Book:Walter Rudin/Principles of Mathematical Analysis/Second Edition

Subject Matter

 * Analysis

Contents

 * Preface


 * Chapter 1. The Real and Complex Number Systems


 * Introduction
 * Dedekind cuts
 * Real numbers
 * The extended real number system
 * Complex numbers
 * Euclidean spaces
 * Exercises


 * Chapter 2. Elements of Set Theory


 * Finite, countable and uncountable sets
 * Metric spaces
 * Compact sets
 * Perfect sets
 * Connected sets
 * Exercises


 * Chapter 3. Numerical Sequences and Series


 * Convergent sequences
 * Subsequences
 * Cauchy sequences
 * Upper and lower limits
 * Some special sequences
 * Series
 * Series of nonnegative terms
 * The number $e$
 * The root and ratio tests
 * Power series
 * Partial summation
 * Absolute convergence
 * Addition and multiplication of series
 * Rearrangements
 * Exercises


 * Chapter 4. Continuity


 * The limit of a function
 * Continuous functions
 * Continuity and compactness
 * Continuity and connectedness
 * Discontinuities
 * Monotonic functions
 * Infinite limits and limits at infinity


 * Chapter 5. Differentiation


 * The derivative of a real function
 * Mean value theorems
 * The continuity of derivatives
 * L'Hospital's rule
 * Derivatives of a higher order
 * Taylor's theorem
 * Differentiation of vector-valued functions
 * Exercises


 * Chapter 6. The Riemann-Stieltjes Integral


 * Definition and existence of the integral
 * The integral as a limit of sums
 * Integration and differentiation
 * Integration of vector-valued functions
 * Functions of bounded variables
 * Further theorems on integration


 * Chapter 7. Sequences and Series of Functions


 * Discussion of main problem
 * Uniform convergence
 * Uniform convergence and continuity
 * Uniform convergence and integration
 * Uniform convergence and differentiation
 * Equicontinuous families of functions
 * The Stone-Weierstrass theorem
 * Exercises


 * Chapter 8. Further Topics in the Theory of Series


 * Power series
 * The exponential and logarithmic functions
 * The trigonometric functions
 * The algebraic completeness of the complex field
 * Fourier series
 * Exercises


 * Chapter 9. Functions of Several Variables


 * Linear transformations
 * Differentiation
 * The inverse function theorem
 * The implicit function theorem
 * The rank theorem
 * A decomposition theorem
 * Determinants
 * Integration
 * Differential forms
 * Simplexes and chains
 * Stokes' theorem
 * Exercises


 * Chapter 10. The Lebesgue Theory


 * Set functions
 * Construction of the Lebesgue measure
 * Measure spaces
 * Measurable functions
 * Simple functions
 * Integration
 * Comparison with the Riemann integral
 * Integration of complex functions
 * Functions of class $\LL^2$
 * Exercises


 * Bibliography


 * List of Frequently Occurring Symbols


 * Index



Source work progress
* : Chapter $1$: The Real and Complex Number Systems: Real Numbers: $1.38$. Decimals