| MTH 418H | Honors Algebra I | Fall 2005 |
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| SYLLABUS | |
We will learn how the main ideas of modern algebra develop from two basic questions:
- Q: How to solve equations? A: Ring theory.
- Q: What types of symmetry are possible? A: Group theory.
We will cover the basic examples of rings and groups, emphasizing connections with geometry.Our aim is to unify undergraduate material and provide a bridge to graduate-level study.This syllabus is tentative, and some topics may be added or dropped.Chapter references are to M. Artin, Algebra, which will be supplemented by handouts.
- Number systems and rings
- Integers Z, Euclidean algorithm for gcd
primes, unique factorization, irrationals - Polynomial ring Q[x], polynomial division,factorization
integer polynomials Z[x], Gauss Lemmas, Rational Root Test - Ring axioms, Euclidean rings, field axioms, fraction fields
- Real numbers R, construction
continuous functions, Intermediate Value Theorem
complete ordered field axioms - Complex numbers C, construction, geometric interpretation
vector fields, analytic functions,line integrals, Cauchy Formulas
Fundamental Theorem of Algebra
- Groups and symmetry
- Group axioms, geometric examples
homomorphisms, normal subgroups(Ch 2.1 -- 2.4) - Plane symmetries, permutations (Ch 5.1 -- 5.4, 6.6)
- Linear algebra and geometry
- Vector spaces, bases, coordinates (Ch 3.1 -- 3.4)
- Geometry in n dimensions
- Linear transformations (Ch 1.1, 4.1 -- 4.2)
- Determinants, eigenvectors, diagonalization(Ch 1.2 -- 1.3, 4.3, 4.6)