%
% \iffalse
%
% The first part is a comment to the reader(s) of `chemsym.dtx'.
%
% chemsym.dtx Version 2.0a, June 24, 1998
% (c) 1995-98 by Mats Dahlgren (matsd@sssk.se)
%
% Please see the information in file `chemsym.ins' on how you
% may use and (re-)distribute this file. Run LaTeX on the file
% `chemsym.ins' to get a .sty-file and instructions.
%
% This file may NOT be distributed if not accompanied by 'chemsym.ins'.
%
%<*driver>
\documentclass[a4paper]{ltxdoc}
\usepackage{chemsym}
\textwidth=150mm
\textheight=210mm
\topmargin=0mm
\oddsidemargin=5mm
\evensidemargin=5mm
\DocInput{chemsym.dtx}
% \PrintChanges
\end{document}
%</driver>
% \fi
%
% \CheckSum{559}
%
% \def\filename{chemsym.dtx}
% \def\fileversion{2.0}
% \def\filedate{1998/05/31}\def\docdate{1998/06/24}
% \MakeShortVerb{\|}
% \date{\docdate}
% \title{\textsf{chemsym} -- a \LaTeX{} Macro for Chemical
% Symbols\thanks{This document describes \textsf{chemsym} version
% \fileversion , and was last updated \docdate .}}
% \author{Mats Dahlgren\footnote{Email:\ \texttt{matsd@sssk.se}\ \ \
% Web:\ \texttt{http://www.homenet.se/matsd/}}}
% \begin{document}
% \maketitle
% \begin{abstract}
% This document describes the \textsf{chemsym} package, which makes
% it easier to type chemical symbols correctly, without having
% to worry about math mode or text mode. Furthermore,
% \textsf{chemsym} makes both the super- and the subscript commands
% (|^| and |_|) and `\cdot' (|\cdot|) available in text mode.
% \\ This file and the package:\
% Copyright \copyright\ 1998 by Mats Dahlgren. All rights
% reserved.
% \end{abstract}
%
% \section{Introduction}
% \textsf{chemsym} is a \LaTeX{} package which makes it easier to
% type chemical symbols correctly. It defines a command for
% each element of the periodic table (the 109 first),
% Deuterium, the Methyl, Ethyl and Butyl groups\footnote{%
% Suggested by Ulf Henriksson (\texttt{ulf@physchem.kth.se}).}
% (for the Propyle group, use |\Pr|, Praseodymium), and the
% $-$OH, $-$COOH, and $-$CH groups.\footnote{Suggested in part by
% Axel Kielhorn (\texttt{i0080108@ws.rz.tu-bs.de})}
% The use of the commands results in a up-right
% chemical symbol, regardless of whether it is used in
% math mode or text mode. If not followed by a sub- or
% superscript, a |(|, a |)|, a |[|, or a |]| a small space
% is added (slightly less than what `|\,|' gives).
%
% In late 1997, IUPAC (International Union of Pure and Applied
% Chemistry) issued new recommendations for the
% names and symbols for elements 104-109 (``Names and symbols of
% transfermium elements (IUPAC recommendations 1997)'',
% \textit{Pure and Applied Chemistry} \textbf{1997},
% \textsl{69}(12), 2471-2473). The recommended names are
% Rutherfordium, \Rf, Dubnium, \Db, Seaborgium \Sg, Bohrium,
% \Bh, Hassnium, \Hs, and Meitnerium, \Mt, respectively.
% From the previous recommendations in 1994, all but \Bh and \Mt
% have changed.
%
% This userguide is also available in \texttt{.pdf}-format
% on the internet. It is found from my \LaTeX\ web page:
% \texttt{http://www.homenet.se/matsd/latex/}
%
% \section{Userguide}
% \subsection{Requirements}
% The file |chemsym.sty| must be available in the user's
% |TEXINPUTS| directories.
% It requires \LaTeXe{} of 1996/12/01 (or newer).
%
% \subsection{Usage}
% The package is included by stating\\
% | \usepackage[|\textit{option}|]{chemsym}| \\
% In the document preamble.
% The only option which has any effect on \textsf{chemsym} is
% |collision|, see below.
%
% \subsection{Commands}
%
% \DescribeMacro{chemical} \DescribeMacro{symbols}
% The \textsf{chemsym} package defines 116 user commands; one for
% each of the 109 first elements, Deuterium, the Methyl,
% Ethyl and Butyl groups
% (for the Propyle group, use |\Pr|, Praseodymium), and the
% $-$OH, $-$COOH, and $-$CH groups. The command
% names are all made up of the chemical symbol preceeded by
% `|\|'; thus for Nitrogen, \N, you type |\N|, and for Mercury,
% \Hg, |\Hg|, etc. These commands appear to be robust.
