QB/d cp2.8
< QB
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% BEGIN DOCUMENT
\begin{document}
\title{d\_cp2.8}
\author{The LaTex code that creates this quiz is released to the Public Domain\\
Attribution for each question is documented in the Appendix}
\maketitle
\begin{center}
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\\Latex markup at\\
\footnotesize{ \url{https://en.wikiversity.org/wiki/special:permalink/1893633}}
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\begin{multicols}{3}
\tableofcontents
\end{multicols}
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\pagebreak\section{Quiz}
\keytrue
\printanswers
\begin{questions}
\question An empty parallel-plate capacitor with metal plates has an area of 1.0\,m\textsuperscript{2}, separated by 1.0\,mm. How much charge does it store if the voltage is 3.000E+03\,V?\ifkey\endnote{Example 8.1 from OpenStax University Physics2: https://cnx.org/contents/eg-XcBxE@9.8:FYJxWFC\_@3/81-Capacitors-and-Capacitance\_1 placed in Public Domain by Guy Vandegrift: {\url{https://en.wikiversity.org/wiki/special:permalink/1893633}}}\fi
\begin{choices}
\choice 2.195E+01\,\textmu\ C
\choice 2.415E+01\,\textmu\ C
\CorrectChoice 2.656E+01\,\textmu\ C
\choice 2.922E+01\,\textmu\ C
\choice 3.214E+01\,\textmu\ C
\end{choices}
\question
\includegraphics[width=0.11\textwidth]{Three-cappies-openstax-example.png}What is the net capacitance if C\textsubscript{1}=1\,\textmu\ F, C\textsubscript{2}=5\,\textmu\ F, and C\textsubscript{3}=8\,\textmu\ F in the configuration shown?\ifkey\endnote{Example 8.6 from OpenStax University Physics2: https://cnx.org/contents/eg-XcBxE@9.8:vh\_hjp6Q@2/82-Capacitors-in-Series-and-in\_1 placed in Public Domain by Guy Vandegrift: {\url{https://en.wikiversity.org/wiki/special:permalink/1893633}}}\fi
\begin{choices}
\choice 8.030E+00\,\textmu\ F
\CorrectChoice 8.833E+00\,\textmu\ F
\choice 9.717E+00\,\textmu\ F
\choice 1.069E+01\,\textmu\ F
\choice 1.176E+01\,\textmu\ F
\end{choices}
\question
\includegraphics[width=0.16\textwidth]{DC-circuit-3-cappies1-voltage-source.png}In the figure shown C\textsubscript{1}=12\,\textmu\ F, C\textsubscript{2}=2\,\textmu\ F, and C\textsubscript{3}=4\,\textmu\ F. The voltage source provides \textepsilon\ =12\,V. What is the charge on C\textsubscript{1}?\ifkey\endnote{Example 8.7 from OpenStax University Physics2: https://cnx.org/contents/eg-XcBxE@9.8:vh\_hjp6Q@2/82-Capacitors-in-Series-and-in\_1 placed in Public Domain by Guy Vandegrift: {\url{https://en.wikiversity.org/wiki/special:permalink/1893633}}}\fi
\begin{choices}
\choice 3.606E+01\,\textmu\ C
\choice 3.967E+01\,\textmu\ C
\choice 4.364E+01\,\textmu\ C
\CorrectChoice 4.800E+01\,\textmu\ C
\choice 5.280E+01\,\textmu\ C
\end{choices}
\question
\includegraphics[width=0.16\textwidth]{DC-circuit-3-cappies1-voltage-source.png}In the figure shown C\textsubscript{1}=12\,\textmu\ F, C\textsubscript{2}=2\,\textmu\ F, and C\textsubscript{3}=4\,\textmu\ F. The voltage source provides \textepsilon\ =12\,V. What is the energy stored in C\textsubscript{2}?\ifkey\endnote{Example 8.8 from OpenStax University Physics2: https://cnx.org/contents/eg-XcBxE@9.8:j3ab-X5r@6/83-Energy-Stored-in-a-Capacito\_1 placed in Public Domain by Guy Vandegrift: {\url{https://en.wikiversity.org/wiki/special:permalink/1893633}}}\fi
\begin{choices}
\CorrectChoice 1.600E+01\,\textmu\ J
\choice 1.760E+01\,\textmu\ J
\choice 1.936E+01\,\textmu\ J
\choice 2.130E+01\,\textmu\ J
\choice 2.343E+01\,\textmu\ J
\end{choices}
\end{questions}
\newpage
\section{Renditions} %%% Renditions %%%%
\subsection{}%%%% subsection 1
\begin{questions} %%%%%%% begin questions
\question An empty parallel-plate capacitor with metal plates has an area of 1.89\,m\textsuperscript{2}, separated by 1.36\,mm. How much charge does it store if the voltage is 4.040E+03\,V?
\begin{choices} %%%%%%% begin choices
\choice 3.395E+01\,\textmu\ C
\choice 3.735E+01\,\textmu\ C
\choice 4.108E+01\,\textmu\ C
\choice 4.519E+01\,\textmu\ C
\CorrectChoice 4.971E+01\,\textmu\ C
\end{choices} %%% end choices
\question An empty parallel-plate capacitor with metal plates has an area of 2.84\,m\textsuperscript{2}, separated by 1.42\,mm. How much charge does it store if the voltage is 1.510E+03\,V?
\begin{choices} %%%%%%% begin choices
\choice 1.826E+01\,\textmu\ C
\choice 2.009E+01\,\textmu\ C
\choice 2.210E+01\,\textmu\ C
\choice 2.431E+01\,\textmu\ C
\CorrectChoice 2.674E+01\,\textmu\ C
\end{choices} %%% end choices
\question An empty parallel-plate capacitor with metal plates has an area of 2.02\,m\textsuperscript{2}, separated by 1.44\,mm. How much charge does it store if the voltage is 2.170E+03\,V?
\begin{choices} %%%%%%% begin choices
\choice 2.450E+01\,\textmu\ C
\CorrectChoice 2.695E+01\,\textmu\ C
\choice 2.965E+01\,\textmu\ C
\choice 3.261E+01\,\textmu\ C
\choice 3.587E+01\,\textmu\ C
\end{choices} %%% end choices
\question An empty parallel-plate capacitor with metal plates has an area of 1.94\,m\textsuperscript{2}, separated by 1.36\,mm. How much charge does it store if the voltage is 8.530E+03\,V?
\begin{choices} %%%%%%% begin choices
\choice 7.359E+01\,\textmu\ C
\choice 8.094E+01\,\textmu\ C
\choice 8.904E+01\,\textmu\ C
\choice 9.794E+01\,\textmu\ C
\CorrectChoice 1.077E+02\,\textmu\ C
\end{choices} %%% end choices
\question An empty parallel-plate capacitor with metal plates has an area of 2.59\,m\textsuperscript{2}, separated by 1.23\,mm. How much charge does it store if the voltage is 2.200E+03\,V?
