\vfill% \subsubsection{\texorpdfstring{\ding{224} The atomic weight}{The atomic weight}}\vspace{6pt}% %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % Ar color \pgfPTMoption{4}{Ar color}{black}{% Sets the relative atomic mass color. } \\ [5pt]\pgfPTMmacrobox{pgfPT}[Z list={1,...,36},Ar color=red]% \\ [5pt]\makebox[\linewidth][c]{\scalebox{.6}{\pgfPT[Z list={1,...,36},Ar color=red]}}% \\ [0pt]\pgfPTendoption% % Ar font \newpage\ \\ [-32pt]% \pgfPTMoption{4}{Ar font}{\string\tiny\string\bfseries}{% Sets the relative atomic mass font. } \\ [5pt]\pgfPTMmacrobox{pgfPT}[Z list={1,...,36},Ar font=\string\scriptsize\string\bfseries]% \\ [5pt]\makebox[\linewidth][c]{\scalebox{.6}{\pgfPT[Z list={1,...,36},Ar font=\scriptsize\bfseries]}}% \\ [0pt]\pgfPTendoption% % Ar label \vfill% \pgfPTMoption{4}{Ar label}{m}{% Sets the label to be used within the relative atomic mass description. When set to \sq{m} the term \green{mass} is used and when set to \sq{w} the term \green{weight} is used, resulting in \textit{Relative Atomic Mass} and \textit{Atomic Weight} labels respectively. } \\ [5pt]\pgfPTMmacrobox{pgfPT}[Z list={1,...,36}]% \\ [5pt]\makebox[\linewidth][c]{\scalebox{.6}{\pgfPT[Z list={1,...,36}]}}% \\ [10pt]\pgfPTMmacrobox{pgfPT}[Z list={1,...,36},Ar label=w]% \\ [5pt]\makebox[\linewidth][c]{\scalebox{.6}{\pgfPT[Z list={1,...,36},Ar label=w]}}% \\ [0pt]\pgfPTendoption% % Ar precision \vfill% \pgfPTMoption{4}{Ar precision}{-1}{% Sets the relative atomic mass precision, \ie, the decimal places displayed in the relative atomic mass value, performing the respective rounding, without zero padding the value. \\ [10pt]\tikz{\node[text width=\linewidth-.6666em,fill=orange!5!white,draw=orange,rounded corners=2pt] {\textbf{\red{NOTE}}:\\ Rounding is performed over the relative atomic mass data values witch actually have a maximum of 4 decimal places. So giving this key a value of -1 (the value of relative atomic mass as-is) or 4 has the same effect. \\ \textit{Therefore the values provided to this key should be any integer between -1 and 3, \ie, -1, 0, 1, 2 or 3. Any other integer provided will be processed as -1.}};} } \vfill\newpage%\\ [5pt] \pgfPTMmacrobox{pgfPT}[Z list={1,...,36}]% \\ [5pt]\makebox[\linewidth][c]{\scalebox{.6}{\pgfPT[Z list={1,...,36}]}}% %\vfill% \\ [5pt]\pgfPTMmacrobox{pgfPT}[Z list={1,...,36},Ar precision=2]% \\ [5pt]\makebox[\linewidth][c]{\scalebox{.6}{\pgfPT[Z list={1,...,36},Ar precision=2]}}% \\ [5pt]\pgfPTMmacrobox{pgfPT}[Z list={1,...,36},Ar precision=1]% \\ [5pt]\makebox[\linewidth][c]{\scalebox{.6}{\pgfPT[Z list={1,...,36},Ar precision=1]}}% \\ [0pt]\pgfPTendoption% \vfill% % Ar={c=??,f=??,p=??,l=??} % Ar/.default={c=black,f=\tiny\bfseries,l=m,p=-1} \pgfPTMstyle{4}{Ar}{\{c=black,f=\string\tiny\string\bfseries,l=m,p=-1\}}% {\ \\ [-3pt]\textit{Pseudo style} to set the keys: Ar \textbf{c}olor, Ar \textbf{f}ont, Ar \textbf{l}abel and/or Ar \textbf{p}recision. None of the \textit{keys} -- c, f, l and \mbox{p -- are} mandatory. \\ [3pt]\makebox[\linewidth][c]{\use{Ar=\{c=,f=,l=p=\}}}% }% \\ [5pt]\pgfPTMmacrobox{pgfPT}[Z list={1,...,36},Ar={c=red!50!black,p=2}]% \\ [5pt]\makebox[\linewidth][c]{\scalebox{.6}{\pgfPT[Z list={1,...,36},Ar={c=red!50!black,p=2}]}}% \vfill\newpage%\\ [10pt] \pgfPTMmacrobox{pgfPT}[Z list={1,...,36},Ar={c=red!50!black,p=1,l=w}]% \\ [5pt]\makebox[\linewidth][c]{\scalebox{.6}{\pgfPT[Z list={1,...,36},Ar={c=red!50!black,p=1,l=w}]}}% \\ [0pt]\pgfPTendstyle% \endinput