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- \section{Leitwert}
- Der Widerstand des abgebildeten Netzwerkes soll $\uline{Z}=1\,\kilo\ohm\cdot e^{j60\,\degree}$ sein.\\[\baselineskip]
- Wie groß müssen $R$ und $B_C$ sein, wenn $B_L=-3{,}33\,\milli\siemens$ ist?
- \ifthenelse{\equal{\toPrint}{Lösung}}{%
- %\begin{align}
- %\intertext{Formeln:}
- %\text{...noch einfügen...}
- %\end{align}
- \begin{align*}
- \begin{tikzpicture}[scale=3]
- \begin{scope}[>=latex,very thick,xshift=0cm,yshift=1cm]%Widerstand - nach EN 60617
- \draw (0,0)--(.3,0) (.3,-0.0667)rectangle(.7,0.0667) (.7,0)--(1,0)node at (.5,.0667) [above] {$R$};
- \end{scope}
- \begin{scope}[>=latex,very thick,xshift=1cm,yshift=0cm,rotate=90]%Kondensator |
- \draw (0,0)--(.475,0) (.475,-.125)--(.475,.125) (.525,-.125)--(.525,.125) (.525,0)--(1,0)node at (.5,-.133) [right] {$B_C$};
- \end{scope}
- \begin{scope}[>=latex,very thick,xshift=2cm,yshift=0cm,rotate=90]%Spule |
- \draw (0,0)--(.3,0) (.7,0)--(1,0)node at(.5,-.0667) [right] {$B_L$};
- \fill (.3,-0.0667)rectangle(.7,0.0667);
- \end{scope}
- \begin{scope}[>=latex,very thick,xshift=0cm,yshift=0cm]%Fehlstellen Eckverbindungen.
- \draw (.8,1)--(2,1)--(2,.9) (0,0)--(2,0)--(2,.2);
- \end{scope}
- \begin{scope}[>=latex,very thick,xshift=0cm,yshift=0cm]%End Knoten
- \fill (0,0)circle(.02);
- \fill (0,1)circle(.02);
- \draw node at (0,.5)[left] {$\uline{Z}\Rightarrow$};
- \end{scope}
- \end{tikzpicture}
- \end{align*}
- \begin{align*}
- \intertext{Berechnung:}
- \uline{Z}&\stackrel{!}{=}\power{10}{3}\,\ohm\cdot e^{j60\,\degree}\quad\,=(500+j866{,}25)\,\ohm\\
- \uline{Z}&=R+\frac{1}{j(B_C+B_L)}=\,\,\, R\,\,\, -j\frac{1}{(B_C+B_L)}\\[\baselineskip]
- \intertext{$\Re$}
- R&=\uuline{500\,\ohm}\\
- \intertext{$\Im$}
- B_C+B_L&=\frac{-1}{866{,}25}\,\siemens=-1{,}1547\,\milli\siemens\\
- B_C&=-1{,}1547\,\milli\siemens -B_L=-1{,}1547\,\milli\siemens +3{,}33\,\milli\siemens =\uuline{2{,}175\,\milli\siemens}\\
- \end{align*}
- \clearpage
- }{}%
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