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\documentclass{article}
%%% ====================================================================
%%% @LaTeX-file{
%%% filename = "symbols.tex",
%%% version = "2.00",
%%% date = "12 June 1992",
%%% time = "17:19:25 BST",
%%% author = "David Carlisle",
%%% address = "Computer Science Department
%%% Manchester University
%%% Oxford Road
%%% Manchester
%%% England
%%% M13 9PL",
%%% telephone = "+44 61 275 6139",
%%% FAX = "+44 61 275 6236",
%%% checksum = "15177 476 1350 17118",
%%% email = "carlisle@cs.man.ac.uk (Internet)",
%%% codetable = "ISO/ASCII",
%%% keywords = "LaTeX, NFSS, AMSFonts, symbols",
%%% supported = "yes",
%%% docstring = "
%%%
%%% symbols.tex
%%%
%%% A listing of all the standard LaTeX, and AMS symbols.
%%% and Math Alphabets.
%%%
%%% If used with NFSS, It requires amssymb.sty and AMSFonts.
%%% If used without NFSS, It does not show the AMS Fonts.
%%%
%%% The checksum field above was produced by
%%% Robert Solovay's checksum utility.",
%%% }
%%% ====================================================================
\ifx\selectfont\undefined
% Old Style LaTeX
\documentstyle{article}
\else
% NFSS-specific code
% You never noticed did you!
\count18=3 % Well I am not supposed to know what \count18 is
% used for, but if this wasn't here, you would have
% to use a format based on basefont.tex
\documentstyle[amssymb]{article}
% Cyrillic and Script are done like this to save on the bold math
% groups. Otherwise this document can only be processed by a format
% based on basefont.tex
% If you do not want these *and* all the AMS stuff, you can use
% euscript and dpccyr style options to get these fonts, but then you
% run out of math groups (you can only have 16) unless your latex is
% based on basefont.tex.
% If your format is based on fontdef.max, you do not need
% these \new@fontshape commands, but they will not do any harm.
\makeatletter
\new@fontshape{UWCyr}{m}{n}{%
<5>wncyr5%
<6>wncyr6%
<7>wncyr7%
<8>wncyr8%
<9>wncyr9%
<10>wncyr10%
<11>wncyr10 at10.95pt%
<12>wncyr10 at12pt%
<14>wncyr10 at14.4pt%
<17>wncyr10 at17.28pt%
<20>wncyr10 at20.74pt%
<25>wncyr10 at24.88pt}{}
\new@fontshape{eus}{m}{n}{%
<5>eusm5%
<6>eusm6%
<7>eusm7%
<8>eusm8%
<9>eusm9%
<10>eusm10%
<11>eusm10 at10.95pt%
<12>eusm10 at12pt%
<14>eusm10 at14.4pt%
<17>eusm10 at17.28pt%
<20>eusm10 at20.74pt%
<25>eusm10 at24.88pt}{}
\makeatother
\newmathalphabet{\mathcyr}
\addtoversion{normal}{\mathcyr}{UWCyr}{m}{n}
\newmathalphabet{\EuScript}
\addtoversion{normal}{\EuScript}{eus}{m}{n}
% A few symbols omitted from amssymb.sty
\newsymbol\Finv 2060
\newsymbol\Game 2061
\newsymbol\Bbbk 207C
\newsymbol\diagup 231E
\newsymbol\diagdown 231F
\newsymbol\nsucceqq 230F
%
\fi
% end of NFSS-specific code
% Math-mode symbol & verbatim
\def\W#1#2{$#1{#2}$ &\tt\string#1\string{#2\string}}
\def\X#1{$#1$ &\tt\string#1}
\def\Y#1{$\big#1$ &\tt\string#1}
\def\Z#1{\tt\string#1}
% A non-floating table environment.