% To obtain `\CH_2', you simply type `|\CH_2|' in your input
% file; `\CH_3' is obtained by typing `|\CH_3|' (of course).
%
% \DescribeMacro{\H} \DescribeMacro{\O} \DescribeMacro{\P}
% \DescribeMacro{\S} \DescribeMacro{\Re} \DescribeMacro{\Pr}
% Since there are six commands in \TeX /\LaTeX{}
% already of this kind (|\H|, |\O|, |\P|, |\S|, |\Re|, and
% |\Pr|), and one environment in $\mathcal{AMS}$-\LaTeX{}
% \DescribeMacro{Sb}
% (the |Sb| environment),\footnote{Thanks to Thorsten L\"{o}hl
% (\texttt{lohl@uni-muenster.de}) for pointing out this.}
% these old commands have to be renamed.
% The names of choice are shown in the table below.
% \MakeShortVerb{\+}
% \DeleteShortVerb{\|}
% \begin{center}
% \begin{tabular}{|l|l|l|} \hline
% \TeX{} & With \textsf{chemsym} & Use/Example \\
% command & you write & \\ \hline
% +\H+ & +\h+ & The accent in `\h{o}' \\ \hline
% +\O+ & +\OO+ & \OO \\ \hline
% +\P+ & +\PP+ & \PP \\ \hline
% +\S+ & +\Ss+ & \Ss \\ \hline
% +\Re+ & +\re+ & $\re$ (in math mode) \\ \hline
% +\Pr+ & +\pr+ & $\pr$ (in math mode) \\ \hline
% +\begin{Sb}+ & +\begin{SB}+ & (with $\mathcal{AMS}$-\LaTeX) \\ \hline
% +\end{Sb}+ & +\end{SB}+ & (with $\mathcal{AMS}$-\LaTeX) \\ \hline
% \end{tabular}
% \end{center}
% \DeleteShortVerb{\+}
% \MakeShortVerb{\|}
% \DescribeMacro{\kemtkn}
% Also, |\kemtkn|, a command
% for defining other chemical symbols and similar functions is
% available. |\kemtkn| takes one mandatory argument (the
% string to treat as a chemical symbol). Two other
% \DescribeMacro{\nsrrm} \DescribeMacro{\nsrrms}
% internal commands, |\nsrrm| and |\nsrrms| are also
% available. |\nsrrm| simply puts its (mandatory) argument in
% |mathrm|. |\nsrrms| does the same, but also adds a small
% space after it. This space is a second, optional, argument
% to |\nsrrms| which should be given in |em| units (without
% `|em|'). The default is |0.1em|.
% \DescribeMacro{^} \DescribeMacro{_}
% For convenience when typing chemical formulas and units with
% exponents, the super- and subscript commands |^| and |_| are
% made available also outside of math mode, provided the option
% |collision| is \emph{not} specified. Thus, with
% \textsf{chemsym} you can type |m^2| instead of |m$^2$| for m^2 also
% in text mode. Analogously, you can type |\H_2\O| for \H_2\O{}
% in both math and text mode and get the same result.
% Notice that text which you may put in the arguments of |^|
% and |_| automatically is set in math mode. So if you want
% `M_{\mathrm{q}}' you must type |M_{\mathrm{q}}| and not only
% |M_q|, the latter comes out as `M_q'. (This feature is not
% seriously disturbing since this feature with |^| and |_| is
% intended to be used mainly with numbers in the arguments.)
%
% \DescribeMacro{\cdot} Futhermore, the |\cdot| command
% (producing a `\cdot') is also available outside math mode. This
% feature is included to facilitate typing formulas like
% ``\CH_3\cdot\CH_3'' (|\CH_3\cdot\CH_3|) also in text
% mode.\footnote{Also suggested by Ulf Henriksson
% (\texttt{ulf@physchem.kth.se}).}
%
% \subsection{The \texttt{collision} option}
%
% \DescribeMacro{collision}
% To avoid probelms with other packages due to |^| (and |_|) being
% active, this may be swithced off by stating the option
% |collision| when loading the \textsf{chemsym} package. If you get
% the following error message (or a similar), you are likely to have
% such a collision with \textsf{chemsym} involved (in this case with
% \textsf{longtable}):
% \begin{verbatim}
% ! Argument of ^ has an extra }.
% <inserted text>
% \par
% l.120 \end{longtable}
%
% ?
