, Instructor’s Solution Manual
INTRODUCTION
TO REAL ANALYSIS
William F. Trench
Professor Emeritus
Trinity University
San Antonio, Texas, USA
©Copyright 2009 William F. Trench, all rights reserved
Updated May 2012
No part of this document may be circulated or posted on any website
without the author’s permission. Under US copyright law,
“Uploading or downloading works protected by copyright without the au-
thority of the copyright owner is an infringement of the copyright owner’s
exclusive rights of reproduction and/or distribution. Anyone found to
have infringed a copyrighted work may be liable for statutory damages up
to $30,000 for each work infringed and, if willful infringement is proven
by the copyright owner, that amount may be increased up to $150,000 for
each work infringed. In addition, an infringer of a work may also be li-
able for the attorney’s fees incurred by the copyright owner to enforce his
or her rights.”
, Contents
Chapter 1 The Real Numbers 1
1.1 The Real Number System 1
1.2 Mathematical Induction 4
1.3 The Real Line 13
Chapter 2 Differential Calculus of Functions of One Variable 17
2.1 Functions and Limits 17
2.2 Continuity 24
2.3 Differentiable Functions of One Variable 30
2.4 L’Hospital’s Rule 36
2.5 Taylor’s Theorem 43
Chapter 3 Integral Calculus of Functions of One Variable 53
3.1 Definition of the Integral 53
3.2 Existence of the Integral 56
3.3 Properties of the Integral 61
3.4 Improper Integrals 66
3.5 A More Advanced Look at the Existence
of the Proper Riemann Integral 77
Chapter 4 Infinite Sequences and Series 79
4.1 Sequences of Real Numbers 79
4.2 Earlier Topics Revisited With Sequences 87
4.3 Infinite Series of Constants 89
4.4 Sequences and Series of Functions 100
4.5 Power Series 107
, Chapter 5 Real-Valued Functions of Several Variables 116
5.1 Structure of Rn 116
5.2 Continuous Real-Valued Function of n Variables 121
5.3 Partial Derivatives and the Differential 123
5.4 The Chain Rule and Taylor’s Theorem 130
Chapter 6 Vector-Valued Functions of Several Variables 141
6.1 Linear Transformations and Matrices 141
6.2 Continuity and Differentiability of Transformations 146
6.3 The Inverse Function Theorem 152
6.4 The Implicit Function Theorem 160
Chapter 7 Integrals of Functions of Several Variables 170
7.1 Definition and Existence of the Multiple Integral 170
7.2 Iterated Integrals and Multiple Integrals 187
7.3 Change of Variables in Multiple Integrals 207
Chapter 8 Metric Spaces 217
8.1 Introduction to Metric Spaces 217
8.2 Compact Sets in a Metric Space 224
8.3 Continuous Functions on Metric Spaces 226
INTRODUCTION
TO REAL ANALYSIS
William F. Trench
Professor Emeritus
Trinity University
San Antonio, Texas, USA
©Copyright 2009 William F. Trench, all rights reserved
Updated May 2012
No part of this document may be circulated or posted on any website
without the author’s permission. Under US copyright law,
“Uploading or downloading works protected by copyright without the au-
thority of the copyright owner is an infringement of the copyright owner’s
exclusive rights of reproduction and/or distribution. Anyone found to
have infringed a copyrighted work may be liable for statutory damages up
to $30,000 for each work infringed and, if willful infringement is proven
by the copyright owner, that amount may be increased up to $150,000 for
each work infringed. In addition, an infringer of a work may also be li-
able for the attorney’s fees incurred by the copyright owner to enforce his
or her rights.”
, Contents
Chapter 1 The Real Numbers 1
1.1 The Real Number System 1
1.2 Mathematical Induction 4
1.3 The Real Line 13
Chapter 2 Differential Calculus of Functions of One Variable 17
2.1 Functions and Limits 17
2.2 Continuity 24
2.3 Differentiable Functions of One Variable 30
2.4 L’Hospital’s Rule 36
2.5 Taylor’s Theorem 43
Chapter 3 Integral Calculus of Functions of One Variable 53
3.1 Definition of the Integral 53
3.2 Existence of the Integral 56
3.3 Properties of the Integral 61
3.4 Improper Integrals 66
3.5 A More Advanced Look at the Existence
of the Proper Riemann Integral 77
Chapter 4 Infinite Sequences and Series 79
4.1 Sequences of Real Numbers 79
4.2 Earlier Topics Revisited With Sequences 87
4.3 Infinite Series of Constants 89
4.4 Sequences and Series of Functions 100
4.5 Power Series 107
, Chapter 5 Real-Valued Functions of Several Variables 116
5.1 Structure of Rn 116
5.2 Continuous Real-Valued Function of n Variables 121
5.3 Partial Derivatives and the Differential 123
5.4 The Chain Rule and Taylor’s Theorem 130
Chapter 6 Vector-Valued Functions of Several Variables 141
6.1 Linear Transformations and Matrices 141
6.2 Continuity and Differentiability of Transformations 146
6.3 The Inverse Function Theorem 152
6.4 The Implicit Function Theorem 160
Chapter 7 Integrals of Functions of Several Variables 170
7.1 Definition and Existence of the Multiple Integral 170
7.2 Iterated Integrals and Multiple Integrals 187
7.3 Change of Variables in Multiple Integrals 207
Chapter 8 Metric Spaces 217
8.1 Introduction to Metric Spaces 217
8.2 Compact Sets in a Metric Space 224
8.3 Continuous Functions on Metric Spaces 226