Books:
  1. Hatcher  A.  Algebraic Topology, Cambridge Univ. Press, Cambridge
  2. Munkres J.R. Elements of Algebraic Topology, Addison Wesley
Reference Books:
  1. Greenberg  M.J. and Harper J. R.  Algebraic Topology, Benjamin
  2. Fulton W. Algebraic topology: A First Course, Springer-Verlag
  3. Massey W.  A Basic Course in Algebraic Topology,Springer-Verlag, Berlin
  4. Rotman J. J.  An Introduction to Algebraic Topology, Springer
  5. Seifert  H.  and Threlfall W.  A Textbook of Topology, translated by M. A. Goldman,  Academic Press
  6. Vick J. W.  Homology Theory, Springer-Verlag