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-%%
-%% This is file `sampleEq.tex',
-%% generated with the docstrip utility.
-%%
-%% The original source files were:
-%%
-%% glossary.dtx (with options: `sampleEq.tex,package')
-%% Copyright (C) 2006 Nicola Talbot, all rights reserved.
-%% If you modify this file, you must change its name first.
-%% You are NOT ALLOWED to distribute this file alone. You are NOT
-%% ALLOWED to take money for the distribution or use of either this
-%% file or a changed version, except for a nominal charge for copying
-%% etc.
-%% \CharacterTable
-%% {Upper-case \A\B\C\D\E\F\G\H\I\J\K\L\M\N\O\P\Q\R\S\T\U\V\W\X\Y\Z
-%% Lower-case \a\b\c\d\e\f\g\h\i\j\k\l\m\n\o\p\q\r\s\t\u\v\w\x\y\z
-%% Digits \0\1\2\3\4\5\6\7\8\9
-%% Exclamation \! Double quote \" Hash (number) \#
-%% Dollar \$ Percent \% Ampersand \&
-%% Acute accent \' Left paren \( Right paren \)
-%% Asterisk \* Plus \+ Comma \,
-%% Minus \- Point \. Solidus \/
-%% Colon \: Semicolon \; Less than \<
-%% Equals \= Greater than \> Question mark \?
-%% Commercial at \@ Left bracket \[ Backslash \\
-%% Right bracket \] Circumflex \^ Underscore \_
-%% Grave accent \` Left brace \{ Vertical bar \|
-%% Right brace \} Tilde \~}
-\documentclass[a4paper,12pt]{report}
-
-\usepackage{amsmath}
-\usepackage[colorlinks]{hyperref}
-\usepackage[header,border=none,cols=3,number=equation]{glossary}[2006/07/20]
-
-\newcommand{\erf}{\operatorname{erf}}
-\newcommand{\erfc}{\operatorname{erfc}}
-
-\makeglossary
-
-
-
-\renewcommand{\glossaryname}{Index of Special Functions
-and Notations}
-
-
-\renewcommand{\entryname}{Notation}
-
-\renewcommand{\descriptionname}{Function Name}
-
-\renewcommand{\glspageheader}{Number of Formula}
-
-\newcommand{\glossarysubheader}{ & & \\}
-
-
-\storeglosentry{Gamma}{name=\ensuremath{\Gamma(z)},
-description=Gamma function,sort=Gamma}
-
-\storeglosentry{gamma}{name={\ensuremath{\gamma(\alpha,x)}},
-description=Incomplete gamma function,sort=gamma}
-
-\storeglosentry{iGamma}{name={\ensuremath{\Gamma(\alpha,x)}},
-description=Incomplete gamma function,sort=Gamma}
-
-\storeglosentry{psi}{name=\ensuremath{\psi(x)},
-description=Psi function,sort=psi}
-
-\storeglosentry{erf}{name=\ensuremath{\erf(x)},
-description=Error function,sort=erf}
-
-\storeglosentry{erfc}{name=\ensuremath{\erfc},
-description=Complementary error function,sort=erfc}
-
-\storeglosentry{B}{name={\ensuremath{B(x,y)}},
-description=Beta function,sort=B}
-
-\storeglosentry{Bx}{name={\ensuremath{B_x(p,q)}},
-description=Incomplete beta function,sort=Bx}
-
-\storeglosentry{Tn}{name=\ensuremath{T_n(x)},
-description=Chebyshev's polynomials of the first kind,sort=Tn}
-
-\storeglosentry{Un}{name=\ensuremath{U_n(x)},
-description=Chebyshev's polynomials of the second kind,sort=Un}
-
-\storeglosentry{Hn}{name=\ensuremath{H_n(x)},
-description=Hermite polynomials,sort=Hn}
-
-\storeglosentry{Ln}{name=\ensuremath{L_n^\alpha(x)},
-description=Laguerre polynomials,sort=Lna}
-
-\storeglosentry{Znu}{name=\ensuremath{Z_\nu(z)},
-description=Bessel functions,sort=Z}
-
-\storeglosentry{Phi}{name={\ensuremath{\Phi(\alpha,\gamma;z)}},
-description=confluent hypergeometric function,sort=Pagz}
-
-\storeglosentry{knu}{name=\ensuremath{k_\nu(x)},
-description=Bateman's function,sort=kv}
-
-\storeglosentry{Dp}{name=\ensuremath{D_p(z)},
-description=Parabolic cylinder functions,sort=Dp}
-
-\storeglosentry{F}{name={\ensuremath{F(\phi,k)}},
-description=Elliptical integral of the first kind,sort=Fpk}
-
-\storeglosentry{C}{name=\ensuremath{C},
-description=Euler's constant,sort=C}
-
-\storeglosentry{G}{name=\ensuremath{G},
-description=Catalan's constant,sort=G}
-
-\begin{document}
-\title{A Sample Document Using glossary.sty}
-\author{Nicola Talbot}
-\maketitle
-
-\begin{abstract}
-This is a sample document illustrating the use of the \textsf{glossary}
-package. The functions here have been taken from ``Tables of
-Integrals, Series, and Products'' by I.S.~Gradshteyn and I.M~Ryzhik.