% \end{verbatim}
% To solve the problem, state the |collision| option \emph{and}
% delete the |.aux| file before running \LaTeX{} again. Some
% packages contain |^^J|-constructs which may not always be apparent
% to the user. One example, which collides with
% \textsf{chemsym}, is
% the \textsf{multicol} package's warning if you specify only one
% column. In that case, the error message is:
% \begin{verbatim}
% ! Argument of ^ has an extra }.
% <inserted text>
% \par
% l.18 \begin{multicols}{1}
%
% ?
% \end{verbatim}
% In this case, you \emph{may} come around the problem by specifying
% a number of columns $\geq 2$; if not, specify the |collision|
% option for the \textsf{chemsym} package.
%
% \section{Examples}
%
% This section gives some simple examples of the use of
% \textsf{chemsym}. To write the formula for water in both math
% and text mode,
% you type |\H_2\O{}|, which gives \H_2\O{} as result. Notice
% that this differs from typing |\H$_2$\O|, which gives
% \H$_2$\O{} as result. In the first example, there is not
% any extra space added after the \H . This addition of space
% makes formulas like \H\C\N{} (|\H\C\N|) easier to read than
% just typing |HCN|: HCN.
%
% \newcommand{\hH}{\kemtkn{{}^2H}}
% The use of the commands of \textsf{chemsym} is specially useful
% when chemical symbols are used as indices in equations.
% The following example illustrates this:
% \begin{equation}
% \mathcal{M}_{\Fe(\H_2\O)_6} = 6\mathcal{M}_{\H_2\O} + \mathcal{M}_{\Fe}
% \end{equation}
% which was obtained by typing
% \begin{verbatim}
% \begin{equation}
% \mathcal{M}_{\Fe(\H_2\O)_6} = 6\mathcal{M}_{\H_2\O} + \mathcal{M}_{\Fe}
% \end{equation}
% \end{verbatim}
% It is also easy
% to define other chemical symbols commands, such as commands
% for specific isotopes. Suppose you rather want to use the
% notation \hH{} than \D{} for Deuterium. This may be
% defined as:\\ \hspace*{2mm} |\newcommand{\hH}{\kemtkn{{}^2H}}|\\
% (which was
% used above: \ldots |notation \hH{} than \D{} for|\ldots).
% Internally, \textsf{chemsym} uses a syntax like this to def ine
% the various commands for the chemical symbols.\footnote{To make
% the command robust,
% say \texttt{\textbackslash newcommand$\{$\textbackslash hH$\}\{
% $\textbackslash protect\textbackslash kemtkn$\{\{\}\}
% \hat{\ }$2H$\}\}$}
% or use the command \texttt{\textbackslash DeclareRobustCommand}
% instead of \texttt{\textbackslash newcommand}.}
%
% After running |chemsym.ins| through \LaTeXe, you can typeset
% the Periodic Table of the Elements by running \LaTeXe{} on
% the file |pertab.tex|. (It fits fine on an A4 paper, and there
% should be no problem with a U.S.\ lettersize paper as well.)
% The Periodic Table requires the \textsf{rotating} package, which
% in turn requires the packages \textsf{graphicx} and
% \textsf{ifthen}.
%
% \section{Known Problems}
%
% \begin{itemize}
% \item
% Since \textsf{chemsym} makes |^| and |_| active, it will collide
% with other packages which make use of constructs like |^^J|
% (\textit{e.~g.} the \textsf{longtable} package). To avoid this
% problem, specify the option |collision| when loading
% \textsf{chemsym} (or globally).
% \item
% If the \textsf{chemsym} package is used together with the
% \textsf{rotating} or \textsf{amstex} package, \textsf{chemsym}
% should be loaded last.
% \item
% If the \textsf{chemsym} package is used together with the
% \textsf{fancyheadings} package, \textsf{fancyheadings}
% should be loaded after \textsf{chemsym}.\footnote{Thanks
% to Lars Reinton (\texttt{larsr@stud.unit.no}) for
% pointing out this.}
% \item Since \textsf{chemsym} makes |_| and |^| active, these
% characters cannot be used in labels when using the
% \textsf{chemsym} package, nor in file names loaded in \LaTeX{} runs
% loading the \textsf{chemsym} package (unless you specify the
% |collision| option).\footnote{Thanks to Axel Kielhorn
% (\texttt{i0080108@ws.rz.tu-bs.de}) for pointing out this problem.}
% \item Also since |^| is made active, when following after a prime
% in math mode (|'|), a ``double superscript'' error is produced
% unless a double bracing (|{}|) is included before the |^|
% character.\footnote{Thanks to Jeroen Paasschens
% (\texttt{paassche@natlab.research.philips.com}) for bringing my
% attention to this problem.} Thus, you should type |x'{}^2|
% instead of |x'^2| when using \textsf{chemsym} to obtain $x'{}^2$.
