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authorKarl Berry <karl@freefriends.org>2010-03-02 01:11:14 +0000
committerKarl Berry <karl@freefriends.org>2010-03-02 01:11:14 +0000
commitdc9b6d4a82e9927c3ea409bbf5c1e7e238e15684 (patch)
treee548138e5819829840e78340c34bcb4c9ed39f3e /Master/texmf-dist/tex
parentb90cb048d54013a5a88eeda85857a091fd5ba76f (diff)
rm formula, requires scripts to work, very old
git-svn-id: svn://tug.org/texlive/trunk@17277 c570f23f-e606-0410-a88d-b1316a301751
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-rw-r--r--Master/texmf-dist/tex/latex/formula/formula.sty372
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-%%
-%% This is file `formula.sty',
-%% generated with the docstrip utility.
-%%
-%% The original source files were:
-%%
-%% formula.dtx (with options: `formula')
-%%
-%% Copyleft 1997 Andreas Tille
-%%
-%% Usage without any waranty
-%%
-
-\csname @ifundefined\endcsname{formuladef}{}{\endinput}
-\NeedsTeXFormat{LaTeX2e}[1997/12/01]
-\ProvidesPackage{formula}
-\RequirePackage{amsfonts}
-\RequirePackage{amstext}
-\RequirePackage{textcomp}[1998/03/05 v1.9n]
-\RequirePackage{xspace}
-\def\formuladef#1 #2 #3 #4{%
- \globaldefs=1%
- \expandafter\newcommand\expandafter{\csname#1\endcsname}
- {\relax\ensuremath{#2}\xspace}%
- \expandafter\newcommand\expandafter{\csname#1doc\endcsname}
- {\csname#1\endcsname & #3\\}%
- \expandafter\newcommand\expandafter{\csname#1art\endcsname}
- {#4\xspace}% der Artikel
- \expandafter\newcommand\expandafter{\csname#1txt\endcsname}
- {#3\xspace}% der beschreibende Text
- \expandafter\newcommand\expandafter{\csname#1my\endcsname}
- {{\tt\char92#1} & \csname#1doc\endcsname}
- \globaldefs=0}%
-\def\formulaarg#1 #2 #3 #4 #5{%
- \globaldefs=1%
- \expandafter\newcommand\expandafter{\csname#1\endcsname}[1]%
- {\relax\ensuremath{#2{##1}}\xspace}%
- \expandafter\newcommand\expandafter{\csname#1doc\endcsname}%
- {\csname#1\endcsname{#5} & #3\\}%
- \expandafter\newcommand\expandafter{\csname#1art\endcsname}%
- {#4}% der Artikel
- \expandafter\newcommand\expandafter{\csname#1txt\endcsname}%
- {#3}% der beschreibende Text
- \expandafter\newcommand\expandafter{\csname#1my\endcsname}%
- {{\tt\char92#1\{}{\em #5}{\tt \}} & \csname#1doc\endcsname}
- \globaldefs=0}%
-\def\formulamit#1 #2 #3 #4 #5 #6{%
- \globaldefs=1%
- \expandafter\newcommand\expandafter{\csname#1\endcsname}[1]%
- {\relax\ensuremath{#2{##1}#3}\xspace}%
- \expandafter\newcommand\expandafter{\csname#1doc\endcsname}
- {\csname#1\endcsname{#6} & #4\\}%
- \expandafter\newcommand\expandafter{\csname#1art\endcsname}
- {#5}% der Artikel
- \expandafter\newcommand\expandafter{\csname#1txt\endcsname}
- {#4}% der beschreibende Text
- \expandafter\newcommand\expandafter{\csname#1my\endcsname}%
- {{\tt\char92#1\{}{\em #6}{\tt \}} & \csname#1doc\endcsname}
- \globaldefs=0}%
