MAT4500 - Autumn 2018

Refined table of contents

Sections included in the syllabus (pensum) are emphasized in boldface.

Chapter 1: Set Theory and Logic

  1. Fundamental Concepts
  2. Functions
  3. Relations
  4. The Integers and the Real Numbers
  5. Cartesian Products
  6. Finite Sets
  7. Countable and Uncountable Sets
  8. * The Principle of Recursive Definition
  9. Infinite Sets and the Axiom of Choice
  10. Well-Ordered Sets
  11. * The Maximum Principle

Chapter 2: Topological Spaces and Continuous Functions

  1. Topological Spaces
  2. Basis for a Topology (omitting lower limit and K-topologies)
  3. The Order Topology
  4. The Product Topology on X x Y
  5. The Subspace Topology
  6. Closed Sets and Limit Points
  7. Continuous Functions
  8. The Product Topology (omitting box topology)
  9. The Metric Topology
  10. The Metric Topology (continued)
  11. * The Quotient Topology

Chapter 3: Connectedness and Compactness

  1. Connected Spaces
  2. Connected Subspaces of the Real Line
  3. * Components and Local Connectedness
  4. Compact Spaces
  5. Compact Subspaces of the Real Line
  6. Limit Point Compactness
  7. Local Compactness

Chapter 4: Countability and Separation Axioms

  1. The Countability Axioms
  2. The Separation Axioms
  3. Normal Spaces
  4. The Urysohn Lemma
  5. The Urysohn Metrization Theorem
  6. * The Tietze Extension Theorem (omitting proof)
  7. * Imbeddings of Manifolds

Chapter 5: The Tychonoff Theorem

  1. The Tychonoff Theorem (omitting proof)
  2. The Stone-Cech Compactification

Chapter 6: Metrization Theorems and Paracompactness

  1. Local Finiteness
  2. The Nagata-Smirnov Metrization Theorem
  3. Paracompactness
  4. The Smirnov Metrization Theorem

Chapter 7: Complete Metric Spaces and Function Spaces

  1. Complete Metric Spaces
  2. * A Space-Filling Curve
  3. Compactness in Metric Spaces
  4. Pointwise and Compact Convergence
  5. Ascoli's Theorem

Chapter 8: Baire Spaces and Dimension Theory

  1. Baire Spaces
  2. * A Nowhere-Differentiable Function
  3. Introduction to Dimension Theory

Chapter 9: The Fundamental Group

  1. Homotopy of Paths
  2. The Fundamental Group
  3. Covering Spaces
  4. The Fundamental Group of the Circle
  5. Retractions and Fixed Points
  6. * The Fundamental Theorem of Algebra
  7. * The Borsuk-Ulam Theorem
  8. Deformation Retracts and Homotopy Type
  9. The Fundamental Group of S^n
  10. Fundamental Groups of Some Surfaces

Chapter 10: Separation Theorems in the Plane

  1. The Jordan Separation Theorem
  2. * Invariance of Domain
  3. The Jordan Curve Theorem
  4. Imbedding Graphs in the Plane
  5. The Winding Number of a Simple Closed Curve
  6. The Cauchy Integral Formula

Chapter 11: The Seifert-van Kampen Theorem

Chapter 13: Classification of Covering Spaces

Chapter 12: Classification of Surfaces

 

 

 

 

Published Aug. 3, 2018 11:25 AM - Last modified Nov. 19, 2018 9:54 AM
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