% \end{itemize}
%
% \section{Sending a Bug Report}
% \textsf{chemsym} is likely to contain bugs, and reports about
% them are most welcome. Before filing a bug report,
% please take the following actions:
% \begin{enumerate}
% \item Ensure your problem is not due to your own input file,
% package(s), or class(es);
% \item Ensure your problem is not covered in the section
% ''Known Problems'' above;
% \item Try to locate the problem by writing a minimal
% \LaTeX{} input file which reproduces the problem.
% Include the command\\
% | \setcounter{errorcontextlines}{999}|\\
% in your input;
% \item Run your file through \LaTeX ;
% \item Send a description of your problem, the input file
% and the log file via e-mail to:\\
% \hspace*{5mm} \texttt{matsd@sssk.se}.
% \end{enumerate}
% {\itshape Enjoy your \LaTeX!\raisebox{-\baselineskip}{mats d.}}
% \StopEventually{\vfill\hfill\scriptsize Copyright \copyright
% 1995-1998 by Mats Dahlgren}
% \newpage
%
% \section{The Code}
% For the interested reader(s), here is a short description
% of the code.
% \iffalse
%<*paketkod>
% \fi
% First, the package is to identify itself:
% \begin{macrocode}
\NeedsTeXFormat{LaTeX2e}[1996/12/01]
\ProvidesPackage{chemsym}[1998/05/31 v.2.0 Chemical symbols]
% \end{macrocode}
% First in the real code, we have to rename the old functions
% |\H|, |\O|, |\P|, |\S|, |\Re|, and |\Pr|:
% \begin{macrocode}
\let\h=\H
\let\OO=\O
\let\PP=\P
\let\Ss=\S
\let\re=\Re
\let\pr=\Pr
% \end{macrocode}
% Here we check if the $\mathcal{AMS}$-\LaTeX{} package is
% loaded, and if so, change the |Sb| environment to be called |SB|.
% \begin{macrocode}
\@ifundefined{Sb}{\def\Sb{\protect\kemtkn{Sb}}}%
{\let\SB=\Sb \let\endSB=\endSb}
% \end{macrocode}
% Now, we make |^|, |_|, and |\cdot| work without |$...$|
% also in text mode -- if not switched off.
% To do this, we need a boolean and some
% option processing\ldots
% \begin{macrocode}
\newif \ifc@llsn \c@llsnfalse
\DeclareOption{collision}{\global\c@llsntrue}
\DeclareOption*{\OptionNotUsed}
\ProcessOptions*
\ifc@llsn\AtEndDocument{%
\PackageWarningNoLine{chemsym}{Due to possible collisions with other
\MessageBreak packages, super- and subscrips are not avaliable
\MessageBreak outside math mode despite your loading of `chemsym'}}
\else
\def\sprscrpt#1{\ensuremath{^{#1}}}
\def\sbscrpt#1{\ensuremath{_{#1}}}
\catcode`\^ \active
\catcode`\_ \active
\let^=\sprscrpt
\let_=\sbscrpt
\fi
\@ifundefined{cd@t}{%
\let\cd@t=\cdot
\def\cdot{\ensuremath{\cd@t}}}{}
% \end{macrocode}
% (The |\@ifundefined| is required for local compatibility reasons
% at my former site.)
% Then, some general macros are defined:
% \begin{macrocode}
\newcommand{\nsrrm}[1]{\ensuremath{\mathrm{#1}}}
\newcommand{\nsrrms}[2][0.1]{\ensuremath{\mathrm{#2}\kern #1em}}
\newcommand{\kemtkn}[1]{\@ifnextchar_{\nsrrm{#1}}{\@ifnextchar^{\nsrrm{#1}}%
{\@ifnextchar){\nsrrm{#1}}{\@ifnextchar({\nsrrm{#1}}%
{\@ifnextchar]{\nsrrm{#1}}{\@ifnextchar[{\nsrrm{#1}}{\nsrrms{#1}}}}}}}}
% \end{macrocode}
% As you can see, you can change the spacing in the chemical
% formulas by making changes to |\nsrrms|. This you can do
% with |\renewcommand|
% in your document preamble or in another package file.
