Abstract Algebra
A First Course
Second Edition
The Second Edition of this classic text maintains the clear exposition, logical organization, and accessible breadth of coverage that have been its hallmarks. It plunges directly into algebraic structures and incorporates an unusually large number of examples to clarify abstract concepts as they arise. Proofs of theorems do more than just prove the stated results; Saracino examines them so readers gain a better impression of where the proofs come from and why they proceed as they do. Most of the exercises range from easy to moderately difficult and ask for understanding of ideas rather than flashes of insight. The new edition introduces five new sections on field extensions and Galois theory, increasing its versatility by making it appropriate for a two-semester as well as a one-semester course.
“Absolutely one of the best mathematics textbooks I have ever used. My students love it, too! It is written very clearly, is very easy to read, and is concise but thorough. The exercises are perfect.” — Ramin Naimi, Occidental College
“Saracino is a great writer of mathematics and the book is well-tailored to our students, so it’s a great choice for me.” — David Lantz, Colgate University
“The examples illustrate the power of abstraction and provide students with a quick experience with abstract thinking.” — Maged Elshamy, Alabama A&M University
0. Sets and Induction
1. Binary Operations
2. Groups
3. Fundamental Theorems about Groups
4. Powers of an Element; Cyclic Groups
5. Subgroups
6. Direct Products
7. Functions
8. Symmetric Groups
9. Equivalence Relations; Cosets
10. Counting the Elements of a Finite Group
11. Normal Subgroups
12. Homomorphisms
13. Homomorphisms and Normal Subgroups
14. Direct Products and Finite Abelian Groups
15. Sylow Theorems
16. Rings
17. Subrings, Ideals, and Quotient Rings
18. Ring Homomorphisms
19. Polynomials
20. From Polynomials to Fields
21. Unique Factorization Domains
22. Extensions of Fields
23. Constructions with Straightedge and Compass
24. Normal and Separable Extensions
25. Galois Theory
26. Solvability