\begin{choices} %%%%%%% begin choices
\choice 3.082E+01\,\textmu\ C
\choice 3.390E+01\,\textmu\ C
\choice 3.729E+01\,\textmu\ C
\CorrectChoice 4.102E+01\,\textmu\ C
\choice 4.512E+01\,\textmu\ C
\end{choices} %%% end choices
\question An empty parallel-plate capacitor with metal plates has an area of 2.82\,m\textsuperscript{2}, separated by 1.29\,mm. How much charge does it store if the voltage is 7.420E+03\,V?
\begin{choices} %%%%%%% begin choices
\choice 1.187E+02\,\textmu\ C
\choice 1.306E+02\,\textmu\ C
\CorrectChoice 1.436E+02\,\textmu\ C
\choice 1.580E+02\,\textmu\ C
\choice 1.738E+02\,\textmu\ C
\end{choices} %%% end choices
\question An empty parallel-plate capacitor with metal plates has an area of 2.83\,m\textsuperscript{2}, separated by 1.14\,mm. How much charge does it store if the voltage is 4.180E+03\,V?
\begin{choices} %%%%%%% begin choices
\choice 6.275E+01\,\textmu\ C
\choice 6.903E+01\,\textmu\ C
\choice 7.593E+01\,\textmu\ C
\choice 8.352E+01\,\textmu\ C
\CorrectChoice 9.188E+01\,\textmu\ C
\end{choices} %%% end choices
\question An empty parallel-plate capacitor with metal plates has an area of 2.21\,m\textsuperscript{2}, separated by 1.25\,mm. How much charge does it store if the voltage is 1.580E+03\,V?
\begin{choices} %%%%%%% begin choices
\choice 2.249E+01\,\textmu\ C
\CorrectChoice 2.473E+01\,\textmu\ C
\choice 2.721E+01\,\textmu\ C
\choice 2.993E+01\,\textmu\ C
\choice 3.292E+01\,\textmu\ C
\end{choices} %%% end choices
\question An empty parallel-plate capacitor with metal plates has an area of 2.51\,m\textsuperscript{2}, separated by 1.44\,mm. How much charge does it store if the voltage is 2.230E+03\,V?
\begin{choices} %%%%%%% begin choices
\choice 2.351E+01\,\textmu\ C
\choice 2.586E+01\,\textmu\ C
\choice 2.844E+01\,\textmu\ C
\choice 3.129E+01\,\textmu\ C
\CorrectChoice 3.442E+01\,\textmu\ C
\end{choices} %%% end choices
\question An empty parallel-plate capacitor with metal plates has an area of 2.42\,m\textsuperscript{2}, separated by 1.33\,mm. How much charge does it store if the voltage is 1.130E+03\,V?
\begin{choices} %%%%%%% begin choices
\choice 1.368E+01\,\textmu\ C
\choice 1.505E+01\,\textmu\ C
\choice 1.655E+01\,\textmu\ C
\CorrectChoice 1.820E+01\,\textmu\ C
\choice 2.003E+01\,\textmu\ C
\end{choices} %%% end choices
\question An empty parallel-plate capacitor with metal plates has an area of 2.45\,m\textsuperscript{2}, separated by 1.18\,mm. How much charge does it store if the voltage is 4.060E+03\,V?
\begin{choices} %%%%%%% begin choices
\choice 5.608E+01\,\textmu\ C
\choice 6.168E+01\,\textmu\ C
\choice 6.785E+01\,\textmu\ C
\CorrectChoice 7.464E+01\,\textmu\ C
\choice 8.210E+01\,\textmu\ C
\end{choices} %%% end choices
\question An empty parallel-plate capacitor with metal plates has an area of 2.78\,m\textsuperscript{2}, separated by 1.16\,mm. How much charge does it store if the voltage is 8.980E+03\,V?
\begin{choices} %%%%%%% begin choices
\choice 1.432E+02\,\textmu\ C
\choice 1.575E+02\,\textmu\ C
\choice 1.732E+02\,\textmu\ C
\CorrectChoice 1.906E+02\,\textmu\ C
\choice 2.096E+02\,\textmu\ C
\end{choices} %%% end choices
\question An empty parallel-plate capacitor with metal plates has an area of 1.94\,m\textsuperscript{2}, separated by 1.27\,mm. How much charge does it store if the voltage is 8.780E+03\,V?
\begin{choices} %%%%%%% begin choices
\choice 1.080E+02\,\textmu\ C
\CorrectChoice 1.188E+02\,\textmu\ C
\choice 1.306E+02\,\textmu\ C
\choice 1.437E+02\,\textmu\ C
\choice 1.581E+02\,\textmu\ C
\end{choices} %%% end choices
\question An empty parallel-plate capacitor with metal plates has an area of 1.73\,m\textsuperscript{2}, separated by 1.16\,mm. How much charge does it store if the voltage is 1.130E+03\,V?
\begin{choices} %%%%%%% begin choices
\choice 1.121E+01\,\textmu\ C
\choice 1.233E+01\,\textmu\ C
\choice 1.357E+01\,\textmu\ C
\CorrectChoice 1.492E+01\,\textmu\ C
\choice 1.641E+01\,\textmu\ C
\end{choices} %%% end choices
\question An empty parallel-plate capacitor with metal plates has an area of 1.81\,m\textsuperscript{2}, separated by 1.26\,mm. How much charge does it store if the voltage is 4.610E+03\,V?
\begin{choices} %%%%%%% begin choices
\choice 4.005E+01\,\textmu\ C
\choice 4.405E+01\,\textmu\ C
\choice 4.846E+01\,\textmu\ C
\choice 5.330E+01\,\textmu\ C
\CorrectChoice 5.864E+01\,\textmu\ C
\end{choices} %%% end choices
\question An empty parallel-plate capacitor with metal plates has an area of 2.1\,m\textsuperscript{2}, separated by 1.13\,mm. How much charge does it store if the voltage is 1.680E+03\,V?
\begin{choices} %%%%%%% begin choices
\CorrectChoice 2.764E+01\,\textmu\ C
\choice 3.041E+01\,\textmu\ C
\choice 3.345E+01\,\textmu\ C
\choice 3.679E+01\,\textmu\ C
\choice 4.047E+01\,\textmu\ C
\end{choices} %%% end choices
\question An empty parallel-plate capacitor with metal plates has an area of 2.04\,m\textsuperscript{2}, separated by 1.21\,mm. How much charge does it store if the voltage is 7.730E+03\,V?