% Then we define the
% 110 commands for chemical symbols:
% \begin{macrocode}
\renewcommand{\H}{\protect\kemtkn{H}} % modified
\newcommand{\D}{\protect\kemtkn{D}}
\newcommand{\He}{\protect\kemtkn{He}}
\newcommand{\Li}{\protect\kemtkn{Li}}
\newcommand{\Be}{\protect\kemtkn{Be}}
\newcommand{\B}{\protect\kemtkn{B}}
\newcommand{\C}{\protect\kemtkn{C}}
\newcommand{\N}{\protect\kemtkn{N}}
\renewcommand{\O}{\protect\kemtkn{O}} % modified
\newcommand{\F}{\protect\kemtkn{F}}
\newcommand{\Ne}{\protect\kemtkn{Ne}}
\newcommand{\Na}{\protect\kemtkn{Na}}
\newcommand{\Mg}{\protect\kemtkn{Mg}}
\newcommand{\Al}{\protect\kemtkn{Al}}
\newcommand{\Si}{\protect\kemtkn{Si}}
\renewcommand{\P}{\protect\kemtkn{P}} % modified
\renewcommand{\S}{\protect\kemtkn{S}} % modified
\newcommand{\Cl}{\protect\kemtkn{Cl}}
\newcommand{\Ar}{\protect\kemtkn{Ar}}
\newcommand{\K}{\protect\kemtkn{K}}
\newcommand{\Ca}{\protect\kemtkn{Ca}}
\newcommand{\Sc}{\protect\kemtkn{Sc}}
\newcommand{\Ti}{\protect\kemtkn{Ti}}
\newcommand{\V}{\protect\kemtkn{V}}
\newcommand{\Cr}{\protect\kemtkn{Cr}}
\newcommand{\Mn}{\protect\kemtkn{Mn}}
\newcommand{\Fe}{\protect\kemtkn{Fe}}
\newcommand{\Co}{\protect\kemtkn{Co}}
\newcommand{\Ni}{\protect\kemtkn{Ni}}
\newcommand{\Cu}{\protect\kemtkn{Cu}}
\newcommand{\Zn}{\protect\kemtkn{Zn}}
\newcommand{\Ga}{\protect\kemtkn{Ga}}
\newcommand{\Ge}{\protect\kemtkn{Ge}}
\newcommand{\As}{\protect\kemtkn{As}}
\newcommand{\Se}{\protect\kemtkn{Se}}
\newcommand{\Br}{\protect\kemtkn{Br}}
\newcommand{\Kr}{\protect\kemtkn{Kr}}
\newcommand{\Rb}{\protect\kemtkn{Rb}}
\newcommand{\Sr}{\protect\kemtkn{Sr}}
\newcommand{\Y}{\protect\kemtkn{Y}}
\newcommand{\Zr}{\protect\kemtkn{Zr}}
\newcommand{\Nb}{\protect\kemtkn{Nb}}
\newcommand{\Mo}{\protect\kemtkn{Mo}}
\newcommand{\Tc}{\protect\kemtkn{Tc}}
\newcommand{\Ru}{\protect\kemtkn{Ru}}
\newcommand{\Rh}{\protect\kemtkn{Rh}}
\newcommand{\Pd}{\protect\kemtkn{Pd}}
\newcommand{\Ag}{\protect\kemtkn{Ag}}
\newcommand{\Cd}{\protect\kemtkn{Cd}}
\newcommand{\In}{\protect\kemtkn{In}}
\newcommand{\Sn}{\protect\kemtkn{Sn}}
\renewcommand{\Sb}{\protect\kemtkn{Sb}} % modified with AMS-LaTeX
\newcommand{\Te}{\protect\kemtkn{Te}}
\newcommand{\I}{\protect\kemtkn{I}}
\newcommand{\Xe}{\protect\kemtkn{Xe}}
\newcommand{\Cs}{\protect\kemtkn{Cs}}
\newcommand{\Ba}{\protect\kemtkn{Ba}}
\newcommand{\La}{\protect\kemtkn{La}}
\newcommand{\Ce}{\protect\kemtkn{Ce}}
