\displaystyle p_{c \rightarrow a}(\vec r) = \textcolor[rgb]{0,1,1}{p_{b}} \qquad + \qquad \textcolor{red}{p_{c} \, c_{Kohlenstoff}(\vec r)} \qquad + \textcolor[rgb]{0.5,0.25,0.12}{\sum_{amorphe \, Nachbarn} \frac{p_{s} \, c_{Kohlenstoff}(\vec{r'})}{(\vec r - \vec{r'})^2}} \\
\]
\begin{picture}(70,15)(-28,0)
\displaystyle p_{c \rightarrow a}(\vec r) = \textcolor[rgb]{0,1,1}{p_{b}} \qquad + \qquad \textcolor{red}{p_{c} \, c_{Kohlenstoff}(\vec r)} \qquad + \textcolor[rgb]{0.5,0.25,0.12}{\sum_{amorphe \, Nachbarn} \frac{p_{s} \, c_{Kohlenstoff}(\vec{r'})}{(\vec r - \vec{r'})^2}} \\
\]
\begin{picture}(70,15)(-28,0)