-\def\formuladiff#1 #2 #3 #4 #5 #6{%
- \globaldefs=1%
- \expandafter\newcommand\expandafter{\csname#1\endcsname}[1]%
- {\relax\ensuremath{\frac{#2^{##1}#3}{#2#4^{##1}}}\xspace}%
- \expandafter\newcommand\expandafter{\csname#1doc\endcsname}%
- {\csname#1\endcsname{n} & #5\\}%
- \expandafter\newcommand\expandafter{\csname#1art\endcsname}%
- {#6}% der Artikel
- \expandafter\newcommand\expandafter{\csname#1txt\endcsname}%
- {#5}% der beschreibende Text
- \expandafter\newcommand\expandafter{\csname#1my\endcsname}%
- {{\tt\char92#1\{}{\em n}{\tt \}} & \csname#1doc\endcsname}
- \globaldefs=0}%
-\newcommand{\eorg}[2]{%
- \expandafter\ifx\csname l@german\endcsname\relax #1%
- \else \ifnum\csname l@german\endcsname=\language #2%
- \else #1\fi\fi}
-\newif\ifpredefinition
-\predefinitiontrue
-\newcommand{\NoPreDefinition}{\predefinitionfalse}
-\DeclareOption{nopredefinition}{\NoPreDefinition}
-\ProcessOptions
-\ifpredefinition
-\formuladef MA {\text{\bf A}}
- {\eorg{m}{M}atrix A} {\eorg{the}{die}}
-\formuladef Cmess {\text{C}_m}
- {\eorg{linear capacitor for measurement}
- {linearer Me\ss{}kondensator}} {}
-\formuladef Cnl {C_{nl}}
- {\eorg{nonlinear capacity of the sample}
- {nichtlineare Kapazit\"at der Probe}} {\eorg{the}{die}}
-\formulaarg Cr {\mathbb{C}^}
- {\eorg{set of r times continuous differentiable functions}
- {Menge der r-mal stetig differenzierbaren Funktionen}}
- {} {r}
-\formuladef dPR {d}
- {\eorg{d}{D}imension \eorg{of phase space}{des Phasenraums}} {die}
-\formuladef DV {D}
- {dielektrische Verschiebung} {die}
-\formuladef Det {\text{det}}
- {Determinante einer Matrix} {die}
-\formuladef Dx {\text{\bf D}_x}
- {Jakobimatrix} {die}
-\formuladef EF {E}
- {elektrische Feldst\"arke} {die}
-\formuladef EC {E_C}
- {Koerzitivfeldst\"arke} {die}
-\formuladef ECnl {E_{\Cnl}}
- {elektrische Feldst\"arke \"uber der Probe} {die}
-\formuladef dynSys {\vec{f}(\vec{x},\vp)}
- {beliebiges dynamisches System} {ein}
-\formulamit Effi {f_} {(\cdot,\cdot)}
- {} {} {i}
-\formuladef falles {\Effi{1}, \Effi{2}, \cdots}
- {Komponenten des beliebigen dynamischen Systems} {}
-\formuladef F {\text{F}}
- {Probenfl\"ache} {die}
-\formuladef Fouri {\mathcal{F}}
- {Fouriertransformation} {die}
-\formuladef Fourin {\text{F}_{i,n}}
- {$n$-te Fourierkomponente von \Effi{i}} {die}
-\formuladef FOp {\Fouri_{n}}
- {Operator f\"ur die $n$-te Fourierkomponente} {der}
-\formuladef FB {\text{f}}
- {Brennweite} {die}
-\formuladef freq {f}
- {Frequenz} {die}
-\formuladef vf {\vec{f}}
- {Vektorfeld} {ein}
-\formuladef fa {\freq_a}
- {Abtastfrequenz} {die}
-\formuladef fgrund {\freq_{ext}}
- {Anregungsfrequenz der Schwingung} {die}
-\formuladef fstrob {\freq_s}
- {Blitzfrequenz des Stroboskops} {die}
-\formuladef fvirt {\freq_v}
- {virtuelle Frequenz} {die}
-\formuladef vfO {\vf(\vO)}
- {Vektorfeld f im Ursprung} {}
-\formuladef FE {G}
- {freie Enthalpie} {die}