\renewcommand{\Pr}{\protect\kemtkn{Pr}} % modified
\newcommand{\Nd}{\protect\kemtkn{Nd}}
\newcommand{\Pm}{\protect\kemtkn{Pm}}
\newcommand{\Sm}{\protect\kemtkn{Sm}}
\newcommand{\Eu}{\protect\kemtkn{Eu}}
\newcommand{\Gd}{\protect\kemtkn{Gd}}
\newcommand{\Tb}{\protect\kemtkn{Tb}}
\newcommand{\Dy}{\protect\kemtkn{Dy}}
\newcommand{\Ho}{\protect\kemtkn{Ho}}
\newcommand{\Er}{\protect\kemtkn{Er}}
\newcommand{\Tm}{\protect\kemtkn{Tm}}
\newcommand{\Yb}{\protect\kemtkn{Yb}}
\newcommand{\Lu}{\protect\kemtkn{Lu}}
\newcommand{\Hf}{\protect\kemtkn{Hf}}
\newcommand{\Ta}{\protect\kemtkn{Ta}}
\newcommand{\W}{\protect\kemtkn{W}}
\renewcommand{\Re}{\protect\kemtkn{Re}} % modified
\newcommand{\Os}{\protect\kemtkn{Os}}
\newcommand{\Ir}{\protect\kemtkn{Ir}}
\newcommand{\Pt}{\protect\kemtkn{Pt}}
\newcommand{\Au}{\protect\kemtkn{Au}}
\newcommand{\Hg}{\protect\kemtkn{Hg}}
\newcommand{\Tl}{\protect\kemtkn{Tl}}
\newcommand{\Pb}{\protect\kemtkn{Pb}}
\newcommand{\Bi}{\protect\kemtkn{Bi}}
\newcommand{\Po}{\protect\kemtkn{Po}}
\newcommand{\At}{\protect\kemtkn{At}}
\newcommand{\Rn}{\protect\kemtkn{Rn}}
\newcommand{\Fr}{\protect\kemtkn{Fr}}
\newcommand{\Ra}{\protect\kemtkn{Ra}}
\newcommand{\Ac}{\protect\kemtkn{Ac}}
\newcommand{\Th}{\protect\kemtkn{Th}}
\newcommand{\Pa}{\protect\kemtkn{Pa}}
\newcommand{\U}{\protect\kemtkn{U}}
\newcommand{\Np}{\protect\kemtkn{Np}}
\newcommand{\Pu}{\protect\kemtkn{Pu}}
\newcommand{\Am}{\protect\kemtkn{Am}}
\newcommand{\Cm}{\protect\kemtkn{Cm}}
\newcommand{\Bk}{\protect\kemtkn{Bk}}
\newcommand{\Cf}{\protect\kemtkn{Cf}}
\newcommand{\Es}{\protect\kemtkn{Es}}
\newcommand{\Fm}{\protect\kemtkn{Fm}}
\newcommand{\Md}{\protect\kemtkn{Md}}
\newcommand{\No}{\protect\kemtkn{No}}
\newcommand{\Lr}{\protect\kemtkn{Lr}}
\newcommand{\Rf}{\protect\kemtkn{Rf}}
\newcommand{\Db}{\protect\kemtkn{Db}}
\newcommand{\Sg}{\protect\kemtkn{Sg}}
\newcommand{\Bh}{\protect\kemtkn{Bh}}
\newcommand{\Hs}{\protect\kemtkn{Hs}}
\newcommand{\Mt}{\protect\kemtkn{Mt}}
% \end{macrocode}
% At last, we define the three alkyle groups and some other
% useful groups as chemical symbols:
% \begin{macrocode}
\newcommand{\Me}{\protect\kemtkn{Me}}
\newcommand{\Et}{\protect\kemtkn{Et}}
\newcommand{\Bu}{\protect\kemtkn{Bu}}
\newcommand{\OH}{\protect\kemtkn{OH}}
\newcommand{\COOH}{\protect\kemtkn{COOH}}
\newcommand{\CH}{\protect\kemtkn{CH}}
% \end{macrocode}
% This brings us to the end of \textsf{chemsym}. Hope you'll
% enjoy it!