\begin{choices} %%%%%%% begin choices
\choice 1.049E+02\,\textmu\ C
\CorrectChoice 1.154E+02\,\textmu\ C
\choice 1.269E+02\,\textmu\ C
\choice 1.396E+02\,\textmu\ C
\choice 1.536E+02\,\textmu\ C
\end{choices} %%% end choices
\question An empty parallel-plate capacitor with metal plates has an area of 2.16\,m\textsuperscript{2}, separated by 1.12\,mm. How much charge does it store if the voltage is 1.530E+03\,V?
\begin{choices} %%%%%%% begin choices
\choice 2.375E+01\,\textmu\ C
\CorrectChoice 2.613E+01\,\textmu\ C
\choice 2.874E+01\,\textmu\ C
\choice 3.161E+01\,\textmu\ C
\choice 3.477E+01\,\textmu\ C
\end{choices} %%% end choices
\question An empty parallel-plate capacitor with metal plates has an area of 2.66\,m\textsuperscript{2}, separated by 1.18\,mm. How much charge does it store if the voltage is 6.170E+03\,V?
\begin{choices} %%%%%%% begin choices
\CorrectChoice 1.231E+02\,\textmu\ C
\choice 1.355E+02\,\textmu\ C
\choice 1.490E+02\,\textmu\ C
\choice 1.639E+02\,\textmu\ C
\choice 1.803E+02\,\textmu\ C
\end{choices} %%% end choices
%\pagebreak
%\end{choices}%??????????????
\end{questions}%%%%%%%% end questions
\subsection{}%%%% subsection 2
\begin{questions} %%%%%%% begin questions
\question
\includegraphics[width=0.11\textwidth]{Three-cappies-openstax-example.png}What is the net capacitance if C\textsubscript{1}=4.41\,\textmu\ F, C\textsubscript{2}=4.54\,\textmu\ F, and C\textsubscript{3}=2.91\,\textmu\ F in the configuration shown?
\begin{choices} %%%%%%% begin choices
\choice 3.515E+00\,\textmu\ F
\choice 3.867E+00\,\textmu\ F
\choice 4.254E+00\,\textmu\ F
\choice 4.679E+00\,\textmu\ F
\CorrectChoice 5.147E+00\,\textmu\ F
\end{choices} %%% end choices
\question
\includegraphics[width=0.11\textwidth]{Three-cappies-openstax-example.png}What is the net capacitance if C\textsubscript{1}=2.49\,\textmu\ F, C\textsubscript{2}=4.24\,\textmu\ F, and C\textsubscript{3}=2.96\,\textmu\ F in the configuration shown?
\begin{choices} %%%%%%% begin choices
\choice 4.117E+00\,\textmu\ F
\CorrectChoice 4.529E+00\,\textmu\ F
\choice 4.982E+00\,\textmu\ F
\choice 5.480E+00\,\textmu\ F
\choice 6.028E+00\,\textmu\ F
\end{choices} %%% end choices
\question
\includegraphics[width=0.11\textwidth]{Three-cappies-openstax-example.png}What is the net capacitance if C\textsubscript{1}=4.12\,\textmu\ F, C\textsubscript{2}=3.45\,\textmu\ F, and C\textsubscript{3}=3.41\,\textmu\ F in the configuration shown?
\begin{choices} %%%%%%% begin choices
\choice 4.370E+00\,\textmu\ F
\choice 4.807E+00\,\textmu\ F
\CorrectChoice 5.288E+00\,\textmu\ F
\choice 5.816E+00\,\textmu\ F
\choice 6.398E+00\,\textmu\ F
\end{choices} %%% end choices
\question
\includegraphics[width=0.11\textwidth]{Three-cappies-openstax-example.png}What is the net capacitance if C\textsubscript{1}=3.56\,\textmu\ F, C\textsubscript{2}=4.23\,\textmu\ F, and C\textsubscript{3}=2.61\,\textmu\ F in the configuration shown?
\begin{choices} %%%%%%% begin choices
\choice 3.755E+00\,\textmu\ F
\choice 4.130E+00\,\textmu\ F
\CorrectChoice 4.543E+00\,\textmu\ F
\choice 4.997E+00\,\textmu\ F
\choice 5.497E+00\,\textmu\ F
\end{choices} %%% end choices
\question
\includegraphics[width=0.11\textwidth]{Three-cappies-openstax-example.png}What is the net capacitance if C\textsubscript{1}=4.7\,\textmu\ F, C\textsubscript{2}=4.82\,\textmu\ F, and C\textsubscript{3}=3.61\,\textmu\ F in the configuration shown?
\begin{choices} %%%%%%% begin choices
\choice 5.445E+00\,\textmu\ F
\CorrectChoice 5.990E+00\,\textmu\ F
\choice 6.589E+00\,\textmu\ F
\choice 7.247E+00\,\textmu\ F
\choice 7.972E+00\,\textmu\ F
\end{choices} %%% end choices
\question
\includegraphics[width=0.11\textwidth]{Three-cappies-openstax-example.png}What is the net capacitance if C\textsubscript{1}=2.24\,\textmu\ F, C\textsubscript{2}=4.86\,\textmu\ F, and C\textsubscript{3}=3.64\,\textmu\ F in the configuration shown?
\begin{choices} %%%%%%% begin choices
\choice 4.275E+00\,\textmu\ F
\choice 4.703E+00\,\textmu\ F
\CorrectChoice 5.173E+00\,\textmu\ F
\choice 5.691E+00\,\textmu\ F
\choice 6.260E+00\,\textmu\ F
\end{choices} %%% end choices
\question
\includegraphics[width=0.11\textwidth]{Three-cappies-openstax-example.png}What is the net capacitance if C\textsubscript{1}=4.13\,\textmu\ F, C\textsubscript{2}=3.56\,\textmu\ F, and C\textsubscript{3}=3.57\,\textmu\ F in the configuration shown?
\begin{choices} %%%%%%% begin choices
\CorrectChoice 5.482E+00\,\textmu\ F
\choice 6.030E+00\,\textmu\ F
\choice 6.633E+00\,\textmu\ F
\choice 7.296E+00\,\textmu\ F
\choice 8.026E+00\,\textmu\ F
\end{choices} %%% end choices
\question
\includegraphics[width=0.11\textwidth]{Three-cappies-openstax-example.png}What is the net capacitance if C\textsubscript{1}=2.55\,\textmu\ F, C\textsubscript{2}=4.13\,\textmu\ F, and C\textsubscript{3}=2.5\,\textmu\ F in the configuration shown?
\begin{choices} %%%%%%% begin choices
\CorrectChoice 4.077E+00\,\textmu\ F
\choice 4.484E+00\,\textmu\ F
\choice 4.933E+00\,\textmu\ F
\choice 5.426E+00\,\textmu\ F
\choice 5.969E+00\,\textmu\ F
\end{choices} %%% end choices
\question
\includegraphics[width=0.11\textwidth]{Three-cappies-openstax-example.png}What is the net capacitance if C\textsubscript{1}=4.75\,\textmu\ F, C\textsubscript{2}=2.77\,\textmu\ F, and C\textsubscript{3}=2.47\,\textmu\ F in the configuration shown?
