\subsubsection{\texorpdfstring{\ding{224} The density}{The density}} %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % d color \pgfPTMoption{4}{d color}{black}{% Sets the density value text color.} \\ [5pt]\pgfPTMbuildcellstyle{myd}(5,3)[(1;1-2;Z),(1;3;radio),(2-3;1.5-3.5;CS),(4;1-3;name),(5;1-3;d)]% \pgfPTbuildcellstyle{myd}(5,3)[(1;1-2;Z),(1;3;radio),(2-3;1.5-3.5;CS),(4;1-3;name),(5;1-3;d)]% \\ [-4pt]\pgfPTMmacrobox[l]{pgfPT}[Z list={1,...,36},cell style=myd,show title=false]% \\ [5pt]\makebox[\linewidth][c]{\scalebox{.6}{\pgfPT[Z list={1,...,36},Z list={1,...,36},cell style=myd,show title=false]}}% \\ [10pt]\pgfPTMmacrobox{pgfPT}[Z list={1,...,36},cell style=myd,show title=false,d color=red]% \\ [5pt]\makebox[\linewidth][c]{\scalebox{.6}{\pgfPT[Z list={1,...,36},Z list={1,...,36},cell style=myd,show title=false,d color=red]}}% \\ [0pt]\pgfPTendoption% % d font \pgfPTMoption{4}{d font}{\string\tiny\string\bfseries}{% Sets the density value text font. } \\ [5pt]\pgfPTMmacrobox{pgfPT}[Z list={1,...,36},cell style=myd,show title=false]% \\ [5pt]\makebox[\linewidth][c]{\scalebox{.6}{\pgfPT[Z list={1,...,36},Z list={1,...,36},cell style=myd,show title=false]}}% \\ [10pt]\pgfPTMmacrobox{pgfPT}[Z list={1,...,36},cell style=myd,show title=false,d font=\string\tiny\string\itshape]% \\ [5pt]\makebox[\linewidth][c]{\scalebox{.6}{\pgfPT[Z list={1,...,36},Z list={1,...,36},cell style=myd,show title=false,d font=\tiny\itshape]}}% \\ [0pt]\pgfPTendoption% % d unit= .default=g/dm3 \vfill% \pgfPTMoption[\pgfPTnewinversion{1.0.1}]{4}{d unit}{both}{% Sets the unit for the density of the elements. The two possible values to this key are \red{g/dm3} ($\mathsf{g/dm^3}$), \red{g/cm3} ($\mathsf{g/cm^3}$) and \red{both} ($\mathsf{g/dm^3}$ for elements in the gaseous state and $\mathsf{g/cm^3}$ for all other elements). }% \\ [5pt]\pgfPTMmacrobox{pgfPT}[Z list={1,...,36},cell style=myd,show title=false]% \\ [10pt]\makebox[\linewidth][c]{\scalebox{.6}{\pgfPT[Z list={1,...,36},cell style=myd,show title=false]}}% \\ [5pt]\pgfPTMmacrobox{pgfPT}[Z list={1,...,36},cell style=myd,show title=false,d unit=g/cm3]% \\ [10pt]\makebox[\linewidth][c]{\scalebox{.6}{\pgfPT[Z list={1,...,36},cell style=myd,show title=false,d unit=g/cm3]}}% \\ [5pt]\pgfPTMmacrobox{pgfPT}[Z list={1,...,36},cell style=myd,show title=false,d unit=g/dm3]% \\ [10pt]\makebox[\linewidth][c]{\scalebox{.6}{\pgfPT[Z list={1,...,36},cell style=myd,show title=false,d unit=g/dm3]}}% \\ [0pt]\pgfPTendoption% \vfill\newpage\ \\ [-32pt]% % d precision \pgfPTMoption{4}{d precision}{-1}{% Sets the density precision, \ie, the decimal places displayed in their 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 density values witch actually have a maximum 5 or 8 decimal places, when the values are in $\mathsf{g/dm^3}$ or in $\mathsf{g/cm^3}$, respectively.. So giving this key a value of -1 (the value of the melting or boiling point as-is) or 5 or 8 has the same effect. \\ \textit{Therefore the values provided to this key should be any integer between -1 and 4 ($\mathsf{g/dm^3}$) or 7 ($\mathsf{g/cm^3}$). Any other integer provided will be processed as -1.}};} } \vfill%\\ [10pt] \pgfPTMmacrobox[l]{pgfPTstyle}[Z list={1,...,54},cell style=myd,show title=false]% \pgfPTstyle[Z list={1,...,54},cell style=myd,show title=false]% \\ [-4pt]\pgfPTMmacrobox{pgfPT}[]% \\ [10pt]\makebox[\linewidth][c]{\scalebox{.6}{\pgfPT}}% \\ [10pt]\pgfPTMmacrobox{pgfPT}[d precision=0]% \\ [10pt]\makebox[\linewidth][c]{\scalebox{.6}{\pgfPT[d precision=0]}}% \\ [10pt]\pgfPTMmacrobox{pgfPT}[d precision=1]% \\ [10pt]\makebox[\linewidth][c]{\scalebox{.6}{\pgfPT[d precision=1]}}% \vfill% \newpage%\\ [5pt] \pgfPTMmacrobox{pgfPT}[d precision=2]% \\ [10pt]\makebox[\linewidth][c]{\scalebox{.6}{\pgfPT[d precision=2]}}% \\ [10pt]\pgfPTMmacrobox{pgfPT}[d precision=3]% \\ [10pt]\makebox[\linewidth][c]{\scalebox{.6}{\pgfPT[d precision=3]}}% \\ [10pt]\pgfPTMmacrobox{pgfPT}[d precision=4]% \\ [10pt]\makebox[\linewidth][c]{\scalebox{.6}{\pgfPT[d precision=4]}}% \\ [10pt]\pgfPTMmacrobox{pgfPT}[d precision=5]% \\ [10pt]\makebox[\linewidth][c]{\scalebox{.6}{\pgfPT[d precision=5]}}% \\ [0pt]\pgfPTendoption% \newpage\ \\ [-32pt]% % pseudo style -> d={c=??,f=??,p=??,u=??} ; d/.default={c=black,f=\tiny\bfseries,p=-1,u=both}% % d/.default={c=black,f=\tiny\bfseries,p=-1,u=both},% \pgfPTMstyle{4}{d}{\{c=black,f=\string\tiny\string\bfseries,p=-1,u=both\}}% {\ \\ [-3pt]\textit{Pseudo style} to set the keys: d \textbf{c}olor, d \textbf{f}ont, d \textbf{p}recision and/or d \textbf{u}nit. None of the \textit{keys} -- c, f, p and u -- are mandatory.\hfill\textit{\textcolor{blue}{(\pgfPTnewinversion{1.0.1})}} \\ [10pt]\makebox[\linewidth][c]{\use{\tikz{\node[text width=9cm] {d=\{c=,f=,p=,u=\}};}}}% }% \\ [5pt]\pgfPTMmacrobox{pgfPT}[Z list={1,...,36},cell style=myd,show title=false,d={c=blue,p=2}]% \\ [10pt]\makebox[\linewidth][c]{\scalebox{.6}{\pgfPT[Z list={1,...,36},cell style=myd,show title=false,d={c=blue,p=2}]}}% \\ [0pt]\pgfPTendstyle% %\newpage\ \\ [-32pt]% \endinput