Abstract Algebra: A First Course

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When a student of mathematics studies abstract algebra, he or she inevitably faces questions in the vein of, What is abstract algebra or What makes it abstract? Algebra, in its broadest sense, describes a way of thinking about classes of sets equipped with binary operations. In high school algebra, a student explores properties of operations (+, -, ×, and ÷) on real numbers. Abstract algebra studies properties of operations without specifying what types of number or object we work with. Any theorem established in the abstract context holds not only for real numbers but for every possible algebraic structure that has operations with the stated properties. This textbook intends to serve as a first course in abstract algebra. The selection of topics serves both of the common trends in such a course: a balanced introduction to groups, rings, and fields; or a course that primarily emphasizes group theory. The writing style is student-centered, conscientiously motivating definitions and offering many illustrative examples. Various sections or sometimes just examples or exercises introduce applications to geometry, number theory, cryptography and many other areas. This book offers a unique feature in the lists of projects at the end of each section. the author does not view projects as just something extra or cute, but rather an opportunity for a student to work on and demonstrate their potential for open-ended investigation. The projects ideas come in two flavors: investigative or expository. The investigative projects briefly present a topic and posed open-ended questions that invite the student to explore the topic, asking and to trying to answer their own questions. Expository projects invite the student to explore a topic with algebraic content or pertain to a particular mathematician's work through responsible research. The exercises challenge the student to prove new results using the theorems presented in the text. The student then becomes an active participant in the development of the field.

Author(s): Stephen Lovett
Series: Textbooks in Mathematics
Edition: 2
Publisher: CRC Press
Year: 2022

Language: English
Commentary: Vector PDF
Pages: 570
City: Boca Raton, FL
Tags: Mathematics; Textbook; Abstract Algebra

Cover
Half Title
Series Page
Title Page
Copyright Page
Contents
Preface to Instructors
Preface to Students
1. Groups
1.1. Symmetries of a Regular Polygon
1.2. Introduction to Groups
1.3. Properties of Group Elements
1.4. Concept of a Classification Theorem
1.5. Symmetric Groups
1.6. Subgroups
1.7. Abstract Subgroups
1.8. Lattice of Subgroups
1.9. Group Homomorphisms
1.10. Group Presentations
1.11. Groups in Geometry
1.12. Diffie-Hellman Public Key
1.13. Semigroups and Monoids
1.14. Projects
2. Quotient Groups
2.1. Cosets and Lagrange’s Theorem
2.2. Conjugacy and Normal Subgroups
2.3. Quotient Groups
2.4. Isomorphism Theorems
2.5. Fundamental Theorem of Finitely Generated Abelian Groups
2.6. Projects
3. Rings
3.1. Introduction to Rings
3.2. Rings Generated by Elements
3.3. Matrix Rings
3.4. Ring Homomorphisms
3.5. Ideals
3.6. Operations on Ideals
3.7. Quotient Rings
3.8. Maximal Ideals and Prime Ideals
3.9. Projects
4. Divisibility in Integral Domains
4.1. Divisibility in Commutative Rings
4.2. Rings of Fractions
4.3. Euclidean Domains
4.4. Unique Factorization Domains
4.5. Factorization of Polynomials
4.6. RSA Cryptography
4.7. Algebraic Integers
4.8. Projects
5. Field Extensions
5.1. Introduction to Field Extensions
5.2. Algebraic and Transcendental Elements
5.3. Algebraic Extensions
5.4. Solving Cubic and Quartic Equations
5.5. Constructible Numbers
5.6. Cyclotomic Extensions
5.7. Splitting Fields and Algebraic Closure
5.8. Finite Fields
5.9. Projects
6. Topics in Group Theory
6.1. Introduction to Group Actions
6.2. Orbits and Stabilizers
6.3. Transitive Group Actions
6.4. Groups Acting on Themselves
6.5. Sylow’s Theorem
6.6. Semidirect Product
6.7. Classification Theorems
6.8. Projects
A. Appendix
A.1. The Algebra of Complex Numbers
A.2. Set Theory Review
A.3. Equivalence Relations
A.4. Partial Orders
A.5. Basic Properties of Integers
A.6. Modular Arithmetic
A.7. Lists of Groups
Bibliography
Index