-\formuladef FEO {\FE_0}
- {temperaturunabh\"angiger Anteil der freien Energie} {}
-\formuladef h {\text{h}}
- {Probendicke} {die}
-\formuladef Hrel {H_r}
- {relative Helligkeit eines Videobildes} {die}
-\formuladef IH {I}
- {elektrische Stromst\"arke} {die}
-\formuladef Itot {\IH_{tot}}
- {Gesamtstromst\"arke} {die}
-\formuladef ICnl {\IH_{\Cnl}}
- {Strom durch die nichtlineare Kapazit\"at} {der}
-\formuladef IRp {\IH_{\Rp}}
- {Strom durch den Parallelverlustwiderstand \Rp} {der}
-\formuladef je {j}
- {Stromdichte} {die}
-\formuladef Lx {\text{L}}
- {Induktivit\"at der linearen Spule} {die}
-\formuladef vO {\vec{o}}
- {Nullvektor} {der}
-\formuladef Par {p}
- {} {}
-\formuladef vp {\vec{\Par}}
- {Modellparameter} {die}
-\formulaarg Para {\Par_}
- {} {} {i}
-\formuladef Parai {\Para{1}, \Para{2}, \cdots}
- {Komponenten der Modellparameter} {die}
-\formuladef Pol {P}
- {Polarisation} {die}
-\formuladef Poinc {\mathfrak{P}}
- {Poincar\'e-Ebene} {die}
-\formuladef Pols {\Pol_s}
- {spontane Polarisation} {die}
-\formuladef Lad {Q}
- {elektrische Ladung} {die}
-\formuladef Rz {\mathbb{R}}
- {reeller Raum} {}
-\formuladef Rx {\text{R}}
- {Widerstand} {}
-\formuladef RCnl {\Rx_{\Cnl}}
- {linearer Widerstand in der Ersatzschaltung der Probe} {}
-\formuladef RL {\Rx_{\Lx}}
- {Verlustwiderstand der Spule} {der}
-\formuladef Rlin {\Rx_{lin}}
- {linearer Verlustwiderstand; \Rlin = \RL + \Rmess} {}
-\formuladef Rmess {\Rx_m}
- {linearer Me\ss{}widerstand} {}
-\formulaarg Rn {\Rz^}
- {n-dimensionaler reeller Raum} {} {n}
-\formuladef Rp {\Rx_p}
- {Parallelverlustwiderstand der nichtlinearen Kapazit\"at} {der}
-\formuladef Rs {\Rx_s}
- {Serienverlustwiderstand der nichtlinearen Kapazit\"at} {der}
-\formuladef Spur {\text{Spur}}
- {Spur einer Matrix} {die}
-\formuladef tx {t}
- {Zeit} {die}
-\formuladef T {T}
- {Periodendauer} {die}
-\formuladef Te {\text{T}}
- {Temperatur} {die}
-\formuladef ta {\tx_a}
- {Abtastzeit} {die}
-\formuladef te {\tx_e}
- {Delay-Zeit} {die}
-\formuladef Tgrund {\T_0}
- {Periodendauer der Anregung} {die}
-\formuladef TC {\Te_C}
- {absolute Curie-Temperatur} {die}
-\formuladef TCrit {\Te_{crit}}
- {kritische absolute Temperatur} {die}
-\formuladef Ux {U}
- {Spannung} {die}
-\formuladef Umg {\mathbb{U}}
- {Umgebung} {}
-\formuladef Ueff {\Ux_{ef\kern-1pt{f}}}
- {Effektivwert der Anregungsspannung} {der}
-\formuladef Uext {\Ux_{ext}}
- {externe Spannung} {die}
-\formuladef UCnl {\Ux_{\Cnl}}
- {Spannung \"uber \Cnl} {die}
-\formuladef URL {\Ux_{\RL}}
- {Spannung \"uber \RL} {die}
-\formuladef URs {\Ux_{\Rs}}
- {Spannung \"uber \Rs} {die}
-\formuladef Vnl {V_{nl}}
- {nichtlineares Potential} {}
-\formuladef x {x}
- {beliebige skalare physikalische Gr\"o\ss{}e} {}
-\formuladef dxdt {\dot x}
- {Ableitung von x nach der Zeit} {}
-\formuladef vx {\vec{x}}