-The glossary is a list of special functions, so
-the equation number has been used rather than the page number. This
-can be done using the \texttt{number=equation} package
-option.
-\end{abstract}
-
-\printglossary
-
-\chapter{Gamma Functions}
-
-\begin{equation}
-\gls{Gamma} = \int_{0}^{\infty}e^{-t}t^{z-1}\,dt
-\end{equation}
-
-\verb|\ensuremath| is only required here if using
-hyperlinks.
-\begin{equation}
-\useGlosentry{Gamma}{\ensuremath{\Gamma(x+1)}} = x\Gamma(x)
-\end{equation}
-
-\begin{equation}
-\gls{gamma} = \int_0^x e^{-t}t^{\alpha-1}\,dt
-\end{equation}
-
-\begin{equation}
-\gls{iGamma} = \int_x^\infty e^{-t}t^{\alpha-1}\,dt
-\end{equation}
-
-\newpage
-
-\begin{equation}
-\gls{Gamma} = \Gamma(\alpha, x) + \gamma(\alpha, x)
-\end{equation}
-
-\begin{equation}
-\gls{psi} = \frac{d}{dx}\ln\Gamma(x)
-\end{equation}
-
-\chapter{Error Functions}
-
-\begin{equation}
-\gls{erf} = \frac{2}{\surd\pi}\int_0^x e^{-t^2}\,dt
-\end{equation}
-
-\begin{equation}
-\gls{erfc} = 1 - \erf(x)
-\end{equation}
-
-\chapter{Beta Function}
-
-\begin{equation}
-\gls{B} = 2\int_0^1 t^{x-1}(1-t^2)^{y-1}\,dt
-\end{equation}
-Alternatively:
-\begin{equation}
-\gls{B} = 2\int_0^{\frac\pi2}\sin^{2x-1}\phi\cos^{2y-1}\phi\,d\phi
-\end{equation}
-
-\begin{equation}
-\gls{B} = \frac{\Gamma(x)\Gamma(y)}{\Gamma(x+y)} = B(y,x)
-\end{equation}
-
-\begin{equation}
-\gls{Bx} = \int_0^x t^{p-1}(1-t)^{q-1}\,dt
-\end{equation}
-
-\chapter{Polynomials}
-
-\section{Chebyshev's polynomials}
-
-\begin{equation}
-\gls{Tn} = \cos(n\arccos x)
-\end{equation}
-
-\begin{equation}
-\gls{Un} = \frac{\sin[(n+1)\arccos x]}{\sin[\arccos x]}
-\end{equation}
-
-\section{Hermite polynomials}
-
-\begin{equation}
-\gls{Hn} = (-1)^n e^{x^2} \frac{d^n}{dx^n}(e^{-x^2})
-\end{equation}
-
-\section{Laguerre polynomials}
-
-\begin{equation}
-L_n^{\alpha} (x) = \frac{1}{n!}e^x x^{-\alpha}
-\frac{d^n}{dx^n}(e^{-x}x^{n+\alpha})
-\end{equation}
-
-\chapter{Bessel Functions}
-
-Bessel functions $Z_\nu$ are solutions of
-\begin{equation}
-\useglosentry{Znu}
-\frac{d^2Z_\nu}{dz^2} + \frac{1}{z}\,\frac{dZ_\nu}{dz} +
-\left( 1-\frac{\nu^2}{z^2}Z_\nu = 0 \right)
-\end{equation}
-
-\chapter{Confluent hypergeometric function}
-
-\begin{equation}
-\gls{Phi} = 1 + \frac{\alpha}{\gamma}\,\frac{z}{1!}
-+ \frac{\alpha(\alpha+1)}{\gamma(\gamma+1)}\,\frac{z^2}{2!}
-+\frac{\alpha(\alpha+1)(\alpha+2)}{\gamma(\gamma+1)(\gamma+2)}\,
-\frac{z^3}{3!} + \cdots
-\end{equation}
-
-\begin{equation}
-\gls{knu} = \frac{2}{\pi}\int_0^{\pi/2}
-\cos(x \tan\theta - \nu\theta)\,d\theta
-\end{equation}
-
-\chapter{Parabolic cylinder functions}
-
-\begin{equation}
-\gls{Dp} = 2^{\frac{p}{2}}e^{-\frac{z^2}{4}}
-\left\{
-\frac{\surd\pi}{\Gamma\left(\frac{1-p}{2}\right)}
-\Phi\left(-\frac{p}{2},\frac{1}{2};\frac{z^2}{2}\right)
--\frac{\sqrt{2\pi}z}{\Gamma\left(-\frac{p}{2}\right)}
-\Phi\left(\frac{1-p}{2},\frac{3}{2};\frac{z^2}{2}\right)
-\right\}
-\end{equation}
-
-\chapter{Elliptical Integral of the First Kind}
-
-\begin{equation}
-\gls{F} = \int_0^\phi \frac{d\alpha}{\sqrt{1-k^2\sin^2\alpha}}
-\end{equation}
-
-\chapter{Constants}
-
-\begin{equation}
-\gls{C} = 0.577\,215\,664\,901\ldots
-\end{equation}
-
-\begin{equation}
-\gls{G} = 0.915\,965\,594\ldots
-\end{equation}
-
-\end{document}
-\endinput
-%%
-%% End of file `sampleEq.tex'.