Difference between revisions of "Book:W.W. Bell/Special Functions for Scientists and Engineers"
From specialfunctionswiki
| (One intermediate revision by the same user not shown) | |||
| Line 10: | Line 10: | ||
:Chapter 2 Gamma and Beta Functions | :Chapter 2 Gamma and Beta Functions | ||
::2.1 Definitions | ::2.1 Definitions | ||
| + | :::[[Gamma|$(2.1)$]] | ||
| + | :::[[Beta|$(2.2)$]] | ||
::2.2 Properties of the beta and gamma functions | ::2.2 Properties of the beta and gamma functions | ||
| + | :::[[Gamma(1)=1|Theorem 2.1]] | ||
| + | :::[[Gamma(z+1)=zGamma(z)|Theorem 2.2]] | ||
| + | :::[[Gamma(n+1)=n!|Theorem 2.3]] | ||
::2.3 Definition of the gamma function for negative values of the argument | ::2.3 Definition of the gamma function for negative values of the argument | ||
::2.4 Examples | ::2.4 Examples | ||
| Line 83: | Line 88: | ||
:::[[Chebyshev T|$(7.1)$]] | :::[[Chebyshev T|$(7.1)$]] | ||
:::[[Chebyshev U|$(7.2)$]] | :::[[Chebyshev U|$(7.2)$]] | ||
| + | :::[[T n(x)=(1/2)(x+i sqrt(1-x^2))^n+(1/2)(x-i sqrt(1-x^2))^n|Theorem 7.1 (i)]] | ||
| + | :::[[U n(x)=(-i/2)(x+i sqrt(1-x^2))^n+(-i/2)(x-i sqrt(1-x^2))^n|Theorem 7.1 (ii)]] | ||
| + | :::[[T n(x)=Sum (-1)^k n!/((2k)! (n-2k)!) (1-x^2)^k x^(n-2k)|Theorem 7.2 (i)]] | ||
| + | :::[[U n(x)=Sum (-1)^k n!/((2k+1)!(n-2k-1)!)(1-x^2)^(k+1/2)x^(n-2k-1)|Theorem 7.2 (ii)]] | ||
::7.2 Gneerating function | ::7.2 Gneerating function | ||
::7.3 Orthogonality properties | ::7.3 Orthogonality properties | ||
Latest revision as of 19:50, 15 March 2018
W.W. Bell: Special Functions for Scientists and Engineers
Published $1968$, D. Van Nostrand.
Contents
- PREFACE
- LIST OF SYMBOLS
- Chapter 1 Series Solution of Differential Equations
- 1.1 Method of Frobenius
- 1.2 Examples
- Problems
- Chapter 2 Gamma and Beta Functions
- 2.1 Definitions
- 2.2 Properties of the beta and gamma functions
- 2.3 Definition of the gamma function for negative values of the argument
- 2.4 Examples
- Problems
- Chapter 3 Legendre Polynomials and Functions
- 3.1 Legendre's equation and its solution
- 3.2 Generating function for the Legendre polynomials
- 3.3 Further expressions for the Legendre polynomials
- 3.4 Explicit expressions for and special values of the Legendre polynomials
- 3.5 Orthogonality properties of the Legendre polynomials
- 3.6 Legendre series
- 3.7 Relations between the Legendre polynomials and their derivatives; recurrence relations
- 3.8 Associated Legendre functions
- 3.9 Properties of the associated Legendre functions
- 3.10 Legendre functions of the second kind
- 3.11 Spherical harmonics
- 3.12 Graphs of the Legendre functions
- 3.13 Examples
- Problems
- Chapter 4 Bessel Functions
- 4.1 Bessel's equation and its solutions; Bessel functions of the first and second kind
- 4.2 Generating function for the Bessel functions
- 4.3 Integral representations for Bessel functions
- 4.4 Recurrence relations
- 4.5 Hankel functions
- 4.6 Equations reducible to Bessel's equation
- 4.7 Modified Bessel functions
- 4.8 Recurrence relations for the modified Bessel functions
- 4.9 Integral representations for the modified Bessel functions
- 4.10 Kelvin's functions
- 4.11 Spherical Bessel functions
- 4.12 Behaviour of the Bessel functions for large and small values of the argument
- 4.13 Graphs of the Bessel functions
- 4.14 Orthonormality of the Bessel functions; Bessel series
- 4.15 Integrals involving Bessel functions
- 4.16 Examples
- Problems
- Chapter 5 Hermite Polynomials
- 5.1 Hermite's equation and its solution
- 5.2 Generating function
- 5.3 Other expressions for the Hermite polynomials
- 5.4 Explicit expressions for, and special values of, the Hermite polynomials
- 5.5 Orthogonality properties of the Hermite polynomials
- 5.6 Relations between Hermite polynomials and their derivatives
- 5.7 Weber-Hermite functions
- 5.8 Examples
- Problems
- Chapter 6 Laguerre Polynomials
- 6.1 Laguerre's equation and its solution
- 6.2 Generating function
- 6.3 Alternative expression for the Laguerre polynomials
- 6.4 Explicit expressions for, and special values of, the Laguerre polynomials
- 6.5 Orthogonality properties of the Laguerre polynomials
- 6.6 Relations between Laguerre polynomials and their derivatives; recurrence relations
- 6.7 Associated Laguerre polynomials
- 6.8 Properties of the associated Laguerre polynomials
- 6.9 Notation
- 6.10 Examples
- Problems
- Chapter 7 Chebyshev Polynomials
- 7.1 Definition of Chebyshev polynomials; Chebyshev's equation
- 7.2 Gneerating function
- 7.3 Orthogonality properties
- 7.4 Recurrence relations
- 7.5 Examples
- Problems
- Chapter 8 Gegenbauer and Jacobi Polynomials
- 8.1 Gegenbauer polynomials
- 8.2 Jacobi polynomials
- 8.3 Examples
- Problems
- Chapter 9 Hypergeometric Functions
- 9.1 Definition of hypergeometric functions
- 9.2 Properties of the hypergeometric function
- 9.3 Properties of the confluent hypergeometric function
- 9.4 Examples
- Problems
- Chapter 10 Other Special Functions
- 10.1 Incomplete gamma functions
- 10.2 Exponential integral and related functions
- 10.3 The error function and related functions
- 10.4 Riemann's zeta function
- 10.5 Debye functions
- 10.6 Elliptic integrals
- 10.7 Examples
- Problems
- Appendices
- 1 Convergence of Legendre series
- 2 Euler's constant
- 3 Differential equations
- 4 Orthogonality relations
- 5 Generating functions
- Hints and Solutions to Problems
- Bibliography
- Index