- {beliebige vektorielle physikalische Gr\"o\ss{}e} {}
-\formuladef vX {\vec{X}}
- {Fouriertransformierte der vektoriellen Gr\"o\ss{}e \vx} {}
-\formuladef xO {x_0}
- {} {}
-\formuladef vxO {\vec{\xO}}
- {} {}
-\formulaarg PotK {\alpha_}
- {} {} {i}
-\formuladef PotKo {\PotK{2}, \PotK{4}}
- {Koeffizienten des nichtlinearen Potentials \Vnl} {die}
-\formulaarg LanK {\tilde{\alpha}_}
- {} {} {i}
-\formuladef LanKo {\LanK{1}, \LanK{2}, \cdots}
- {Entwicklungskoeffizienten der Landau-Entwicklung} {die}
-\formuladef Feige {\delta}
- {Feigenbaum-Konstante} {die}
-\formuladef Abli {\partial_i}
- {Ableitungsoperator nach der $i$-ten Koordinate} {der}
-\formuladef eps {\varepsilon}
- {Dielektrizit\"atskonstante} {die}
-\formuladef epsO {\eps_0}
- {Influenzkonstante $\epsO = 8.84\cdot 10^{-12}\AsVm$} {die}
-\formuladef epsr {\eps_r}
- {relative Dielektrizit\"atskonstante} {die}
-\formuladef OP {\eta}
- {Ordnungsparameter} {der}
-\formuladef Ev {\eta}
- {mit Index: Komponente des Eigenvektors} {der}
-\formuladef vEv {\vec{\Ev}}
- {Eigenvektor} {der}
-\formuladef GOP {\OP^{*}}
- {Gleichgewichtswert des Ordnungsparameters} {der}
-\formuladef Ewl {\lambda}
- {Eigenwert} {der}
-\formuladef phistrob {\varphi_s}
- {Phasenwinkel des Stroboskops} {der}
-\formuladef TGrdC {\vartheta}
- {Temperatur in Celsius} {die}
-\formuladef ThC {\TGrdC_C}
- {Curie-Temperatur} {die}
-\formuladef ThCrit {\TGrdC_{crit}}
- {kritische Temperatur} {die}
-\formuladef oC {\omega}
- {Kreisfrequenz $\oC = 2\pi\freq$} {die}
-\formuladef oO {\oC_0}
- {Grundfrequenz} {die}
-\formuladef siehe {\rightarrow}
- {siehe} {}
-\formuladef drf {\Rightarrow}
- {daraus folgt} {}
-\fi% end of predefinition
-\def\formulaunit#1 #2 #3 #4 #5{%
- \globaldefs=1%
- \expandafter\newcommand\expandafter{\csname#1\endcsname}%
- {\relax\ensuremath{\text{\,#2}#3\text{#4}}\xspace}%
- \expandafter\newcommand\expandafter{\csname#1doc\endcsname}
- {{\em x}\csname#1\endcsname & #5\\}%
- \expandafter\newcommand\expandafter{\csname#1txt\endcsname}
- {#5}% description of units in words
- \expandafter\newcommand\expandafter{\csname#1my\endcsname}%
- {{\em x\tt\char92#1} & \csname#1doc\endcsname}
- \globaldefs=0}%
-\ifpredefinition
-\formulaunit mn {} {} min {\eorg{minute}{Minute}}
-\formulaunit sek {} {} s {\eorg{second}{Sekunde}}
-\formulaunit msek {m} {} s {Millisekunde}
-\formulaunit musek {} {\text{\textmu}} s {Mikrosekunde}
-\formulaunit m {} {} m {Meter}
-\formulaunit cm {c} {} m {Zentimeter}
-\formulaunit mm {m} {} m {Millimeter}
-\formulaunit mum {} {\text{\textmu}} m {Mikrometer}
-\formulaunit nm {n} {} m {Nanometer}
-\formulaunit li {} {} l {Liter}
-\formulaunit ml {m} {} l {Milliliter}
-\formulaunit g {} {} g {Gramm}
-\formulaunit kg {k} {} g {Kilogramm}
-\formulaunit Hz {} {} Hz {Hertz}
-\formulaunit kHz {k} {} Hz {Kilohertz}
-\formulaunit MHz {M} {} Hz {Megahertz}
-\formulaunit MV {M} {} V {Megavolt}
