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diff --git a/macros/latex/contrib/xsim/examples/xsim.golatex-91339.tex b/macros/latex/contrib/xsim/examples/xsim.golatex-91339.tex new file mode 100644 index 0000000000..ae02ca0344 --- /dev/null +++ b/macros/latex/contrib/xsim/examples/xsim.golatex-91339.tex @@ -0,0 +1,93 @@ +% http://golatex.de/viewtopic,p,91339.html +\documentclass[a4paper]{article} +\usepackage[ngerman]{babel} + +\usepackage{xsim,tcolorbox} +\usepackage{amsmath} +\xsimsetup{ + exercise/within = section , + exercise/the-counter = \thesection.\arabic{exercise} , + print-solutions/headings-template=none +} +\SetExerciseParameters{exercise}{ + exercise-template = mine , + solution-template = mine +} + +\DeclareExerciseEnvironmentTemplate{mine} + {% + \tcolorbox[ + % colors: + colback = white , colframe = black , coltitle = black , + % rules: + boxrule = 0pt , toprule = 1pt , bottomrule = 1pt , arc = 0pt , + % spacing: + boxsep = 0pt , left = 0pt , right = 0pt , + % title: + detach title , before upper = \tcbtitle\par\noindent , + fonttitle = \bfseries , + title = \XSIMmixedcase{\GetExerciseName}~\GetExerciseProperty{counter} + ] + } + {\endtcolorbox} + +\DeclareExerciseTranslation{German}{exercise}{Aufgabe} +\DeclareExerciseTagging{difficulty} + +\begin{document} + +\section{Wellenausbreitung im Vakuum und in Materie} +\subsection{Maxwellsche Gleichungen} + +\begin{align*} + \nabla \cdot \vec{E}\left(\vec{r}, t \right) = + \frac{\varrho\left(\vec{r}, t \right)}{\varepsilon_0} +\end{align*} + +\begin{exercise}[difficulty=easy] +Something stupid +\end{exercise} +\begin{solution} +Here is a nonstupid solution for your problem +\end{solution} + +\subsection{Empirischer Zugang zu Wellengleichungen} + +\begin{exercise}[difficulty=hard] +Eine weitere Aufgabe +\end{exercise} +\begin{solution} +Solution Number 2 +\end{solution} + +\subsection*{Lösungen} +\printsolutions[section,difficulty=hard] + +\section{Wellenausbreitung im Vakuum und in Materie} +\subsection{Maxwellsche Gleichungen} + +\begin{align*} + \nabla \cdot \vec{E}\left(\vec{r}, t \right) = + \frac{\varrho\left(\vec{r}, t \right)}{\varepsilon_0} +\end{align*} + +\begin{exercise}[difficulty=easy] +Something stupid +\end{exercise} +\begin{solution} +Here is a nonstupid solution for your problem +\end{solution} + +\subsection{Empirischer Zugang zu Wellengleichungen} + +\begin{exercise}[difficulty=hard] +Eine weitere Aufgabe +\end{exercise} +\begin{solution} +Solution Number 2 +\end{solution} + +\subsection*{Lösungen} +\printsolutions[section] + +\end{document} |