Introduction to Lebesgue Integration and Fourier Series

ISBN-10: 0486682935

ISBN-13: 9780486682938

Edition: 1994 (Unabridged)

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Book details

List price: $15.95
Copyright year: 1994
Publisher: Dover Publications, Incorporated
Publication date: 1/4/1995
Binding: Paperback
Pages: 159
Size: 6.50" wide x 9.50" long x 0.50" tall
Weight: 0.836
Language: English

DAVID L. MYERS is Associate Professor of Criminology and a Dean's Associate in the School of Graduate Studies and Research at Indiana University of Pennsylvania, where he also directs the Doctoral Program in Criminology and the Center for Research in Criminology. He is a member of the IUP Research Institute Advisory Board and the Institutional Review Board of the National Center for Juvenile Justice, and is an Associate Editor and Columnist for Criminal Justice Research Reports. He is the author of Excluding Violent Youths from Juvenile Court: The Effectiveness of Legislative Waiver (2001), and his articles have appeared in such journals as &outh Violence and Juvenile Justice, Journal of Juvenile Justice and Detention Services, Criminal Justice Review, Justice Research and Policy, and Criminal Justice Studies.

The Riemann Integral
Definition of the Riemann Integral
Properties of the Riemann Integral
Drawbacks of the Riemann Integral
Measurable Sets
Outer Measure
Measurable Sets
Properties of Measurable Sets
Countable Additivity
Borel Sets and the Cantor Set
Necessary and Sufficient Conditions for a Set to be Measurable
Lebesgue Measure for Bounded Sets
Lebesgue Measure for Unbounded Sets
Measurable Functions
Definition of Measurable Functions
Preservation of Measurability for Functions
Simple Functions
The Lebesgue Integral
The Lebesgue Integral for Bounded Measurable Functions
Simple Functions
Integrability of Bounded Measurable Functions
Elementary Properties of the Integral for Bounded Functions
The Lebesgue Integral for Unbounded Functions
Convergence and The Lebesgue Integral
Convergence Theorems
A Necessary and Sufficient Condition for Riemann Integrability
Egoroff's and Lusin's Theorems and an Alternative Proof of the Lebesgue Dominated Convergence Theorem
Function Spaces and � superscript 2
Linear Spaces
The Space � superscript 2
The � superscript 2 Theory of Fourier Series
Definition and Examples
Elementary Properties
� superscript 2 Convergence of Fourier Series
Pointwise Convergence of Fourier Series
An Application: Vibrating Strings
Some Bad Examples and Good Theorems
More Convergence Theorems
Logic and Sets
Open and Closed Sets
Bounded Sets of Real Numbers
Countable and Uncountable Sets (and discussion of the Axiom of Choice)
Real Functions
Real Sequences
Sequences of Functions
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