Difference between revisions of "Capacitance and Inductance"

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\section*{Capacitors}
 
\section*{Capacitors}
 +
 +
\begin{figure}
 +
\includegraphics[width=1in]{capacitors.png}
 +
\caption{Some typical capacitors}
 +
\end{figure}
 +
 +
\begin{equation}
 +
C=\frac{Q}{V}
 +
\end{equation}
 +
 +
\begin{equation}
 +
I=C\frac{dV}{dt}
 +
\end{equation}
 +
 +
\subsection*{Capacitors in Series}
 +
 +
\begin{figure}
 +
\includegraphics[width=1in]{capacitors_series.png}
 +
\caption{Capacitors in series}
 +
\end{figure}
 +
 +
Capacitors in series add reciprocally:
 +
\begin{equation}
 +
C = \frac1{\frac1{C_1} + \frac1{C_2} + \dots + \frac1{C_n}}
 +
\end{equation}
 +
 +
\subsection*{Capacitors in Parallel}
 +
 +
\begin{figure}
 +
\includegraphics[width=1in]{capacitors_series.png}
 +
\caption{Capacitors in parallel}
 +
\end{figure}
 +
 +
Capacitors in parallel add:
 +
\begin{equation}
 +
C = C_1 + C_2 + \dots + C_n
 +
\end{equation}
  
 
\section*{Inductors}
 
\section*{Inductors}
  
 
</latex>
 
</latex>

Revision as of 15:08, 29 August 2012

Short Topical Videos

Reference Material

  • Horowitz & Hill, The Art of Electronics, 2nd Ed., Ch. 1

Capacitors

250px


Some typical capacitors

Capacitors in Series

Capacitors series.png


Capacitors in series

Capacitors in series add reciprocally:

Capacitors in Parallel

Capacitors series.png


Capacitors in parallel

Capacitors in parallel add:

Inductors