-\formulaunit kV {k} {} V {Kilovolt}
-\formulaunit Vo {} {} V {Volt}
-\formulaunit mV {m} {} V {Millivolt}
-\formulaunit Ohm {} {\text{\textohm}} {} {Ohm}
-\formulaunit kOhm {k} {\text{\textohm}} {} {Kiloohm}
-\formulaunit MOhm {M} {\text{\textohm}} {} {Megaohm}
-\formulaunit muF {} {\text{\textmu}} F {Mikrofarad}
-\formulaunit nF {n} {} F {Nanofarad}
-\formulaunit pF {p} {} F {Picofarad}
-\formulaunit He {} {} H {Henry}
-\formulaunit mH {m} {} H {Millihenry}
-\formulaunit K {} {} K {Kelvin}
-\formulaunit grd {} {\text{\textdegree}} {} {Grad}
-\formulaunit grdC {} {\text{\textcelsius}} {} {Grad Celsius}
-\formulaunit J {} {} {J} {Joule}
-\formulaunit muJ {} {\text{\textmu}} {J} {Mikrojoule}
-\formulaunit mW {m} {} {W} {Milliwatt}
-\formulaunit W {} {} {W} {Watt}
-\formulaunit Bit {} {} Bit {Bit}
-\formulaunit Byte {} {} HByte {Byte}
-\formulaunit kByte {k} {} Byte {Kilobyte}
-\formulaunit MByte {M} {} Byte {Megabyte}
-\formulaunit Bilderprosek {} {} {\eorg{images}{Bilder}/s} {\eorg{Bilder pro Sekunde}{images per second}}
-\formulaunit Bilder {} {} {\eorg{images}{Bilder}} {\eorg{images}{Bilder}}
-\formulaunit dpi {} {} {dpi} {\eorg{dots per inch}{Punkte pro Zoll}}
-\formulaunit Prozent {} {} {\%} {\eorg{per cent}{Prozent}}
-\formulaunit Upromin {} {} {U/min} {Umdrehungen pro Minute}
-\formulaunit AsVm {} {} {\ensuremath{\frac{\text{As}}{\text{Vm}}}}
- {Amperesekunden pro Voltmeter}
-\formulaunit DM {} {} {DM} {DM}
-\formulaunit TDM {T} {} {DM} {tausend DM}
-\fi% end predefinition
-\newcommand{\Odif}[2]{\frac{\partial #1}{\partial #2}}
-\newcommand{\odif}[2]{\relax\ensuremath{\Odif{#1}{#2}}}
-\newcommand{\Pdif}[2]{\left( \odif{#1}{#2} \right)}
-\newcommand{\pdif}[2]{\relax\ensuremath{\Pdif{#1}{#2}}}
-\newcommand{\OSdif}[2]{\frac{\partial^2 #1}{\partial #2^2}}
-\newcommand{\osdif}[2]{\relax\ensuremath{\OSdif{#1}{#2}}}
-\newcommand{\OOdif}[3]{\frac{\partial^2 #1}{\partial #2 \partial #3}}
-\newcommand{\oodif}[3]{\relax\ensuremath{\OOdif{#1}{#2}{#3}}}
-\newcommand{\PPdif}[3]{\left( \oodif{#1}{#2}{#3} \right)}
-\newcommand{\ppdif}[3]{\relax\ensuremath{\PPdif{#1}{#2}{#3}}}
-\newcommand{\OOOdif}[4]{\frac{\partial^3 #1}{\partial #2 \partial #3 \partial #4}}
-\newcommand{\ooodif}[4]{\relax\ensuremath{\OOOdif{#1}{#2}{#3}{#4}}}
-\newcommand{\PPPdif}[4]{\left( \ooodif{#1}{#2}{#3}{#4} \right)}
-\newcommand{\pppdif}[4]{\relax\ensuremath{\PPPdif{#1}{#2}{#3}{#4}}}
-\newcommand{\OOSdif}[3]{\frac{\partial^3 #1}{\partial #2^2\partial #3}}
-\newcommand{\oosdif}[3]{\relax\ensuremath{\OOSdif{#1}{#2}{#3}}}
-\newcommand{\beq}{\begin{equation}}
-\newcommand{\eeq}{\end{equation}}
-\newcommand{\bea}{\begin{eqnarray}}
-\newcommand{\eea}{\end{eqnarray}}
-\def\be*{\begin{eqnarray*}}
-\def\ee*{\end{eqnarray*}}
-\def\buildrul#1\over #2{\mathrel {\mathop {#1}\limits_{#2}}}
-\endinput
-%%
-%% End of file `formula.sty'.