\vfill% \subsubsection{\texorpdfstring{\ding{224} \itshape The other contents}{The other contents}}\vspace{6pt}% %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% For all the \textit{other contents} available for the cells of the periodic table, two keys can be set: \red{ color} and \red{ font}. \\ [10pt]\tikz{\node[text width=\linewidth-.6666em,fill=cItemList!5!white,draw=cItemList,rounded corners=2pt] {\textbf{The \red{}'s list}: \\ [5pt]\begin{minipage}{.45\linewidth}\footnotesize \begin{itemlist} %\item\red{\textbf{name}}:\hspace{.5ex}element name \item\red{\textbf{R}}:\hspace{.5ex}atomic radius \item\red{\textbf{Rcov}}:\hspace{.5ex}covalente radius \item\red{\textbf{Rion}}:\hspace{.5ex}ionic radius \item\red{\textbf{Ei}}:\hspace{.5ex}first ionization energy \item\red{\textbf{eneg}}:\hspace{.5ex}electronegativity (Pauling) \item\red{\textbf{eaff}}:\hspace{.5ex}electroaffnity \item\red{\textbf{O}}:\hspace{.5ex}oxidation states \item\red{\textbf{Tmelt}}:\hspace{.5ex}melting point (Kelvin) \item\red{\textbf{TmeltC}}:\hspace{.5ex}melting point (Celsius degrees) \item\red{\textbf{Tboil}}:\hspace{.5ex}boiling point (Kelvin) \item\red{\textbf{TboilC}}:\hspace{.5ex}boiling point (Celsius degrees) \end{itemlist} \end{minipage}\begin{minipage}{.55\linewidth}\footnotesize \begin{itemlist} \item\red{\textbf{eConfign}}:\hspace{.5ex}electronic configuration (increasing n) \item\red{\textbf{eConfignl}}:\hspace{.5ex}electronic configuration (increasing n+$\ell$) %\item\red{\textbf{d}}:\hspace{.5ex}density \item\red{\textbf{Cp}}:\hspace{.5ex}specific heat capacity \item\red{\textbf{kT}}:\hspace{.5ex}thermal conductivity \item\red{\textbf{lsa}}:\hspace{.5ex}lattice constant -- a \item\red{\textbf{lsb}}:\hspace{.5ex}lattice constant -- b \item\red{\textbf{lsc}}:\hspace{.5ex}lattice constant -- c \item\red{\textbf{lsca}}:\hspace{.5ex}lattice c/a ratio \item\red{\textbf{DiscC}}:\hspace{.5ex}discover country \item\red{\textbf{spectra}}:\hspace{.5ex}visible range spectral lines \end{itemlist} \end{minipage} };}\vfill% % color \pgfPTMoption{4}{ color}{black}{% Sets the \red{} color. } \\ [5pt]\pgfPTMmacrobox{pgfPT}[Z list={1,...,36},name color=blue]% \\ [10pt]\makebox[\linewidth][c]{\scalebox{.6}{\pgfPT[Z list={1,...,36},name color=blue]}}% \\ [5pt]\pgfPTendoption% \vfill% % font \newpage\ \\ [-32pt]% \pgfPTMoption{4}{ font}{\string\tiny\string\bfseries}{% Sets the \red{} font. } \\ [5pt]\pgfPTMmacrobox{pgfPT}[Z list={1,...,36},name font=\string\tiny\string\itshape]% \\ [10pt]\makebox[\linewidth][c]{\scalebox{.6}{\pgfPT[Z list={1,...,36},name font=\tiny\itshape]}}% \\ [5pt]\pgfPTendoption% % cell font (style) all fonts except Z, CS \pgfPTMstyle{4}{cell font}{\string\bfseries\string\tiny}% {Style to set the font for all cell contents, except for the Z and Chemical Symbol fonts.}% \\ [5pt]\pgfPTMmacrobox{pgfPT}[Z list={1,...,36},cell font=\string\tiny\string\itshape]% \\ [10pt]\makebox[\linewidth][c]{\scalebox{.6}{\pgfPT[Z list={1,...,36},cell font=\tiny\itshape]}}% \\ [5pt]\pgfPTendstyle% % cell color (style) all colors except Z, CS \pgfPTMstyle{4}{cell color}{black}% {Style to set the color for all cell contents, except for the Z and Chemical Symbol colors.