\makeatletter
\renewenvironment{table}%
{\vskip\intextsep\parskip\z@
\vbox\bgroup\centering\def\@captype{table}}%
{\egroup\vskip\intextsep}
\makeatother
% All the tables are \label'ed in case this document ever gets some
% explanatory text written, however there are no \refs as yet. To save
% LaTeX-ing the file twice we go:
\renewcommand{\label}[1]{}
% A4 page setup
\topmargin -45pt
\textwidth=532pt
\oddsidemargin=-40pt \evensidemargin\oddsidemargin
\textheight 682pt
\begin{document}
\begin{table}
\begin{tabular}{*8l}
\X\alpha &\X\theta &\X o &\X\tau \\
\X\beta &\X\vartheta &\X\pi &\X\upsilon \\
\X\gamma &\X\gamma &\X\varpi &\X\phi \\
\X\delta &\X\kappa &\X\rho &\X\varphi \\
\X\epsilon &\X\lambda &\X\varrho &\X\chi \\
\X\varepsilon &\X\mu &\X\sigma &\X\psi \\
\X\zeta &\X\nu &\X\varsigma &\X\omega \\
\X\eta &\X\xi \\
\\
\X\Gamma &\X\Lambda &\X\Sigma &\X\Psi \\
\X\Delta &\X\Xi &\X\Upsilon &\X\Omega \\
\X\Theta &\X\Pi &\X\Phi
\end{tabular}
\caption{Greek Letters}\label{greek}
\end{table}
\begin{table}
\begin{tabular}{*8l}
\X\pm &\X\cap &\X\diamond &\X\oplus \\
\X\mp &\X\cup &\X\bigtriangleup &\X\ominus \\
\X\times &\X\uplus &\X\bigtriangledown &\X\otimes \\
\X\div &\X\sqcap &\X\triangleleft &\X\oslash \\
\X\ast &\X\sqcup &\X\triangleright &\X\odot \\
\X\star &\X\vee &\X\lhd$^b$ &\X\bigcirc \\
\X\circ &\X\wedge &\X\rhd$^b$ &\X\dagger \\
\X\bullet &\X\setminus &\X\unlhd$^b$ &\X\ddagger \\
\X\cdot &\X\wr &\X\unrhd$^b$ &\X\amalg \\
\X+ &\X-
\end{tabular}
$^b$ Not predefined in a format based on {\tt basefont.tex}.
Use one of the style options\\
{\tt oldlfont}, {\tt newlfont}, {\tt amsfonts} or {\tt amssymb}.
\caption{Binary Operation Symbols}\label{bin}
\end{table}
\begin{table}
\begin{tabular}{*8l}
\X\leq &\X\geq &\X\equiv &\X\models \\
\X\prec &\X\succ &\X\sim &\X\perp \\
\X\preceq &\X\succeq &\X\simeq &\X\mid \\
\X\ll &\X\gg &\X\asymp &\X\parallel \\
\X\subset &\X\supset &\X\approx &\X\bowtie \\
\X\subseteq &\X\supseteq &\X\cong &\X\Join$^b$ \\
\X\sqsubset$^b$ &\X\sqsupset$^b$&\X\neq &\X\smile \\
\X\sqsubseteq &\X\sqsupseteq &\X\doteq &\X\frown \\
\X\in &\X\ni &\X\propto &\X= \\
\X\vdash &\X\dashv &\X< &\X> \\
\X:
\end{tabular}
$^b$ Not predefined in a format based on {\tt basefont.tex}.
Use one of the style options\\
{\tt oldlfont}, {\tt newlfont}, {\tt amsfonts} or {\tt amssymb}.
\caption{Relation Symbols}\label{rel}
\end{table}
\begin{table}
\begin{tabular}{*{5}{lp{3.2em}}}
\X, &\X; &\X\colon &\X\ldotp &\X\cdotp
\end{tabular}
\caption{Punctuation Symbols}\label{punct}
\end{table}
\begin{table}
\begin{tabular}{*6l}
\X\leftarrow &\X\longleftarrow &\X\uparrow \\
\X\Leftarrow &\X\Longleftarrow &\X\Uparrow \\
\X\rightarrow &\X\longrightarrow &\X\downarrow \\
\X\Rightarrow &\X\Longrightarrow &\X\Downarrow \\
\X\leftrightarrow &\X\longleftrightarrow &\X\updownarrow \\
\X\Leftrightarrow &\X\Longleftrightarrow &\X\Updownarrow \\
\X\mapsto &\X\longmapsto &\X\nearrow \\
\X\hookleftarrow &\X\hookrightarrow &\X\searrow \\
\X\leftharpoonup &\X\rightharpoonup &\X\swarrow \\
\X\leftharpoondown &\X\rightharpoondown &\X\nwarrow \\
\X\rightleftharpoons &\X\leadsto$^b$
\end{tabular}
$^b$ Not predefined in a format based on {\tt basefont.tex}.
