Description

Book Synopsis
Finally there's an easy-to-follow book that will help readers succeed in the art of proving theorems. Sibley not only conveys the spirit of mathematics but also uncovers the skills required to succeed. Key definitions are introduced while readers are encouraged to develop an intuition about these concepts and practice using them in problems.

Table of Contents
PART I

Chapter 1: LANGUAGE, LOGIC, AND SETS
1.1 Logic and Language
1.2 Implication
1.3 Quantifiers and Definitions
1.4 Introduction to Sets
1.5 Introduction to Number Theory
1.6 Additional Set Theory
Definitions from Chapter 1
Algebraic and Order Properties of Number Systems

Chapter 2: PROOFS
2.1 Proof Format I: Direct Proofs
2.2 Proof Format II: Contrapositive and Contradition
2.3 Proof Format III: Existence, Uniqueness, Or
2.4 Proof Format IV: Mathematical Induction
The Fundamental Theorem of Arithmetic
2.5 Further Advice and Practice in Proving
Proof Formats

Chapter 3: FUNCTIONS
3.1 Definitions
3.2 Composition, One-to-One, Onto, and Inverses
3.3 Images and Pre-Images of Sets
Definitions from Chapter 3

Chapter 4: RELATIONS
4.1 Relations
4.2 Equivalence Relations
4.3 Partitions and Equivalence Relations
4.4 Partial Orders
Definitions from Chapter 4

PART II

Chapter 5: INFINTE SETS
5.1 The Sizes of Sets
5.2 Countable Sets
5.3 Uncountable Sets
5.4 The Axiom of Choice and Its Equivalents
Definitions from Chapter 5

Chapter 6: INTRODUCTION TO DISCRETE MATHEMATICS
6.1 Graph Theory
6.2 Trees and Algorithms
6.3 Counting Principles I
6.4 Counting Principles II
Definitions from Chapter 6

Chapter 7: INTRODUCTION TO ABSTRACT ALGEBRA
7.1 Operations and Properties
7.2 Groups
Groups in Geometry
7.3 Rings and Fields
7.4 Lattices
7.5 Homomorphisms
Definitions from Chapter 7

Chapter 8: INTRODUCTION TO ANALYSIS
8.1 Real Numbers, Approximations, and Exact Values
Zeno’s Paradoxes
8.2 Limits of Functions
8.3 Continuous Functions and Counterexamples
Counterexamples in Rational Analysis
8.4 Sequences and Series
8.5 Discrete Dynamical Systems
The Intermediate Value Theorem
Definitions for Chapter 8

Chapter 9: METAMATHEMATICS AND THE PHILOSOPHY OF MATHEMATICS
9.1 Metamathematics
9.2 The Philosophy of Mathematics
Definitions for Chapter 9

Appendix: THE GREEK ALPHABET
Answers: SELECTED ANSWERS

Index
List of Symbols

The Foundations of Mathematics

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    A Hardback by Thomas Q. Sibley

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      Publisher: John Wiley & Sons Inc
      Publication Date: 21/04/2008
      ISBN13: 9780470085011, 978-0470085011
      ISBN10: 0470085010
      Also in:
      Mathematics

      Description

      Book Synopsis
      Finally there's an easy-to-follow book that will help readers succeed in the art of proving theorems. Sibley not only conveys the spirit of mathematics but also uncovers the skills required to succeed. Key definitions are introduced while readers are encouraged to develop an intuition about these concepts and practice using them in problems.

      Table of Contents
      PART I

      Chapter 1: LANGUAGE, LOGIC, AND SETS
      1.1 Logic and Language
      1.2 Implication
      1.3 Quantifiers and Definitions
      1.4 Introduction to Sets
      1.5 Introduction to Number Theory
      1.6 Additional Set Theory
      Definitions from Chapter 1
      Algebraic and Order Properties of Number Systems

      Chapter 2: PROOFS
      2.1 Proof Format I: Direct Proofs
      2.2 Proof Format II: Contrapositive and Contradition
      2.3 Proof Format III: Existence, Uniqueness, Or
      2.4 Proof Format IV: Mathematical Induction
      The Fundamental Theorem of Arithmetic
      2.5 Further Advice and Practice in Proving
      Proof Formats

      Chapter 3: FUNCTIONS
      3.1 Definitions
      3.2 Composition, One-to-One, Onto, and Inverses
      3.3 Images and Pre-Images of Sets
      Definitions from Chapter 3

      Chapter 4: RELATIONS
      4.1 Relations
      4.2 Equivalence Relations
      4.3 Partitions and Equivalence Relations
      4.4 Partial Orders
      Definitions from Chapter 4

      PART II

      Chapter 5: INFINTE SETS
      5.1 The Sizes of Sets
      5.2 Countable Sets
      5.3 Uncountable Sets
      5.4 The Axiom of Choice and Its Equivalents
      Definitions from Chapter 5

      Chapter 6: INTRODUCTION TO DISCRETE MATHEMATICS
      6.1 Graph Theory
      6.2 Trees and Algorithms
      6.3 Counting Principles I
      6.4 Counting Principles II
      Definitions from Chapter 6

      Chapter 7: INTRODUCTION TO ABSTRACT ALGEBRA
      7.1 Operations and Properties
      7.2 Groups
      Groups in Geometry
      7.3 Rings and Fields
      7.4 Lattices
      7.5 Homomorphisms
      Definitions from Chapter 7

      Chapter 8: INTRODUCTION TO ANALYSIS
      8.1 Real Numbers, Approximations, and Exact Values
      Zeno’s Paradoxes
      8.2 Limits of Functions
      8.3 Continuous Functions and Counterexamples
      Counterexamples in Rational Analysis
      8.4 Sequences and Series
      8.5 Discrete Dynamical Systems
      The Intermediate Value Theorem
      Definitions for Chapter 8

      Chapter 9: METAMATHEMATICS AND THE PHILOSOPHY OF MATHEMATICS
      9.1 Metamathematics
      9.2 The Philosophy of Mathematics
      Definitions for Chapter 9

      Appendix: THE GREEK ALPHABET
      Answers: SELECTED ANSWERS

      Index
      List of Symbols

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