}% \\ [5pt]\pgfPTMmacrobox{pgfPT}[Z list={1,...,36},cell color=blue]% \\ [10pt]\makebox[\linewidth][c]{\scalebox{.6}{\pgfPT[Z list={1,...,36},cell color=blue]}}% \\ [5pt]\pgfPTendstyle% \vfill%\\ [10pt] The precision of the \textit{other contents}, which have numerical values, can also be set by a key. \textit{Atomic radius, covalent radius, and ionic radius all have integer values, so precision does not apply to them}. \vfill% \newpage\ \\ [-32pt]% % E precision \pgfPTMoption{4}{E precision}{-1}{% Sets the first ionization energy and the electroaffnity 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 energy values witch actually have a maximum of 3 decimal places. So giving this key a value of -1 (the value of the energy as-is) or 3 has the same effect. \\ \textit{Therefore the values provided to this key should be any integer between -1 and 2, \ie, -1, 0, 1 or 2. Any other integer provided will be processed as -1.}};} } \vfill%\\ [10pt] \pgfPTresetstyle\pgfPTMbuildcellstyle{myE}(5,3)[(1;1-2;Z),(1;3;radio),(2-3;1.5-3.5;CS),(4;1-3;name),(5;1-2.5;Ei), % (5;2.5-3;eaff)]% \pgfPTbuildcellstyle{myE}(5,3)[(1;1-2;Z),(1;3;radio),(2-3;1.5-3.5;CS),(4;1-3;name),(5;1-2.5;Ei),(5;2.5-3;eaff)]% \\ [-4pt]\pgfPTMmacrobox[l]{pgfPTstyle}[Z list={1,...,54},cell style=myE,show title=false]% \pgfPTstyle[Z list={1,...,54},cell style=myE,show title=false]% \\ [-4pt]\pgfPTMmacrobox{pgfPT}[]% \\ [10pt]\makebox[\linewidth][c]{\scalebox{.6}{\pgfPT}}% \\ [10pt]\pgfPTMmacrobox{pgfPT}[E precision=0]% \\ [10pt]\makebox[\linewidth][c]{\scalebox{.6}{\pgfPT[E precision=0]}}% \\ [10pt]\pgfPTMmacrobox{pgfPT}[E precision=1]% \\ [10pt]\makebox[\linewidth][c]{\scalebox{.6}{\pgfPT[E precision=1]}}% \vfill% \newpage%\\ [10pt] \pgfPTMmacrobox{pgfPT}[E precision=2]% \\ [10pt]\makebox[\linewidth][c]{\scalebox{.6}{\pgfPT[E precision=2]}}% \\ [10pt]\pgfPTMmacrobox{pgfPT}[E precision=3]% \\ [10pt]\makebox[\linewidth][c]{\scalebox{.6}{\pgfPT[E precision=3]}}% \\ [0pt]\pgfPTendoption% % T precision \pgfPTMoption{4}{T precision}{-1}{% Sets the melting point an boiling point 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 melting or boiling point values witch actually have a maximum, res\-pectively, of 4 or 2 decimal places. So giving this key a value of -1 (the value of the melting or boiling point as-is) or, respectively, 4 or 2 has the same effect. \\ \textit{Therefore the values provided to this key should be any integer between -1 and 3 or 2. Any other integer provided will be processed as -1.}};} } \\ [10pt]\pgfPTMbuildcellstyle{myT}(6,3)[(1;1-2;Z),(1;3;radio),(2-3;1.5-3.5;CS),(4;1-3;name),(5;1-2.5;Tmelt), % (5;2.5-3;Tboil),(6;1-2.5;TmeltC),(6;2.5-3;TboilC)]% \pgfPTbuildcellstyle{myT}(6,3)[(1;1-2;Z),(1;3;radio),(2-3;1.5-3.5;CS),(4;1-3;name),(5;1-2.5;Tmelt),(5;2.5-3;Tboil),(6;1-2.5;TmeltC),(6;2.5-3;TboilC)]% \\ [-4pt]\pgfPTMmacrobox[l]{pgfPTstyle}[Z list={1,...,36},cell style=myT,Tmelt color=blue!50!black,TmeltC color=blue,Tboil color=red!50!black,TboilC color=red,show title=false]% \pgfPTstyle[Z list={1,...,36},cell style=myT,Tmelt color=blue!50!black,TmeltC color=blue,Tboil color=red!50!black,TboilC color=red,show title=false]% \\ [-4pt]\pgfPTMmacrobox{pgfPT}[]% \\ [10pt]\makebox[\linewidth][c]{\scalebox{.6}{\pgfPT}}% \\ [5pt]\pgfPTMmacrobox{pgfPT}[T precision=0]% \\ [10pt]\makebox[\linewidth][c]{\scalebox{.6}{\pgfPT[T precision=0]}}% \\ [5pt]\pgfPTMmacrobox{pgfPT}[T precision=1]% \\ [10pt]\makebox[\linewidth][c]{\scalebox{.6}{\pgfPT[T precision=1]}}% \\ [5pt]\pgfPTMmacrobox{pgfPT}[T precision=2]% \\ [10pt]\makebox[\linewidth][c]{\scalebox{.6}{\pgfPT[T precision=2]}}% \\ [5pt]\pgfPTMmacrobox{pgfPT}[T precision=3]% \\ [10pt]\makebox[\linewidth][c]{\scalebox{.6}{\pgfPT[T precision=3]}}% \\ [5pt]\pgfPTMmacrobox{pgfPT}[T precision=4]% \\ [10pt]\makebox[\linewidth][c]{\scalebox{.6}{\pgfPT[T precision=4]}}% \\ [0pt]\pgfPTendoption% \newpage\ \\ [-32pt]% % Cp precision \pgfPTMoption{4}{Cp precision}{-1}{% Sets the specific heat capacity 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 3 decimal places. So giving this key a value of -1 (the value of the melting or boiling point as-is) or 3 has the same effect. \\ \textit{Therefore the values provided to this key should be any integer between -1 and 2. Any other integer provided will be processed as -1.}};} } \vfill%\\ [10pt] \pgfPTMbuildcellstyle{myCp}(5,3)[(1;1-2;Z),(1;3;radio),(2-3;1.5-3.5;CS),(4;1-3;name),(5;1-3;Cp)]% \pgfPTbuildcellstyle{myCp}(5,3)[(1;1-2;Z),(1;3;radio),(2-3;1.5-3.5;CS),(4;1-3;name),(5;1-3;Cp)]% \\ [-4pt]\pgfPTMmacrobox[l]{pgfPTstyle}[Z list={1,...,36},cell style=myCp]% \pgfPTstyle[Z list={1,...,36},cell style=myCp]% \\ [-4pt]\pgfPTMmacrobox{pgfPT}[]% \\ [10pt]\makebox[\linewidth][c]{\scalebox{.6}{\pgfPT}}% \\ [10pt]\pgfPTMmacrobox{pgfPT}[Cp precision=0]% \\ [10pt]\makebox[\linewidth][c]{\scalebox{.6}{\pgfPT[Cp precision=0]}}% \\ [10pt]\pgfPTMmacrobox{pgfPT}[Cp precision=1]% \\ [10pt]\makebox[\linewidth][c]{\scalebox{.6}{\pgfPT[Cp precision=1]}}% \vfill% \newpage%\\ [10pt] \pgfPTMmacrobox{pgfPT}[Cp precision=2]% \\ [10pt]\makebox[\linewidth][c]{\scalebox{.6}{\pgfPT[Cp precision=2]}}% \\ [10pt]\pgfPTMmacrobox{pgfPT}[Cp precision=3]% \\ [10pt]\makebox[\linewidth][c]{\scalebox{.6}{\pgfPT[Cp precision=3]}}% \\ [0pt]\pgfPTendoption% % kT precision \vfill\vfill% \pgfPTMoption{4}{kT precision}{-1}{% Sets the thermal condutivity 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 decimal places. So giving this key a value of -1 (the value of the melting or boiling point as-is) or 5 has the same effect. \\ \textit{Therefore the values provided to this key should be any integer between -1 and 4. Any other integer provided will be processed as -1.}};} } \\ [10pt]\pgfPTMbuildcellstyle{mykT}(5,3)[(1;1-2;Z),(1;3;radio),(2-3;1.5-3.5;CS),(4;1-3;name),(5;1-3;kT)]% \pgfPTbuildcellstyle{mykT}(5,3)[(1;1-2;Z),(1;3;radio),(2-3;1.5-3.5;CS),(4;1-3;name),(5;1-3;kT)]% \\ [-4pt]\pgfPTMmacrobox[l]{pgfPTstyle}[Z list={1,...,36},cell style=mykT,show title=false]% \pgfPTstyle[Z list={1,...,36},cell style=mykT,show title=false]% \\ [-4pt]\pgfPTMmacrobox{pgfPT}[]% \\ [10pt]\makebox[\linewidth][c]{\scalebox{.6}{\pgfPT}}% \vfill% \newpage%\\ [10pt] \pgfPTMmacrobox{pgfPT}[kT precision=0]% \\ [10pt]\makebox[\linewidth][c]{\scalebox{.6}{\pgfPT[kT precision=0]}}% \\ [10pt]\pgfPTMmacrobox{pgfPT}[kT precision=1]% \\ [10pt]\makebox[\linewidth][c]{\scalebox{.6}{\pgfPT[kT precision=1]}}% \\ [10pt]\pgfPTMmacrobox{pgfPT}[kT precision=2]% \\ [10pt]\makebox[\linewidth][c]{\scalebox{.6}{\pgfPT[kT precision=2]}}% \\ [10pt]\pgfPTMmacrobox{pgfPT}[kT precision=3]% \\ [10pt]\makebox[\linewidth][c]{\scalebox{.6}{\pgfPT[kT precision=3]}}% \\ [10pt]\pgfPTMmacrobox{pgfPT}[kT precision=4]% \\ [0pt]\vbox to 0pt{\makebox[\linewidth][c]{\scalebox{.6}{\pgfPT[kT precision=4]}}}% \newpage%\\ [10pt] \pgfPTMmacrobox{pgfPT}[kT precision=5]% \\ [10pt]\makebox[\linewidth][c]{\scalebox{.6}{\pgfPT[kT precision=5]}}% \\ [0pt]\pgfPTendoption% \\ [10pt]\pgfPTMmacrobox[l]{pgfPTresetstyle}[]% \pgfPTresetstyle% \endinput