Use one of the style options\\
{\tt oldlfont}, {\tt newlfont}, {\tt amsfonts} or {\tt amssymb}.
\caption{Arrow Symbols}
\end{table}
\begin{table}
\begin{tabular}{*8l}
\X\ldots &\X\cdots &\X\vdots &\X\ddots \\
\X\aleph &\X\prime &\X\forall &\X\infty \\
\X\hbar &\X\emptyset &\X\exists &\X\Box$^b$ \\
\X\imath &\X\nabla &\X\neg &\X\Diamond$^b$ \\
\X\jmath &\X\surd &\X\flat &\X\triangle \\
\X\ell &\X\top &\X\natural &\X\clubsuit \\
\X\wp &\X\bot &\X\sharp &\X\diamondsuit \\
\X\Re &\X\| &\X\backslash &\X\heartsuit \\
\X\Im &\X\angle &\X\partial &\X\spadesuit \\
\X\mho$^b$ &\X. &\X|
\end{tabular}
$^b$ Not predefined in a format based on {\tt basefont.tex}.
Use one of the style options\\
{\tt oldlfont}, {\tt newlfont}, {\tt amsfonts} or {\tt amssymb}.
\caption{Miscellaneous Symbols}\label{ord}
\end{table}
\begin{table}
\begin{tabular}{*6l}
\X\sum &\X\bigcap &\X\bigodot \\
\X\prod &\X\bigcup &\X\bigotimes \\
\X\coprod &\X\bigsqcup &\X\bigoplus \\
\X\int &\X\bigvee &\X\biguplus \\
\X\oint &\X\bigwedge
\end{tabular}
\caption{Variable-sized Symbols}\label{op}
\end{table}
\begin{table}
\begin{tabular}{*8l}
\Z\arccos &\Z\cos &\Z\csc &\Z\exp &
\Z\ker &\Z\limsup &\Z\min &\Z\sinh \\
\Z\arcsin &\Z\cosh &\Z\deg &\Z\gcd &
\Z\lg &\Z\ln &\Z\Pr &\Z\sup \\
\Z\arctan &\Z\cot &\Z\det &\Z\hom &
\Z\lim &\Z\log &\Z\sec &\Z\tan \\
\Z\arg &\Z\coth &\Z\dim &\Z\inf &
\Z\liminf &\Z\max &\Z\sin &\Z\tanh
\end{tabular}
\caption{Log-like Symbols}\label{log}
\end{table}
\begin{table}
\begin{tabular}{*8l}
\X( &\X) &\X\uparrow &\X\Uparrow \\
\X[ &\X] &\X\downarrow &\X\Downarrow \\
\X\{ &\X\} &\X\updownarrow &\X\Updownarrow \\
\X\lfloor &\X\rfloor &\X\lceil &\X\rceil \\
\X\langle &\X\rangle &\X/ &\X\backslash \\
\X| &\X\|
\end{tabular}
\caption{Delimiters\label{dels}}
\end{table}
\begin{table}
\begin{tabular}{*8l}
\Y\rmoustache& \Y\lmoustache& \Y\rgroup& \Y\lgroup\\[5pt]
\Y\arrowvert& \Y\Arrowvert& \Y\bracevert
\end{tabular}
\caption{Large Delimiters\label{ldels}}
\end{table}
\begin{table}
\begin{tabular}{*{10}l}
\W\hat{a} &\W\acute{a} &\W\bar{a} &\W\dot{a} &\W\breve{a}\\
\W\check{a} &\W\grave{a} &\W\vec{a} &\W\ddot{a} &\W\tilde{a}\\
\end{tabular}
\caption{Math mode accents}\label{accent}
\end{table}
\begin{table}
\begin{tabular}{*4l}
\W\widetilde{abc} &\W\widehat{abc} \\
