Introduction to Abstract Algebra

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Author(s): Roy Dubisch
Publisher: John Wiley & Sons
Year: 1965

Language: English
Commentary: Same scan as https://libgen.rs/book/index.php?md5=98CAB82E37BAE65A42326544CFCCE021 but binarized from JPG
Pages: 216
City: New York, London, Sydney

Title
Preface
Contents
Symbols used and pages where first introduced
1. Sets
1. Definition
2. Set Membership and Set Inclusion
3. Union and Intersection of Sets
4. Ordered Pairs
5. Binary Operations
2. The Natural Numbers
1. The Problem
2. Closure
3. The Commutative and Associative Laws
4. The Distributive Law for Multiplication with Respect to Addition
5. The Remaining Postulates
6. Isomorphism
7. The Principle of Finite Induction
8. The Peano Postulates
3. Equivalent Pairs of Natural Numbers
1. Equivalence
2. Definition of Addition and Multiplication
3. Properties of Addition and Multiplication
4. Equivalence Classes and The Integers
1. Relations
2. Partitioning of a Set
3. Constructing the Integers
4. Further Properties of the Integers
5. The Natural Numbers as a Subset of the Integers
6. Zero and Subtraction
5. Integral Domains
1. Definition of an Integral Domain
2. Elementary Properties of Integral Domains
3. Division in an Integral Domain
4. Ordered Integral Domains
5. Variations of the Principle of Mathematical Induction
6. The Greatest Common Divisor
7. Unique Factorization in I
6. The Rational Numbers
1. Equivalence
2. Addition and Multiplication of Rational Numbers
3. Properties of the Rational Numbers
4. The Integers as a Subset of the Rational Numbers
5. Additive and Multiplicative Inverses in R
6. The Ordering of the Rational Numbers
7. Groups and Fields
1. Definitions and Examples
2. Further Examples of Groups
3. Some Simple Properties of Groups
4. Permutations
5. Mappings
6. Isomorphisms and Automorphisms of Groups
7. Automorphisms of a Field
8. Cyclic Groups
9. Subgroups
8. The Real Numbers
1. Rational Numbers as Decimals
2. Sequences
3. Cauchy Sequences
4. Null Sequences
5. The Real Numbers
6. The Rational Numbers as Real Numbers
7. sqrt(2) as a Real Number
8. Ordering of the Real Numbers
9. The Field of Real Numbers
10. Additional Remarks
9. Rings, Ideals, and Homomorphisms
1. Subrings and Ideals
2. Residue Class Rings
3. Homomorphisms
4. Homomorphisms of Groups
5. Lagrange’s Theorem
10. Complex Numbers and Quaternions
1. Complex Numbers as Residue Classes
2. Complex Numbers as Pairs of Real Numbers
3. Algebraically Closed Fields
4. De Moivre’s Theorem
5. Quaternions
11. Vector Spaces
1. Definition
2. The Basis of a Vector Space
3. The Dimension of a Vector Space
4. Fields as Vector Spaces
12. Polynomials
1. Definitions
2. The Division Algorithm
3. Greatest Common Divisor
4. Zeros of a Polynomial
5. The Cubic and Quartic Equations
Bibliography
Index