\begin{choices} %%%%%%% begin choices
\CorrectChoice 4.220E+00\,\textmu\ F
\choice 4.642E+00\,\textmu\ F
\choice 5.106E+00\,\textmu\ F
\choice 5.616E+00\,\textmu\ F
\choice 6.178E+00\,\textmu\ F
\end{choices} %%% end choices
\question
\includegraphics[width=0.11\textwidth]{Three-cappies-openstax-example.png}What is the net capacitance if C\textsubscript{1}=3.97\,\textmu\ F, C\textsubscript{2}=3.51\,\textmu\ F, and C\textsubscript{3}=2.18\,\textmu\ F in the configuration shown?
\begin{choices} %%%%%%% begin choices
\choice 3.038E+00\,\textmu\ F
\choice 3.341E+00\,\textmu\ F
\choice 3.675E+00\,\textmu\ F
\CorrectChoice 4.043E+00\,\textmu\ F
\choice 4.447E+00\,\textmu\ F
\end{choices} %%% end choices
\question
\includegraphics[width=0.11\textwidth]{Three-cappies-openstax-example.png}What is the net capacitance if C\textsubscript{1}=4.55\,\textmu\ F, C\textsubscript{2}=4.39\,\textmu\ F, and C\textsubscript{3}=3.32\,\textmu\ F in the configuration shown?
\begin{choices} %%%%%%% begin choices
\choice 4.173E+00\,\textmu\ F
\choice 4.590E+00\,\textmu\ F
\choice 5.049E+00\,\textmu\ F
\CorrectChoice 5.554E+00\,\textmu\ F
\choice 6.110E+00\,\textmu\ F
\end{choices} %%% end choices
\question
\includegraphics[width=0.11\textwidth]{Three-cappies-openstax-example.png}What is the net capacitance if C\textsubscript{1}=3.54\,\textmu\ F, C\textsubscript{2}=3.53\,\textmu\ F, and C\textsubscript{3}=3.65\,\textmu\ F in the configuration shown?
\begin{choices} %%%%%%% begin choices
\choice 3.700E+00\,\textmu\ F
\choice 4.070E+00\,\textmu\ F
\choice 4.477E+00\,\textmu\ F
\choice 4.925E+00\,\textmu\ F
\CorrectChoice 5.417E+00\,\textmu\ F
\end{choices} %%% end choices
\question
\includegraphics[width=0.11\textwidth]{Three-cappies-openstax-example.png}What is the net capacitance if C\textsubscript{1}=2.3\,\textmu\ F, C\textsubscript{2}=2.84\,\textmu\ F, and C\textsubscript{3}=3.41\,\textmu\ F in the configuration shown?
\begin{choices} %%%%%%% begin choices
\choice 4.255E+00\,\textmu\ F
\CorrectChoice 4.681E+00\,\textmu\ F
\choice 5.149E+00\,\textmu\ F
\choice 5.664E+00\,\textmu\ F
\choice 6.230E+00\,\textmu\ F
\end{choices} %%% end choices
\question
\includegraphics[width=0.11\textwidth]{Three-cappies-openstax-example.png}What is the net capacitance if C\textsubscript{1}=2.96\,\textmu\ F, C\textsubscript{2}=3.95\,\textmu\ F, and C\textsubscript{3}=3.74\,\textmu\ F in the configuration shown?
\begin{choices} %%%%%%% begin choices
\choice 4.489E+00\,\textmu\ F
\choice 4.938E+00\,\textmu\ F
\CorrectChoice 5.432E+00\,\textmu\ F
\choice 5.975E+00\,\textmu\ F
\choice 6.573E+00\,\textmu\ F
\end{choices} %%% end choices
\question
\includegraphics[width=0.11\textwidth]{Three-cappies-openstax-example.png}What is the net capacitance if C\textsubscript{1}=3.27\,\textmu\ F, C\textsubscript{2}=2.87\,\textmu\ F, and C\textsubscript{3}=3.23\,\textmu\ F in the configuration shown?
\begin{choices} %%%%%%% begin choices
\choice 3.250E+00\,\textmu\ F
\choice 3.575E+00\,\textmu\ F
\choice 3.933E+00\,\textmu\ F
\choice 4.326E+00\,\textmu\ F
\CorrectChoice 4.758E+00\,\textmu\ F
\end{choices} %%% end choices
\question
\includegraphics[width=0.11\textwidth]{Three-cappies-openstax-example.png}What is the net capacitance if C\textsubscript{1}=2.25\,\textmu\ F, C\textsubscript{2}=4.16\,\textmu\ F, and C\textsubscript{3}=2.49\,\textmu\ F in the configuration shown?
\begin{choices} %%%%%%% begin choices
\choice 2.698E+00\,\textmu\ F
\choice 2.968E+00\,\textmu\ F
\choice 3.265E+00\,\textmu\ F
\choice 3.591E+00\,\textmu\ F
\CorrectChoice 3.950E+00\,\textmu\ F
\end{choices} %%% end choices
\question
\includegraphics[width=0.11\textwidth]{Three-cappies-openstax-example.png}What is the net capacitance if C\textsubscript{1}=3.25\,\textmu\ F, C\textsubscript{2}=4.87\,\textmu\ F, and C\textsubscript{3}=2.19\,\textmu\ F in the configuration shown?
\begin{choices} %%%%%%% begin choices
\CorrectChoice 4.139E+00\,\textmu\ F
\choice 4.553E+00\,\textmu\ F
\choice 5.008E+00\,\textmu\ F
\choice 5.509E+00\,\textmu\ F
\choice 6.060E+00\,\textmu\ F
\end{choices} %%% end choices
\question
\includegraphics[width=0.11\textwidth]{Three-cappies-openstax-example.png}What is the net capacitance if C\textsubscript{1}=3.06\,\textmu\ F, C\textsubscript{2}=3.09\,\textmu\ F, and C\textsubscript{3}=2.48\,\textmu\ F in the configuration shown?
\begin{choices} %%%%%%% begin choices
\choice 3.018E+00\,\textmu\ F
\choice 3.320E+00\,\textmu\ F
\choice 3.652E+00\,\textmu\ F
\CorrectChoice 4.017E+00\,\textmu\ F
\choice 4.419E+00\,\textmu\ F
\end{choices} %%% end choices
\question
\includegraphics[width=0.11\textwidth]{Three-cappies-openstax-example.png}What is the net capacitance if C\textsubscript{1}=3.13\,\textmu\ F, C\textsubscript{2}=2.28\,\textmu\ F, and C\textsubscript{3}=2.59\,\textmu\ F in the configuration shown?
\begin{choices} %%%%%%% begin choices
\choice 3.231E+00\,\textmu\ F
\choice 3.554E+00\,\textmu\ F
\CorrectChoice 3.909E+00\,\textmu\ F
\choice 4.300E+00\,\textmu\ F
\choice 4.730E+00\,\textmu\ F
\end{choices} %%% end choices
%\pagebreak
%\end{choices}%??????????????