\W\overleftarrow{abc} &\W\overrightarrow{abc} \\
\W\overline{abc} &\W\underline{abc} \\
\W\overbrace{abc} &\W\underbrace{abc} \\[5pt]
\W\sqrt{abc} &$\sqrt[n]{abc}$&\verb|\sqrt[n]{abc}| \\
$f'$&\verb|f'| &$\frac{abc}{xyz}$&\verb|\frac{abc}{xyz}|
\end{tabular}
\caption{Some other constructions}\label{other}
\end{table}
\ifx\selectfont\undefined\expandafter\stop\fi
\begin{table}
\begin{tabular}{*8l}
\X\ulcorner&\X\urcorner&\X\llcorner&\X\lrcorner
\end{tabular}
\caption{AMS Delimiters\label{ams-del}}
\end{table}
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
\begin{table}
\begin{tabular}{*8l}
\X\dashrightarrow &\X\dashleftarrow
&\X\leftleftarrows &\X\leftrightarrows \\
\X\Lleftarrow &\X\twoheadleftarrow
&\X\leftarrowtail &\X\looparrowleft \\
\X\leftrightharpoons &\X\curvearrowleft
&\X\circlearrowleft &\X\Lsh \\
\X\upuparrows &\X\upharpoonleft
&\X\downharpoonleft &\X\multimap \\
\X\leftrightsquigarrow &\X\rightrightarrows
&\X\rightleftarrows &\X\rightrightarrows \\
\X\rightleftarrows &\X\twoheadrightarrow
&\X\rightarrowtail &\X\looparrowright \\
\X\rightleftharpoons &\X\curvearrowright
&\X\circlearrowright &\X\Rsh \\
\X\downdownarrows &\X\upharpoonright
&\X\downharpoonright &\X\rightsquigarrow
\end{tabular}
\caption{AMS Arrows\label{ams-arrows}}
\end{table}
\begin{table}
\begin{tabular}{*8l}
\X\nleftarrow &\X\nrightarrow &\X\nLeftarrow &\X\nRightarrow \\
\X\nleftrightarrow&\X\nLeftrightarrow
\end{tabular}
\caption{AMS Negated Arrows\label{ams-narrows}}
\end{table}
\begin{table}
\begin{tabular}{*4l}
\X\digamma &\X\varkappa
\end{tabular}
\caption{AMS Greek\label{ams-greek}}
\end{table}
\begin{table}
\begin{tabular}{*6l}
\X\beth &\X\daleth &\X\gimel
\end{tabular}
\caption{AMS Hebrew\label{ams-hebrew}}
\end{table}
\begin{table}
\begin{tabular}{*8l}
\X\hbar &\X\hslash &\X\vartriangle &\X\triangledown \\
\X\square &\X\lozenge &\X\circledS &\X\angle \\
\X\measuredangle&\X\nexists &\X\mho &\X\Finv$^u$ \\
\X\Game$^u$ &\X\Bbbk$^u$ &\X\backprime &\X\varnothing \\
\X\blacktriangle&\X\blacktriangledown&\X\blacksquare&\X\blacklozenge \\
\X\bigstar &\X\sphericalangle &\X\complement &\X\eth \\
\X\diagup$^u$ &\X\diagdown$^u$
\end{tabular}
$^u$ Not defined in {\tt amssymb.sty}, define using the
\verb|\newsymbol| command.
