| 4 |
\label{FirstSteps} |
\label{FirstSteps} |
| 5 |
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| 6 |
\begin{figure} |
\begin{figure} |
| 7 |
\centerline{\includegraphics[width=\figwidth]{FirstStepDomain}} |
\centerline{\includegraphics[width=\figwidth]{figures/FirstStepDomain}} |
| 8 |
\caption{Domain $\Omega=[0,1]^2$ with outer normal field $n$.} |
\caption{Domain $\Omega=[0,1]^2$ with outer normal field $n$.} |
| 9 |
\label{fig:FirstSteps.1} |
\label{fig:FirstSteps.1} |
| 10 |
\end{figure} |
\end{figure} |
| 117 |
|
|
| 118 |
|
|
| 119 |
\begin{figure} |
\begin{figure} |
| 120 |
\centerline{\includegraphics[width=\figwidth]{FirstStepMesh}} |
\centerline{\includegraphics[width=\figwidth]{figures/FirstStepMesh.eps}} |
| 121 |
\caption{Mesh of $4 \time 4$ elements on a rectangular domain. Here |
\caption{Mesh of $4 \time 4$ elements on a rectangular domain. Here |
| 122 |
each element is a quadrilateral and described by four nodes, namely |
each element is a quadrilateral and described by four nodes, namely |
| 123 |
the corner points. The solution is interpolated by a bi-linear |
the corner points. The solution is interpolated by a bi-linear |
| 288 |
\LINUX distributions. |
\LINUX distributions. |
| 289 |
|
|
| 290 |
\begin{figure} |
\begin{figure} |
| 291 |
\centerline{\includegraphics[width=\figwidth]{FirstStepResult.eps}} |
\centerline{\includegraphics[width=\figwidth]{figures/FirstStepResult.eps}} |
| 292 |
\caption{Visualization of the Poisson Equation Solution for $f=1$} |
\caption{Visualization of the Poisson Equation Solution for $f=1$} |
| 293 |
\label{fig:FirstSteps.3} |
\label{fig:FirstSteps.3} |
| 294 |
\end{figure} |
\end{figure} |
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