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Characteristic lines.

  When the initial condition has a singularity such as a jump, it will propagate with speed u, as any other part of the wave. In the x,t-plane, the singularity then propagates along a line with slope dx/dt equal to u. Lines with this slope are called characteristic lines of the PDE. The characteristic lines are shown in figure 7; the characteristic line along which the jump in our example propagates is shown thickened. Figure 8 shows a three-dimensional view of the propagation of the singularity along its characteristic line.


  
Figure 7: Characteristic lines.
\begin{figure} \begin{center} \leavevmode \epsffile{figures/conchar.ps} \end{center}\end{figure}


  
Figure 8: Singularity propagation.
\begin{figure} \begin{center} \leavevmode \epsffile{figures/conchars.ps} \end{center}\end{figure}

Next: The domain and Up: The convection equation. Previous: The propagation velocity.