\documentclass[class=book,crop=false]{standalone} \usepackage[subpreambles,sort]{standalone} \usepackage{preamble} \usepackage[graphicx]{realboxes} \usepackage{blindtext} \begin{document} \chapter{Content}\label{ch:content} This chapter provides examples on \begin{itemize} \item Equations (cf. Section \ref{sec:equation}) \item Acronyms (cf. Section \ref{sec:acronyms}) \item References (cf. Section \ref{sec:references}) \item Textual: \begin{itemize} \item \texttt{itemize} (cf. Subsection \ref{subsec:itemize}) \item \texttt{enumerate} (cf. Subsection \ref{subsec:enumerate}) \item \texttt{description} (cf. Subsection \ref{subsec:description}) \item Theorems (cf. Subsection \ref{subsec:theorem}) \end{itemize} \item Figures (cf. Section \ref{sec:figures}) \item Syntax Highlighting (cf. Section \ref{sec:source code}) \item Tables (cf. Section \ref{sec:tables}) \item and many more. \end{itemize} \section{Equations}\label{sec:equation} $$\label{eq:first} a = bq + r$$ where \eqref{eq:first} is true if $a$ and $b$ are integers with $b \neq c$. \begin{subequations} Maxwell's equations: \begin{align} B'&=-\nabla \times E,\\ E'&=\nabla \times B - 4\pi j, \end{align} \end{subequations} \begin{figure} $$\oint_C {E \cdot d\ell = - \frac{d}{{dt}}} \int_S {B_n dA}$$ \caption{Maxwell's equation - Faraday's law} \end{figure} $$\forall x \in X, \quad \exists y \leq \epsilon$$ \section{Acronyms}\label{sec:acronyms} \ac{ES}-style beamer template of \acs{UAS} Technikum Wien. \section{References}\label{sec:references} \begin{itemize} \item \citet{einstein1905} \item \citet{pentz2004} \item \citet{latexcompanion} \item \citet{daniel1998} \item \citet{knuthwebsite} \item \citet{article, book, booklet} \end{itemize} \section{Textual}\label{sec:textual} \subsection{Itemize}\label{subsec:itemize} \begin{itemize} \item One \item Two \item Three \end{itemize} \subsection{Enumerate}\label{subsec:enumerate} \begin{enumerate} \item One \item Two \item Three \end{enumerate} \subsection{Description}\label{subsec:description} \begin{description} \item [Ant] Ameise \item [Elephant] Elefant \item [Bee] Biene \item [Honey] Honig \end{description} \subsection{Theorem}\label{subsec:theorem} \newtheorem{dummy}{Dummytext} \begin{dummy} \blindtext \end{dummy} \section{Figures}\label{sec:figures} See illustration (Figure \ref{fig:dilbert1}), TikZ example (Figure \ref{fig:mesif}), \texttt{timingtable} (\ref{fig:timingtable}), and another TikZ example (Figure \ref{fig:control-system}). \begin{figure} \centering \includegraphics[width=0.33\textwidth]{dilbert1.pdf}% \includegraphics[width=0.33\textwidth]{dilbert2.pdf}% \includegraphics[width=0.33\textwidth]{dilbert3.pdf} % \caption{\textcopyright~2018 Scott Adams, \url{dilbert.com}} \caption{\textcopyright~2018 Scott Adams, dilbert.com} \label{fig:dilbert1} \end{figure} \begin{figure} \centering % \resizebox {0.75\textwidth} {!} {\input{mesif}} \input{mesif} \caption{MESIF protocol, \textcopyright~Marek Fiser, marekfiser.cz} \label{fig:mesif} \end{figure} \begin{figure} \centering % \resizebox {0.65\textwidth} {!} {\input{timingtable}} \input{timingtable} \caption{SR flip-flop timing diagram}% (provided by the \texttt{timingtable} package)} \label{fig:timingtable} \end{figure} \begin{figure} \centering % \resizebox {0.75\textwidth} {!} {\input{control-system}} \input{control-system} \caption{Control system principle} %, http://www.texample.net/tikz/examples/control-system-principles/} \label{fig:control-system} \end{figure} \section{Source Code}\label{sec:source code} \lstinputlisting[ caption={C Syntax Highlighting}, label=lst:main, ]{main.c} \section{Tables}\label{sec:tables} See simple table (Table \ref{tab:bandgab}, and more advanced, rotated example table (Table \ref{tab:siunits})). \begin{table} \centering \input{bandgab} \caption{The bandgab of some semiconductors.} \label{tab:bandgab} \end{table} \begin{table} \centering \Rotatebox{90}{\resizebox {1.5\textwidth} {!} {\input{siunits}}} \caption{\acs{SI} base units} \label{tab:siunits} \end{table} \cleardoublepage % \biblio{} \bibliolist{} \end{document}