Add SIR chapter
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@ -218,6 +218,21 @@ Eigenwerte $\det(\textbf{J} - \lambda \textbf{I}) = 0$ wobei $\lambda \in \mathb
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\end{itemize}
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\end{itemize}
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\subsection{SIR-Modell}
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SIR: Susceptible-Infected-Recovered \\
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\vspace{10px}
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$\Lambda$: Geburten- oder Immigrationsrate \\
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$\delta_S, \delta_I, \delta_R$: Sterberaten der jeweiligen (Teil-)populationen
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$r$: Erholungsrate von $I$
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$\beta S I$: Mass-action Infektionsrate
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\begin{itemize}
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\item Disease-free equilibrium:
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$$S_f = \Lambda / \delta_S, I_f=0, R_f=0$$
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\item Endemic equilibrium:
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$$S = \frac{\delta_1 + r}{\beta} , I_e=\frac{\Lambda}{\delta_1} - \frac{\delta_S}{\beta}, R_e = \frac{r}{\delta_R}(\frac{\Lambda}{\delta_1 + r} - \frac{\delta_S}{\beta})$$
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\item
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\end{itemize}
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\section{Taylor-Reihe}
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\section{Taylor-Reihe}
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An der stelle $a$ einer Funtkion $f(x)$
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An der stelle $a$ einer Funtkion $f(x)$
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