% \iffalse
%</paketkod>
%<*periodsyst>
\documentclass[]{article}
\usepackage[dvips]{rotating}
\usepackage{chemsym}
\textwidth=170mm
\oddsidemargin=-6mm
\evensidemargin=-6mm
\textheight=270mm
\topmargin=-25mm
\parindent=0em
\parskip=3ex
\pagestyle{empty}
\renewcommand{\nsrrms}[2][0]{\ensuremath{\mathrm{#2}\kern #1em}}
\begin{document}
\setlength{\tabcolsep}{3pt}
\begin{sidewaystable}
\vspace*{-24mm}
\begin{tabular}{|*{18}{c|}}
\multicolumn{18}{c}{ } \\[3mm]
\multicolumn{18}{c}{\LARGE Periodic Table of the Elements} \\
\multicolumn{18}{c}{with relative atomic masses 1993 according to IUPAC} \\
\multicolumn{18}{c}{ } \\[-2mm] \hline
\textbf{1} & \textbf{2} & \textbf{3} & \textbf{4} & \textbf{5} &
\textbf{6} & \textbf{7} & \textbf{8} & \textbf{9} & \textbf{10} &
\textbf{11} & \textbf{12} & \textbf{13} & \textbf{14} & \textbf{15} &
\textbf{16} & \textbf{17} & \textbf{18} \\
\textbf{(I)} & \textbf{(II)} & & & & & & & & & & & \textbf{(III)} &
\textbf{(IV)} & \textbf{(V)} & \textbf{(VI)} & \textbf{(VII)} &
\textbf{(VIII)} \\ \hline
\multicolumn{18}{c}{ } \\[-2mm] \cline{1-1} \cline{18-18}
_1 & \multicolumn{16}{c|}{ } & _2\\
\H & \multicolumn{16}{c|}{ } & \He\\
^{1.00794} & \multicolumn{16}{c|}{ } & ^{4.002602} \\ \cline{1-2}
\cline{7-8} \cline{13-18}
_3 & _4 & \multicolumn{4}{c|}{ } &
\multicolumn{2}{c|}{_{\mathrm{Atomic\ number}}} &
\multicolumn{4}{c|}{ }
& _5 & _6 & _7 &
_8 & _9 & _{10}\\
\Li & \Be & \multicolumn{4}{c|}{ } &
\multicolumn{2}{c|}{Symbol} & \multicolumn{4}{c|}{ }
& \B & \C & \N & \O & \F & \Ne\\
^{6.941} & ^{9.012182} & \multicolumn{4}{c|}{ } &
\multicolumn{2}{c|}{^{\mathrm{Relative\ atomic\ mass}^\ast}} &
\multicolumn{4}{c|}{ } & ^{10.811} &
^{12.011} & ^{14.00674} & ^{15.9994} & ^{18.9984032} & ^{20.1797} \\
\cline{1-2} \cline{7-8} \cline{13-18}
_{11} & _{12} & \multicolumn{10}{c|}{ } & _{13} &
_{14} & _{15} & _{16} & _{17} & _{18} \\
\Na & \Mg & \multicolumn{10}{c|}{ } & \Al &
\Si & \P & \S & \Cl & \Ar\\
^{22.989768} & ^{24.3050} & \multicolumn{10}{c|}{ } &
^{26.981539} & ^{28.0855} & ^{30.973762} & ^{32.066} &
^{35.4527} & ^{39.948} \\ \hline
_{19} & _{20} & _{21} & _{22} & _{23} & _{24} &
_{25} & _{26} & _{27} & _{28} & _{29} & _{30} &
_{31} & _{32} & _{33} & _{34} & _{35} & _{36}\\
\K & \Ca & \Sc & \Ti & \V & \Cr & \Mn & \Fe & \Co & \Ni & \Cu & \Zn &
\Ga & \Ge & \As & \Se & \Br & \Kr\\
^{39.0983} & ^{40.078} & ^{44.955910} & ^{47.867} &
^{50.9415} & ^{51.9961} & ^{54.93805} & ^{55.845} &
^{58.93320} & ^{58.6934} & ^{63.546} & ^{65.39} & ^{69.723} &
^{72.61} & ^{74.92159} & ^{78.96} & ^{79.904} & ^{83.80} \\ \hline
_{37} & _{38} & _{39} & _{40} & _{41} & _{42} &
_{43} & _{44} & _{45} & _{46} & _{47} & _{48} &
_{49} & _{50} & _{51} & _{52} & _{53} & _{54} \\
\Rb & \Sr & \Y & \Zr & \Nb & \Mo &
\Tc & \Ru & \Rh & \Pd & \Ag & \Cd &
\In & \Sn & \Sb & \Te & \I & \Xe\\
^{85.4678} & ^{87.62} & ^{88.90585} & ^{91.224} & ^{92.90638} &
^{95.94} & ^{(98)} & ^{101.07} & ^{102.90550} & ^{106.42} &
^{107.8682} & ^{112.411} & ^{114.818} & ^{118.710} &
^{121.760} & ^{127.60} & ^{126.90447} & ^{131.29} \\ \hline