\end{questions}%%%%%%%% end questions
\subsection{}%%%% subsection 3
\begin{questions} %%%%%%% begin questions
\question
\includegraphics[width=0.16\textwidth]{DC-circuit-3-cappies1-voltage-source.png}In the figure shown C\textsubscript{1}=17.6\,\textmu\ F, C\textsubscript{2}=2.19\,\textmu\ F, and C\textsubscript{3}=5.84\,\textmu\ F. The voltage source provides \textepsilon\ =5.4\,V. What is the charge on C\textsubscript{1}?
\begin{choices} %%%%%%% begin choices
\choice 2.707E+01\,\textmu\ C
\CorrectChoice 2.978E+01\,\textmu\ C
\choice 3.275E+01\,\textmu\ C
\choice 3.603E+01\,\textmu\ C
\choice 3.963E+01\,\textmu\ C
\end{choices} %%% end choices
\question
\includegraphics[width=0.16\textwidth]{DC-circuit-3-cappies1-voltage-source.png}In the figure shown C\textsubscript{1}=19.0\,\textmu\ F, C\textsubscript{2}=2.35\,\textmu\ F, and C\textsubscript{3}=5.22\,\textmu\ F. The voltage source provides \textepsilon\ =6.01\,V. What is the charge on C\textsubscript{1}?
\begin{choices} %%%%%%% begin choices
\choice 2.444E+01\,\textmu\ C
\choice 2.689E+01\,\textmu\ C
\choice 2.958E+01\,\textmu\ C
\CorrectChoice 3.253E+01\,\textmu\ C
\choice 3.579E+01\,\textmu\ C
\end{choices} %%% end choices
\question
\includegraphics[width=0.16\textwidth]{DC-circuit-3-cappies1-voltage-source.png}In the figure shown C\textsubscript{1}=17.5\,\textmu\ F, C\textsubscript{2}=2.63\,\textmu\ F, and C\textsubscript{3}=5.76\,\textmu\ F. The voltage source provides \textepsilon\ =15.9\,V. What is the charge on C\textsubscript{1}?
\begin{choices} %%%%%%% begin choices
\choice 8.197E+01\,\textmu\ C
\CorrectChoice 9.017E+01\,\textmu\ C
\choice 9.919E+01\,\textmu\ C
\choice 1.091E+02\,\textmu\ C
\choice 1.200E+02\,\textmu\ C
\end{choices} %%% end choices
\question
\includegraphics[width=0.16\textwidth]{DC-circuit-3-cappies1-voltage-source.png}In the figure shown C\textsubscript{1}=15.4\,\textmu\ F, C\textsubscript{2}=2.22\,\textmu\ F, and C\textsubscript{3}=4.77\,\textmu\ F. The voltage source provides \textepsilon\ =6.8\,V. What is the charge on C\textsubscript{1}?
\begin{choices} %%%%%%% begin choices
\choice 2.702E+01\,\textmu\ C
\choice 2.972E+01\,\textmu\ C
\CorrectChoice 3.269E+01\,\textmu\ C
\choice 3.596E+01\,\textmu\ C
\choice 3.956E+01\,\textmu\ C
\end{choices} %%% end choices
\question
\includegraphics[width=0.16\textwidth]{DC-circuit-3-cappies1-voltage-source.png}In the figure shown C\textsubscript{1}=17.9\,\textmu\ F, C\textsubscript{2}=2.76\,\textmu\ F, and C\textsubscript{3}=5.12\,\textmu\ F. The voltage source provides \textepsilon\ =13.2\,V. What is the charge on C\textsubscript{1}?
\begin{choices} %%%%%%% begin choices
\choice 5.969E+01\,\textmu\ C
\choice 6.566E+01\,\textmu\ C
\CorrectChoice 7.222E+01\,\textmu\ C
\choice 7.944E+01\,\textmu\ C
\choice 8.739E+01\,\textmu\ C
\end{choices} %%% end choices
\question
\includegraphics[width=0.16\textwidth]{DC-circuit-3-cappies1-voltage-source.png}In the figure shown C\textsubscript{1}=19.4\,\textmu\ F, C\textsubscript{2}=2.49\,\textmu\ F, and C\textsubscript{3}=4.17\,\textmu\ F. The voltage source provides \textepsilon\ =6.35\,V. What is the charge on C\textsubscript{1}?
\begin{choices} %%%%%%% begin choices
\choice 2.602E+01\,\textmu\ C
\choice 2.862E+01\,\textmu\ C
\CorrectChoice 3.148E+01\,\textmu\ C
\choice 3.463E+01\,\textmu\ C
\choice 3.809E+01\,\textmu\ C
\end{choices} %%% end choices
\question
\includegraphics[width=0.16\textwidth]{DC-circuit-3-cappies1-voltage-source.png}In the figure shown C\textsubscript{1}=19.2\,\textmu\ F, C\textsubscript{2}=2.86\,\textmu\ F, and C\textsubscript{3}=5.03\,\textmu\ F. The voltage source provides \textepsilon\ =9.46\,V. What is the charge on C\textsubscript{1}?
\begin{choices} %%%%%%% begin choices
\choice 4.809E+01\,\textmu\ C
\CorrectChoice 5.290E+01\,\textmu\ C
\choice 5.819E+01\,\textmu\ C
\choice 6.401E+01\,\textmu\ C
\choice 7.041E+01\,\textmu\ C
\end{choices} %%% end choices
\question
\includegraphics[width=0.16\textwidth]{DC-circuit-3-cappies1-voltage-source.png}In the figure shown C\textsubscript{1}=19.9\,\textmu\ F, C\textsubscript{2}=2.25\,\textmu\ F, and C\textsubscript{3}=4.75\,\textmu\ F. The voltage source provides \textepsilon\ =6.93\,V. What is the charge on C\textsubscript{1}?
\begin{choices} %%%%%%% begin choices
\choice 2.451E+01\,\textmu\ C
\choice 2.696E+01\,\textmu\ C
\choice 2.966E+01\,\textmu\ C
\choice 3.262E+01\,\textmu\ C
\CorrectChoice 3.589E+01\,\textmu\ C
\end{choices} %%% end choices
\question
\includegraphics[width=0.16\textwidth]{DC-circuit-3-cappies1-voltage-source.png}In the figure shown C\textsubscript{1}=16.0\,\textmu\ F, C\textsubscript{2}=2.27\,\textmu\ F, and C\textsubscript{3}=4.4\,\textmu\ F. The voltage source provides \textepsilon\ =7.11\,V. What is the charge on C\textsubscript{1}?
