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Real and complex analysis / Walter Rudin.

By: Material type: TextTextPublication details: New York : McGraw-Hill, c1987.Edition: 3rd edDescription: xiv, 416 p. 24 cmISBN:
  • 9780071002769
Subject(s): DDC classification:
  • 515 19 R9161
Contents:
1. Preface 2. Prologue: the exponential function 3. Chapter 1: abstract integration 4. Set-theoretic notations and terminology 5. The concept of measurability 6. Simple functions 7. Elementary properties of measures 8. Arithmetic in [0, infinity] 9. Integration of positive functions 10. Integration of complex functions 11. The role played by sets of measure zero 12. Exercises 13. Chapter 2: positive borel measures 14. Vector spaces 15. Topological preliminaries 16. The riesz representation theorem 17. Regularity properties of borel measures 18. Lebesgue measure 19. Continuity properties of measurable functions 20. Exercises 21. Chapter 3: l^p-spaces 22. Convex functions and inequalities 23. The l^p-spaces 24. Approximation by continuous functions 25. Exercises 26. Chapter 4: elementary hilbert space theory 27. Inner products and linear functionals 28. Orthonormal sets 29. Trigonometric series 30. Exercises 31. Chapter 5: examples of banach space techniques 32. Banach spaces 33. Consequences of baire's theorem 34. Fourier series of continuous functions 35. Fourier coefficients of l¹-functions 36. The hahn-banach theorem 37. An abstract approach to the poisson integral 38. Exercises 39. Chapter 6: complex measures 40. Total variation 41. Absolute continuity 42. Consequences of the radon-nikodym theorem 43. Bounded linear functionals on l^p 44. The riesz representation theorem 45. Exercises 46. Chapter 7: differentiation 47. Derivatives of measures 48. The fundamental theorem of calculus 49. Differentiable transformations 50. Exercises 51. Chapter 8: integration on product spaces 52. Measurability on cartesian products 53. Product measures 54. The fubini theorem 55. Completion of product measures 56. Convolutions 57. Distribution functions 58. Exercises 59. Chapter 9: fourier transforms 60. Formal properties 61. The inversion theorem 62. The plancherel theorem 63. The banach algebra l¹ 64. Exercises 65. Chapter 10: elementary properties of holomorphic functions 66. Complex differentiation 67. Integration over paths 68. The local cauchy theorem 69. The power series representation 70. The open mapping theorem 71. The global cauchy theorem 72. The calculus of residues 73. Exercises 74. Chapter 11: harmonic functions 75. The cauchy-riemann equations 76. The poisson integral 77. The mean value property 78. Boundary behavior of poisson integrals 79. Representation theorems 80. Exercises 81. Chapter 12: the maximum modulus principle 82. Introduction 83. The schwarz lemma 84. The phragmen-lindelöf method 85. An interpolation theorem 86. A converse of the maximum modulus theorem 87. Exercises 88. Chapter 13: approximation by rational functions 89. Preparation 90. Runge's theorem 91. The mittag-leffler theorem 92. Simply connected regions 93. Exercises 94. Chapter 14: conformal mapping 95. Preservation of angles 96. Linear fractional transformations 97. Normal families 98. The riemann mapping theorem 99. The class µ 100. Continuity at the boundary 101. Conformal mapping of an annulus 102. Exercises 103. Chapter 15: zeros of holomorphic functions 104. Infinite products 105. The weierstrass factorization theorem 106. An interpolation problem 107. Jensen's formula 108. Blaschke products 109. The müntz-szas theorem 110. Exercises 111. Chapter 16: analytic continuation 112. Regular points and singular points 113. Continuation along curves 114. The monodromy theorem 115. Construction of a modular function 116. The picard theorem 117. Exercises 118. Chapter 17: h^p-spaces 119. Subharmonic functions 120. The spaces h^p and n 121. The theorem of f. And m. Riesz 122. Factorization theorems 123. The shift operator 124. Conjugate functions 125. Exercises 126. Chapter 18: elementary theory of banach algebras 127. Introduction 128. The invertible elements 129. Ideals and homomorphisms 130. Applications 131. Exercises 132. Chapter 19: holomorphic fourier transforms 133. Introduction 134. Two theorems of paley and wiener 135. Quasi-analytic classes 136. The denjoy-carleman theorem 137. Exercises 138. Chapter 20: uniform approximation by polynomials 139. Introduction 140. Some lemmas 141. Mergelyan's theorem 142. Exercises 143. Appendix: hausdorff's maximality theorem 144. Notes and comments 145. Bibliography 146. List of special symbols 147. Index
List(s) this item appears in: Mathematics
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Books Books UE-Central Library 515 R9161 (Browse shelf(Opens below)) Available T1101
Books Books UE-Central Library 515 R9161 (Browse shelf(Opens below)) Available T3129

Cover title: Real & complex analysis.

