Difference between revisions of "Math 571: Algebra 1"

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(Additional topics)
(Courses for which this course is prerequisite)
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=== Courses for which this course is prerequisite ===
 
=== Courses for which this course is prerequisite ===
  
[[Category:Courses|571]]
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[[Category:Courses|571: Algebra 1]]
This course is a prerequisite for [[Math 572]], which is a prerequisite for [[Math 663]], [[Math 675R]], [[Math 676]],  and [[Math 677]],
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This course is a prerequisite for [[Math 572: Algebra 2]], which is a prerequisite for [[Math 663]], [[Math 675R]], [[Math 676]],  and [[Math 677]],

Revision as of 14:38, 29 March 2013

Catalog Information

Title

Algebra 1.

Credit Hours

3

Prerequisite

Math 372 or equivalent.

Description

Desired Learning Outcomes

Prerequisites

Math 372 is a prerequisite for this course. In particular, students should be familiar with the concepts of groups and rings, and they should understand constructions of quotient groups and quotient rings. By this point in their mathematical career, students should be skilled at proving theorems by themselves.

Minimal learning outcomes

Students should achieve an advanced mastery of the topics listed below. This means that they should know all relevant definitions, correct statements and proofs of the major theorems (including their hypotheses and limitations), and examples and non-examples of the various concepts The students should be able to demonstrate their mastery by solving difficult problems related to these concepts, and by proving theorems about the below concepts, even if the theorems go beyond the material in the text.

  1. Group Theory
    • Axioms and Examples
    • Homomorphisms and Isomorphisms
    • Subgroups
    • Centralizers and Normalizers
    • Cyclic gorups and subgroups
    • Quotient Groups
    • Lagrange's Theorem
    • Isomorphism theorems
    • Group Actions
    • Permutation Representations
    • Cayley's Theorem
    • The class equation
    • Sylow theorems
    • Direct and semidirect products
    • Solvable and Nilpotent groups
  2. Ring Theory
    • Definitions and Examples
    • Homomorphisms and quotient rings
    • Ideals
    • Rings of fractions
    • Chinese remainder theorem
    • Euclidean Domains, PID's and UFD's
    • Polynomial Rings
  3. Module Theory
    • Definitions and Examples
    • Quotient modules and homomorphisms
    • Direct sums
    • Free Modules
    • Tensor Products
    • Exact Sequences
    • Projectives, Injectives, Flats

Textbooks

Possible textbooks for this course include (but are not limited to):

Additional topics

Most additional topics in this course will be covered in the second course of the sequence, Math 572: Algebra 2. Depending on time constraints, some or all of the module theory listed here may be moved to the beginning of Math 572: Algebra 2

Courses for which this course is prerequisite

This course is a prerequisite for Math 572: Algebra 2, which is a prerequisite for Math 663, Math 675R, Math 676, and Math 677,