\begin{choices} %%%%%%% begin choices
\choice 2.515E+01\,\textmu\ C
\choice 2.766E+01\,\textmu\ C
\choice 3.043E+01\,\textmu\ C
\CorrectChoice 3.347E+01\,\textmu\ C
\choice 3.682E+01\,\textmu\ C
\end{choices} %%% end choices
\question
\includegraphics[width=0.16\textwidth]{DC-circuit-3-cappies1-voltage-source.png}In the figure shown C\textsubscript{1}=19.6\,\textmu\ F, C\textsubscript{2}=2.15\,\textmu\ F, and C\textsubscript{3}=5.36\,\textmu\ F. The voltage source provides \textepsilon\ =11.6\,V. What is the charge on C\textsubscript{1}?
\begin{choices} %%%%%%% begin choices
\CorrectChoice 6.298E+01\,\textmu\ C
\choice 6.928E+01\,\textmu\ C
\choice 7.621E+01\,\textmu\ C
\choice 8.383E+01\,\textmu\ C
\choice 9.221E+01\,\textmu\ C
\end{choices} %%% end choices
\question
\includegraphics[width=0.16\textwidth]{DC-circuit-3-cappies1-voltage-source.png}In the figure shown C\textsubscript{1}=15.0\,\textmu\ F, C\textsubscript{2}=2.65\,\textmu\ F, and C\textsubscript{3}=5.67\,\textmu\ F. The voltage source provides \textepsilon\ =7.44\,V. What is the charge on C\textsubscript{1}?
\begin{choices} %%%%%%% begin choices
\CorrectChoice 3.982E+01\,\textmu\ C
\choice 4.380E+01\,\textmu\ C
\choice 4.818E+01\,\textmu\ C
\choice 5.300E+01\,\textmu\ C
\choice 5.829E+01\,\textmu\ C
\end{choices} %%% end choices
\question
\includegraphics[width=0.16\textwidth]{DC-circuit-3-cappies1-voltage-source.png}In the figure shown C\textsubscript{1}=17.9\,\textmu\ F, C\textsubscript{2}=2.71\,\textmu\ F, and C\textsubscript{3}=4.14\,\textmu\ F. The voltage source provides \textepsilon\ =7.12\,V. What is the charge on C\textsubscript{1}?
\begin{choices} %%%%%%% begin choices
\CorrectChoice 3.527E+01\,\textmu\ C
\choice 3.880E+01\,\textmu\ C
\choice 4.268E+01\,\textmu\ C
\choice 4.695E+01\,\textmu\ C
\choice 5.164E+01\,\textmu\ C
\end{choices} %%% end choices
\question
\includegraphics[width=0.16\textwidth]{DC-circuit-3-cappies1-voltage-source.png}In the figure shown C\textsubscript{1}=17.7\,\textmu\ F, C\textsubscript{2}=2.5\,\textmu\ F, and C\textsubscript{3}=5.0\,\textmu\ F. The voltage source provides \textepsilon\ =12.8\,V. What is the charge on C\textsubscript{1}?
\begin{choices} %%%%%%% begin choices
\choice 5.066E+01\,\textmu\ C
\choice 5.573E+01\,\textmu\ C
\choice 6.130E+01\,\textmu\ C
\CorrectChoice 6.743E+01\,\textmu\ C
\choice 7.417E+01\,\textmu\ C
\end{choices} %%% end choices
\question
\includegraphics[width=0.16\textwidth]{DC-circuit-3-cappies1-voltage-source.png}In the figure shown C\textsubscript{1}=17.1\,\textmu\ F, C\textsubscript{2}=2.87\,\textmu\ F, and C\textsubscript{3}=4.74\,\textmu\ F. The voltage source provides \textepsilon\ =6.63\,V. What is the charge on C\textsubscript{1}?
\begin{choices} %%%%%%% begin choices
\choice 2.385E+01\,\textmu\ C
\choice 2.623E+01\,\textmu\ C
\choice 2.886E+01\,\textmu\ C
\choice 3.174E+01\,\textmu\ C
\CorrectChoice 3.492E+01\,\textmu\ C
\end{choices} %%% end choices
\question
\includegraphics[width=0.16\textwidth]{DC-circuit-3-cappies1-voltage-source.png}In the figure shown C\textsubscript{1}=16.9\,\textmu\ F, C\textsubscript{2}=2.3\,\textmu\ F, and C\textsubscript{3}=4.67\,\textmu\ F. The voltage source provides \textepsilon\ =13.4\,V. What is the charge on C\textsubscript{1}?
\begin{choices} %%%%%%% begin choices
\choice 6.011E+01\,\textmu\ C
\CorrectChoice 6.613E+01\,\textmu\ C
\choice 7.274E+01\,\textmu\ C
\choice 8.001E+01\,\textmu\ C
\choice 8.801E+01\,\textmu\ C
\end{choices} %%% end choices
\question
\includegraphics[width=0.16\textwidth]{DC-circuit-3-cappies1-voltage-source.png}In the figure shown C\textsubscript{1}=18.0\,\textmu\ F, C\textsubscript{2}=2.88\,\textmu\ F, and C\textsubscript{3}=5.34\,\textmu\ F. The voltage source provides \textepsilon\ =11.9\,V. What is the charge on C\textsubscript{1}?
\begin{choices} %%%%%%% begin choices
\choice 5.045E+01\,\textmu\ C
\choice 5.550E+01\,\textmu\ C
\choice 6.105E+01\,\textmu\ C
\CorrectChoice 6.715E+01\,\textmu\ C
\choice 7.387E+01\,\textmu\ C
\end{choices} %%% end choices
\question
\includegraphics[width=0.16\textwidth]{DC-circuit-3-cappies1-voltage-source.png}In the figure shown C\textsubscript{1}=20.6\,\textmu\ F, C\textsubscript{2}=2.38\,\textmu\ F, and C\textsubscript{3}=5.66\,\textmu\ F. The voltage source provides \textepsilon\ =12.6\,V. What is the charge on C\textsubscript{1}?
\begin{choices} %%%%%%% begin choices
\choice 5.474E+01\,\textmu\ C
\choice 6.022E+01\,\textmu\ C
\choice 6.624E+01\,\textmu\ C
\CorrectChoice 7.287E+01\,\textmu\ C
\choice 8.015E+01\,\textmu\ C
\end{choices} %%% end choices
\question
\includegraphics[width=0.16\textwidth]{DC-circuit-3-cappies1-voltage-source.png}In the figure shown C\textsubscript{1}=15.4\,\textmu\ F, C\textsubscript{2}=2.83\,\textmu\ F, and C\textsubscript{3}=4.99\,\textmu\ F. The voltage source provides \textepsilon\ =6.51\,V. What is the charge on C\textsubscript{1}?