\caption{AMS Miscellaneous\label{ams-misc}}
\end{table}
%
\begin{table}
\begin{tabular}{*8l}
\X\dotplus &\X\smallsetminus&\X\Cap &\X\Cup \\
\X\barwedge &\X\veebar &\X\doublebarwedge&\X\boxminus \\
\X\boxtimes &\X\boxdot &\X\boxplus &\X\divideontimes \\
\X\ltimes &\X\rtimes &\X\leftthreetimes&\X\rightthreetimes \\
\X\curlywedge &\X\curlyvee &\X\circleddash &\X\circledast \\
\X\circledcirc &\X\centerdot &\X\intercal
\end{tabular}
\caption{AMS Binary Operators\label{ams-bin}}
\end{table}
\begin{table}
\begin{tabular}{*8l}
\X\leqq &\X\leqslant &\X\eqslantless &\X\lesssim \\
\X\lessapprox &\X\approxeq &\X\lessdot &\X\lll \\
\X\lessgtr &\X\lesseqgtr &\X\lesseqqgtr &\X\doteqdot \\
\X\risingdotseq &\X\fallingdotseq&\X\backsim &\X\backsimeq \\
\X\subseteqq &\X\Subset &\X\sqsubset &\X\preccurlyeq\\
\X\curlyeqprec &\X\precsim &\X\precapprox &\X\vartriangleleft\\
\X\trianglelefteq&\X\vDash &\X\Vvdash &\X\smallsmile \\
\X\smallfrown &\X\bumpeq &\X\Bumpeq &\X\geqq \\
\X\geqslant &\X\eqslantgtr &\X\gtrsim &\X\gtrapprox \\
\X\gtrdot &\X\ggg &\X\gtrless &\X\gtreqless \\
\X\gtreqqless &\X\eqcirc &\X\circeq &\X\triangleq \\
\X\thicksim &\X\thickapprox &\X\supseteqq &\X\Supset \\
\X\sqsupset &\X\succcurlyeq &\X\curlyeqsucc &\X\succsim \\
\X\succapprox &\X\vartriangleright&\X\trianglerighteq&\X\Vdash \\
\X\shortmid &\X\shortparallel&\X\between &\X\pitchfork \\
\X\varpropto &\X\blacktriangleleft&\X\therefore &\X\backepsilon\\
\X\blacktriangleright&\X\because
\end{tabular}
\caption{AMS Binary Relations\label{ams-rel}}
\end{table}
%
\begin{table}
\begin{tabular}{*8l}
\X\nless &\X\nleq &\X\nleqslant &\X\nleqq \\
\X\lneq &\X\lneqq &\X\lvertneqq &\X\lnsim \\
\X\lnapprox &\X\nprec &\X\npreceq &\X\precnsim \\
\X\precnapprox &\X\nsim &\X\nshortmid &\X\nmid \\
\X\nvdash &\X\nvDash &\X\ntriangleleft&\X\ntrianglelefteq\\
\X\nsubseteq &\X\subsetneq &\X\varsubsetneq&\X\subsetneqq \\
\X\varsubsetneqq&\X\ngtr &\X\ngeq &\X\ngeqslant \\
\X\ngeqq &\X\gneq &\X\gneqq &\X\gvertneqq \\
\X\gnsim &\X\gnapprox &\X\nsucc &\X\nsucceq \\
\X\nsucceqq$^u$ &\X\succnsim &\X\succnapprox &\X\ncong \\
\X\nshortparallel&\X\nparallel &\X\nvDash &\X\nVDash \\
\X\ntriangleright&\X\ntrianglerighteq&\X\nsupseteq&\X\nsupseteqq\\
\X\supsetneq &\X\varsupsetneq&\X\supsetneqq &\X\varsupsetneqq
\end{tabular}
$^u$ Not defined in {\tt amssymb.sty}, define using the
\verb|\newsymbol| command.
\caption{AMS Negated Binary Relations\label{ams-nrel}}
\end{table}
%
\begin{table}
\begin{tabular}{*4l}
&\tt newlfont/margid&\tt oldlfont/nomargid&Requried style option\\
\hline
$\mathrm{ABCdef}$
&\verb|\mathrm{ABCdef}| &\verb|{\mathrm ABCdef}|
& \\
$\cal{ABC}$
&\verb|\cal{ABC}| &\verb|{\cal ABC}|
& \\
$\EuScript{ABC}$
&\verb|\EuScript{ABC}| &\verb|{\EuScript ABCdef}|
&{\tt euscript} \\
$\frak{ABCdef}$
&\verb|\frak{ABCdef}| &\verb|{\frak ABCdef}|
&{\tt amsfonts} or {\tt amssymb} \\
$\Bbb{ABC}$
&\verb|\Bbb{ABC}| &\verb|{\Bbb ABC}|
&{\tt amsfonts} or {\tt amssymb} \\
$\mathcyr{ABCdef}$
&\verb|\mathcyr{ABCdef}| &\verb|{\mathcyr ABCdef}|
&{\tt cyrillic}
\end{tabular}
\caption{Math Alphabets\label{alphabets}}
\end{table}
\end{document}