_{55} & _{56} & & _{72} & _{73} & _{74} &
_{75} & _{76} & _{77} & _{78} & _{79} & _{80} &
_{81} & _{82} & _{83} & _{84} & _{85} & _{86} \\
\Cs & \Ba & \raisebox{1.5mm}[0pt][0pt]{\La --} & \Hf & \Ta &
\W & \Re & \Os & \Ir & \Pt & \Au & \Hg &
\Tl & \Pb & \Bi & \Po & \At & \Rn\\
^{132.90543} & ^{137.327} & \raisebox{1.5mm}[0pt][0pt]{\Lu} &
^{178.49} & ^{180.9479} &
^{183.84} & ^{186.207} & ^{190.23} & ^{192.217} & ^{195.08} &
^{196.96654} & ^{200.59} & ^{204.3833} & ^{207.2} &
^{208.98037} & ^{(209)} & ^{(210)} & ^{(222)} \\
\hline
_{87} & _{88} & & _{104} & _{105} & _{106} &
_{107} & _{108} & _{109} & \multicolumn{1}{c}{$_{\ast\ast}$} \\
\Fr & \Ra & \raisebox{1.5mm}[0pt][0pt]{\Ac --} & \Rf & \Db &
\Sg & \Bh & \Hs & \Mt\\
^{(223)} & ^{(226)} & \raisebox{1.5mm}[0pt][0pt]{\Lr} & ^{(261)} &
^{(262)} & ^{(263)} & ^{(262)} & ^{(265)} & ^{(266)} \\
\cline{1-9}
\multicolumn{18}{c}{ } \\ \cline{3-17}
\multicolumn{2}{c|}{ } & _{57} & _{58} & _{59} & _{60} & _{61}
& _{62} & _{63} & _{64} & _{65} & _{66} & _{67} & _{68} & _{69}
& _{70} & _{71} \\
\multicolumn{2}{c|}{ } & \La &
\Ce & \Pr & \Nd & \Pm & \Sm & \Eu & \Gd & \Tb & \Dy & \Ho & \Er & \Tm &
\Yb & \Lu \\
\multicolumn{2}{c|}{ } & ^{138.9055} & ^{140.115} &
^{140.90765} & ^{144.24} & ^{(145)} & ^{150.36} & ^{151.965} &
^{157.25} & ^{158.92534} & ^{162.50} & ^{164.93032} &
^{167.26} & ^{168.93421} & ^{173.04} & ^{174.967} \\ \cline{3-17}
\multicolumn{2}{c|}{ } & _{89} &
_{90} & _{91} & _{92} & _{93} & _{94} & _{95} &
_{96} & _{97} & _{98} & _{99} & _{100} &
_{101} & _{102} & _{103} \\
\multicolumn{2}{c|}{ } & \Ac &
\Th & \Pa & \U & \Np & \Pu & \Am & \Cm & \Bk & \Cf & \Es & \Fm &
\Md & \No & \Lr \\
\multicolumn{2}{c|}{ } & ^{(227)} & ^{(232.0381)}& ^{(231.03588)} &
^{(238.0289)}& ^{(237)} & ^{(239)} & ^{(243)} & ^{(247)} &
^{(247)} & ^{(251)} & ^{(252)} & ^{(257)} & ^{(258)} &
^{(259)} & ^{(262)} \\ \cline{3-17}
\multicolumn{18}{c}{ } \\[5mm]
\multicolumn{1}{r}{$^\ast$} &
\multicolumn{17}{l}{Relative atomic mass based on
$A_{\mathrm{r}}(^{12}\C )\equiv 12$ (after IUPAC ``Atomic Weights
of the Elements 1993'', \textit{Pure and Applied Chemistry,}
\textbf{1994,} \textsl{66}(12), 2423-} \\
\multicolumn{1}{c}{{ }} &
\multicolumn{17}{l}{2444). For elements which lack stable isotope(s) is
the mass number for the most stable isotope given in parentheses,
or for \Th, \Pa{} and \U{} the relative }\\
\multicolumn{1}{c}{{ }} &
\multicolumn{17}{l}{atomic mass given by IUPAC for the isotopic mixture
present on Earth. } \\
\multicolumn{1}{r}{$^{\ast\ast}$} &
\multicolumn{17}{l}{Chemical symbols for elements 104 -- 109
according to IUPAC ``Names and Symbols of Transfermium Elements
(IUPAC Recommendations 1997)'', \textit{Pure} } \\
\multicolumn{1}{c}{{ }} &
\multicolumn{17}{l}{\textit{and Applied Chemistry,}
\textbf{1997,} \textsl{69}(12), 2471-2473.} \\
\multicolumn{18}{r}{\scriptsize Copyright \copyright{} 1995 - 1998
by Mats Dahlgren.} \\
\end{tabular}
\end{sidewaystable}
\end{document}
%</periodsyst>
% \fi
% \Finale
%
\endinput