\begin{choices} %%%%%%% begin choices
\choice 2.306E+01\,\textmu\ C
\choice 2.537E+01\,\textmu\ C
\choice 2.790E+01\,\textmu\ C
\choice 3.069E+01\,\textmu\ C
\CorrectChoice 3.376E+01\,\textmu\ C
\end{choices} %%% end choices
\question
\includegraphics[width=0.16\textwidth]{DC-circuit-3-cappies1-voltage-source.png}In the figure shown C\textsubscript{1}=17.8\,\textmu\ F, C\textsubscript{2}=2.22\,\textmu\ F, and C\textsubscript{3}=5.71\,\textmu\ F. The voltage source provides \textepsilon\ =13.9\,V. What is the charge on C\textsubscript{1}?
\begin{choices} %%%%%%% begin choices
\CorrectChoice 7.625E+01\,\textmu\ C
\choice 8.388E+01\,\textmu\ C
\choice 9.227E+01\,\textmu\ C
\choice 1.015E+02\,\textmu\ C
\choice 1.116E+02\,\textmu\ C
\end{choices} %%% end choices
%\pagebreak
%\end{choices}%??????????????
\end{questions}%%%%%%%% end questions
\subsection{}%%%% subsection 4
\begin{questions} %%%%%%% begin questions
\question
\includegraphics[width=0.16\textwidth]{DC-circuit-3-cappies1-voltage-source.png}In the figure shown C\textsubscript{1}=15.5\,\textmu\ F, C\textsubscript{2}=2.72\,\textmu\ F, and C\textsubscript{3}=5.1\,\textmu\ F. The voltage source provides \textepsilon\ =5.89\,V. What is the energy stored in C\textsubscript{2}?
\begin{choices} %%%%%%% begin choices
\choice 8.800E+00\,\textmu\ J
\choice 9.680E+00\,\textmu\ J
\CorrectChoice 1.065E+01\,\textmu\ J
\choice 1.171E+01\,\textmu\ J
\choice 1.288E+01\,\textmu\ J
\end{choices} %%% end choices
\question
\includegraphics[width=0.16\textwidth]{DC-circuit-3-cappies1-voltage-source.png}In the figure shown C\textsubscript{1}=17.6\,\textmu\ F, C\textsubscript{2}=2.12\,\textmu\ F, and C\textsubscript{3}=4.72\,\textmu\ F. The voltage source provides \textepsilon\ =5.35\,V. What is the energy stored in C\textsubscript{2}?
\begin{choices} %%%%%%% begin choices
\choice 6.750E+00\,\textmu\ J
\choice 7.425E+00\,\textmu\ J
\CorrectChoice 8.168E+00\,\textmu\ J
\choice 8.984E+00\,\textmu\ J
\choice 9.883E+00\,\textmu\ J
\end{choices} %%% end choices
\question
\includegraphics[width=0.16\textwidth]{DC-circuit-3-cappies1-voltage-source.png}In the figure shown C\textsubscript{1}=18.1\,\textmu\ F, C\textsubscript{2}=2.89\,\textmu\ F, and C\textsubscript{3}=4.2\,\textmu\ F. The voltage source provides \textepsilon\ =9.19\,V. What is the energy stored in C\textsubscript{2}?
\begin{choices} %%%%%%% begin choices
\choice 1.303E+01\,\textmu\ J
\choice 1.434E+01\,\textmu\ J
\choice 1.577E+01\,\textmu\ J
\choice 1.735E+01\,\textmu\ J
\CorrectChoice 1.908E+01\,\textmu\ J
\end{choices} %%% end choices
\question
\includegraphics[width=0.16\textwidth]{DC-circuit-3-cappies1-voltage-source.png}In the figure shown C\textsubscript{1}=15.4\,\textmu\ F, C\textsubscript{2}=2.6\,\textmu\ F, and C\textsubscript{3}=5.17\,\textmu\ F. The voltage source provides \textepsilon\ =9.6\,V. What is the energy stored in C\textsubscript{2}?
\begin{choices} %%%%%%% begin choices
\choice 1.508E+01\,\textmu\ J
\CorrectChoice 1.659E+01\,\textmu\ J
\choice 1.825E+01\,\textmu\ J
\choice 2.007E+01\,\textmu\ J
\choice 2.208E+01\,\textmu\ J
\end{choices} %%% end choices
\question
\includegraphics[width=0.16\textwidth]{DC-circuit-3-cappies1-voltage-source.png}In the figure shown C\textsubscript{1}=17.2\,\textmu\ F, C\textsubscript{2}=2.71\,\textmu\ F, and C\textsubscript{3}=5.28\,\textmu\ F. The voltage source provides \textepsilon\ =13.2\,V. What is the energy stored in C\textsubscript{2}?
\begin{choices} %%%%%%% begin choices
\CorrectChoice 2.443E+01\,\textmu\ J
\choice 2.687E+01\,\textmu\ J
\choice 2.955E+01\,\textmu\ J
\choice 3.251E+01\,\textmu\ J
\choice 3.576E+01\,\textmu\ J
\end{choices} %%% end choices
\question
\includegraphics[width=0.16\textwidth]{DC-circuit-3-cappies1-voltage-source.png}In the figure shown C\textsubscript{1}=20.7\,\textmu\ F, C\textsubscript{2}=2.79\,\textmu\ F, and C\textsubscript{3}=5.18\,\textmu\ F. The voltage source provides \textepsilon\ =15.0\,V. What is the energy stored in C\textsubscript{2}?
\begin{choices} %%%%%%% begin choices
\choice 2.064E+01\,\textmu\ J
\choice 2.270E+01\,\textmu\ J
\choice 2.497E+01\,\textmu\ J
\choice 2.747E+01\,\textmu\ J
\CorrectChoice 3.022E+01\,\textmu\ J
\end{choices} %%% end choices
\question
\includegraphics[width=0.16\textwidth]{DC-circuit-3-cappies1-voltage-source.png}In the figure shown C\textsubscript{1}=16.5\,\textmu\ F, C\textsubscript{2}=2.7\,\textmu\ F, and C\textsubscript{3}=4.82\,\textmu\ F. The voltage source provides \textepsilon\ =15.7\,V. What is the energy stored in C\textsubscript{2}?