Includes index.

1. Preface
2. Prologue: the exponential function
3. Chapter 1: abstract integration
4. Set-theoretic notations and terminology
5. The concept of measurability
6. Simple functions
7. Elementary properties of measures
8. Arithmetic in [0, infinity]
9. Integration of positive functions
10. Integration of complex functions
11. The role played by sets of measure zero
12. Exercises
13. Chapter 2: positive borel measures
14. Vector spaces
15. Topological preliminaries
16. The riesz representation theorem
17. Regularity properties of borel measures
18. Lebesgue measure
19. Continuity properties of measurable functions
20. Exercises
21. Chapter 3: l^p-spaces
22. Convex functions and inequalities
23. The l^p-spaces
24. Approximation by continuous functions
25. Exercises
26. Chapter 4: elementary hilbert space theory
27. Inner products and linear functionals
28. Orthonormal sets
29. Trigonometric series
30. Exercises
31. Chapter 5: examples of banach space techniques
32. Banach spaces
33. Consequences of baire's theorem
34. Fourier series of continuous functions
35. Fourier coefficients of l¹-functions
36. The hahn-banach theorem
37. An abstract approach to the poisson integral
38. Exercises
39. Chapter 6: complex measures
40. Total variation
41. Absolute continuity
42. Consequences of the radon-nikodym theorem
43. Bounded linear functionals on l^p
44. The riesz representation theorem
45. Exercises
46. Chapter 7: differentiation
47. Derivatives of measures
48. The fundamental theorem of calculus
49. Differentiable transformations
50. Exercises
51. Chapter 8: integration on product spaces
52. Measurability on cartesian products
53. Product measures
54. The fubini theorem
55. Completion of product measures
56. Convolutions
57. Distribution functions
58. Exercises
59. Chapter 9: fourier transforms
60. Formal properties
61. The inversion theorem
62. The plancherel theorem
63. The banach algebra l¹
64. Exercises
65. Chapter 10: elementary properties of holomorphic functions
66. Complex differentiation
67. Integration over paths
68. The local cauchy theorem
69. The power series representation
70. The open mapping theorem
71. The global cauchy theorem
72. The calculus of residues
73. Exercises
74. Chapter 11: harmonic functions
75. The cauchy-riemann equations
76. The poisson integral
77. The mean value property
78. Boundary behavior of poisson integrals
79. Representation theorems
80. Exercises
81. Chapter 12: the maximum modulus principle
82. Introduction
83. The schwarz lemma
84. The phragmen-lindelöf method
85. An interpolation theorem
86. A converse of the maximum modulus theorem
87. Exercises
88. Chapter 13: approximation by rational functions
89. Preparation
90. Runge's theorem
91. The mittag-leffler theorem
92. Simply connected regions
93. Exercises
94. Chapter 14: conformal mapping
95. Preservation of angles
96. Linear fractional transformations
97. Normal families
98. The riemann mapping theorem
99. The class µ
100. Continuity at the boundary
101. Conformal mapping of an annulus
102. Exercises
103. Chapter 15: zeros of holomorphic functions
104. Infinite products
105. The weierstrass factorization theorem
106. An interpolation problem
107. Jensen's formula
108. Blaschke products
109. The müntz-szas theorem
110. Exercises
111. Chapter 16: analytic continuation
112. Regular points and singular points
113. Continuation along curves
114. The monodromy theorem
115. Construction of a modular function
116. The picard theorem
117. Exercises
118. Chapter 17: h^p-spaces
119. Subharmonic functions
120. The spaces h^p and n
121. The theorem of f. And m. Riesz
122. Factorization theorems
123. The shift operator
124. Conjugate functions
125. Exercises
126. Chapter 18: elementary theory of banach algebras
127. Introduction
128. The invertible elements
129. Ideals and homomorphisms
130. Applications
131. Exercises
132. Chapter 19: holomorphic fourier transforms
133. Introduction
134. Two theorems of paley and wiener
135. Quasi-analytic classes
136. The denjoy-carleman theorem
137. Exercises
138. Chapter 20: uniform approximation by polynomials
139. Introduction
140. Some lemmas
141. Mergelyan's theorem
142. Exercises
143. Appendix: hausdorff's maximality theorem
144. Notes and comments
145. Bibliography
146. List of special symbols
147. Index

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