The Partition Method for a Power Series Expansion
Theory and Applications
- 1 Edición - 19 de enero de 2017
- Última edición
- Autor: Victor Kowalenko
- Idioma: Inglés
The Partition Method for a Power Series Expansion: Theory and Applications explores how the method known as 'the partition method for a power series expansion', which was developed… Leer más
Descripción
Descripción
The Partition Method for a Power Series Expansion: Theory and Applications explores how the method known as 'the partition method for a power series expansion', which was developed by the author, can be applied to a host of previously intractable problems in mathematics and physics.
In particular, this book describes how the method can be used to determine the Bernoulli, cosecant, and reciprocal logarithm numbers, which appear as the coefficients of the resulting power series expansions, then also extending the method to more complicated situations where the coefficients become polynomials or mathematical functions. From these examples, a general theory for the method is presented, which enables a programming methodology to be established.
Finally, the programming techniques of previous chapters are used to derive power series expansions for complex generating functions arising in the theory of partitions and in lattice models of statistical mechanics.
Puntos claves
Puntos claves
- Explains the partition method by presenting elementary applications involving the Bernoulli, cosecant, and reciprocal logarithm numbers
- Compares generating partitions via the BRCP algorithm with the standard lexicographic approaches
- Describes how to program the partition method for a power series expansion and the BRCP algorithm
De interès para
De interès para
Mathematicians, theoretical physicists, computer scientists and software engineers
Índice
Índice
- Preface
- Chapter 1: Introduction
- Abstract
- 1.1. Cosecant Expansion
- 1.2. Reciprocal Logarithm Numbers
- 1.3. Bernoulli and Related Polynomials
- References
- Chapter 2: More Advanced Applications
- Abstract
- 2.1. Bell Polynomials of the First Kind
- 2.2. Generalized Cosecant and Secant Numbers
- 2.3. Generalized Reciprocal Logarithm Numbers
- 2.4. Generalization of Elliptic Integrals
- References
- Chapter 3: Generating Partitions
- Abstract
- References
- Chapter 4: General Theory
- Abstract
- References
- Chapter 5: Programming the Partition Method for a Power Series Expansion
- Abstract
- References
- Chapter 6: Operator Approach
- Abstract
- References
- Chapter 7: Classes of Partitions
- Abstract
- References
- Chapter 8: The Partition-Number Generating Function and Its Inverted Form
- Abstract
- 8.1. Generalization of the Inverted Form of P(z)
- References
- Chapter 9: Generalization of the Partition-Number Generating Function
- Abstract
- References
- Chapter 10: Conclusion
- Abstract
- References
- Appendix A: Regularization
- References
- Appendix B: Computer Programs
- References
- References
- Index
Detalles del producto
Detalles del producto
- Edición: 1
- Última edición
- Publicado: 19 de enero de 2017
- Idioma: Inglés
Sobre el autor
Sobre el autor
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