\begin{choices} %%%%%%% begin choices
\choice 2.188E+01\,\textmu\ J
\choice 2.407E+01\,\textmu\ J
\choice 2.647E+01\,\textmu\ J
\CorrectChoice 2.912E+01\,\textmu\ J
\choice 3.203E+01\,\textmu\ J
\end{choices} %%% end choices
\question
\includegraphics[width=0.16\textwidth]{DC-circuit-3-cappies1-voltage-source.png}In the figure shown C\textsubscript{1}=18.2\,\textmu\ F, C\textsubscript{2}=2.44\,\textmu\ F, and C\textsubscript{3}=5.0\,\textmu\ F. The voltage source provides \textepsilon\ =7.78\,V. What is the energy stored in C\textsubscript{2}?
\begin{choices} %%%%%%% begin choices
\choice 1.225E+01\,\textmu\ J
\CorrectChoice 1.347E+01\,\textmu\ J
\choice 1.482E+01\,\textmu\ J
\choice 1.630E+01\,\textmu\ J
\choice 1.793E+01\,\textmu\ J
\end{choices} %%% end choices
\question
\includegraphics[width=0.16\textwidth]{DC-circuit-3-cappies1-voltage-source.png}In the figure shown C\textsubscript{1}=16.7\,\textmu\ F, C\textsubscript{2}=2.26\,\textmu\ F, and C\textsubscript{3}=4.53\,\textmu\ F. The voltage source provides \textepsilon\ =10.7\,V. What is the energy stored in C\textsubscript{2}?
\begin{choices} %%%%%%% begin choices
\choice 1.292E+01\,\textmu\ J
\choice 1.421E+01\,\textmu\ J
\choice 1.563E+01\,\textmu\ J
\CorrectChoice 1.719E+01\,\textmu\ J
\choice 1.891E+01\,\textmu\ J
\end{choices} %%% end choices
\question
\includegraphics[width=0.16\textwidth]{DC-circuit-3-cappies1-voltage-source.png}In the figure shown C\textsubscript{1}=18.7\,\textmu\ F, C\textsubscript{2}=2.15\,\textmu\ F, and C\textsubscript{3}=4.88\,\textmu\ F. The voltage source provides \textepsilon\ =11.9\,V. What is the energy stored in C\textsubscript{2}?
\begin{choices} %%%%%%% begin choices
\choice 1.270E+01\,\textmu\ J
\choice 1.397E+01\,\textmu\ J
\choice 1.537E+01\,\textmu\ J
\choice 1.690E+01\,\textmu\ J
\CorrectChoice 1.859E+01\,\textmu\ J
\end{choices} %%% end choices
\question
\includegraphics[width=0.16\textwidth]{DC-circuit-3-cappies1-voltage-source.png}In the figure shown C\textsubscript{1}=15.7\,\textmu\ F, C\textsubscript{2}=2.87\,\textmu\ F, and C\textsubscript{3}=5.46\,\textmu\ F. The voltage source provides \textepsilon\ =5.38\,V. What is the energy stored in C\textsubscript{2}?
\begin{choices} %%%%%%% begin choices
\choice 6.890E+00\,\textmu\ J
\choice 7.579E+00\,\textmu\ J
\choice 8.337E+00\,\textmu\ J
\choice 9.171E+00\,\textmu\ J
\CorrectChoice 1.009E+01\,\textmu\ J
\end{choices} %%% end choices
\question
\includegraphics[width=0.16\textwidth]{DC-circuit-3-cappies1-voltage-source.png}In the figure shown C\textsubscript{1}=17.7\,\textmu\ F, C\textsubscript{2}=2.48\,\textmu\ F, and C\textsubscript{3}=4.68\,\textmu\ F. The voltage source provides \textepsilon\ =12.7\,V. What is the energy stored in C\textsubscript{2}?
\begin{choices} %%%%%%% begin choices
\CorrectChoice 2.242E+01\,\textmu\ J
\choice 2.467E+01\,\textmu\ J
\choice 2.713E+01\,\textmu\ J
\choice 2.985E+01\,\textmu\ J
\choice 3.283E+01\,\textmu\ J
\end{choices} %%% end choices
\question
\includegraphics[width=0.16\textwidth]{DC-circuit-3-cappies1-voltage-source.png}In the figure shown C\textsubscript{1}=16.3\,\textmu\ F, C\textsubscript{2}=2.17\,\textmu\ F, and C\textsubscript{3}=4.67\,\textmu\ F. The voltage source provides \textepsilon\ =8.35\,V. What is the energy stored in C\textsubscript{2}?
\begin{choices} %%%%%%% begin choices
\choice 8.718E+00\,\textmu\ J
\choice 9.589E+00\,\textmu\ J
\choice 1.055E+01\,\textmu\ J
\choice 1.160E+01\,\textmu\ J
\CorrectChoice 1.276E+01\,\textmu\ J
\end{choices} %%% end choices
\question
\includegraphics[width=0.16\textwidth]{DC-circuit-3-cappies1-voltage-source.png}In the figure shown C\textsubscript{1}=18.1\,\textmu\ F, C\textsubscript{2}=2.13\,\textmu\ F, and C\textsubscript{3}=5.48\,\textmu\ F. The voltage source provides \textepsilon\ =14.6\,V. What is the energy stored in C\textsubscript{2}?
\begin{choices} %%%%%%% begin choices
\choice 1.645E+01\,\textmu\ J
\choice 1.809E+01\,\textmu\ J
\choice 1.990E+01\,\textmu\ J
\CorrectChoice 2.189E+01\,\textmu\ J
\choice 2.408E+01\,\textmu\ J
\end{choices} %%% end choices
\question
\includegraphics[width=0.16\textwidth]{DC-circuit-3-cappies1-voltage-source.png}In the figure shown C\textsubscript{1}=16.1\,\textmu\ F, C\textsubscript{2}=2.14\,\textmu\ F, and C\textsubscript{3}=5.76\,\textmu\ F. The voltage source provides \textepsilon\ =8.35\,V. What is the energy stored in C\textsubscript{2}?
\begin{choices} %%%%%%% begin choices
\CorrectChoice 1.199E+01\,\textmu\ J
\choice 1.319E+01\,\textmu\ J
\choice 1.450E+01\,\textmu\ J
\choice 1.595E+01\,\textmu\ J
\choice 1.755E+01\,\textmu\ J
\end{choices} %%% end choices
\question
\includegraphics[width=0.16\textwidth]{DC-circuit-3-cappies1-voltage-source.png}In the figure shown C\textsubscript{1}=19.2\,\textmu\ F, C\textsubscript{2}=2.71\,\textmu\ F, and C\textsubscript{3}=5.52\,\textmu\ F. The voltage source provides \textepsilon\ =15.0\,V. What is the energy stored in C\textsubscript{2}?
\begin{choices} %%%%%%% begin choices
\choice 2.138E+01\,\textmu\ J
\choice 2.352E+01\,\textmu\ J
\choice 2.587E+01\,\textmu\ J
\CorrectChoice 2.845E+01\,\textmu\ J
\choice 3.130E+01\,\textmu\ J
\end{choices} %%% end choices
\question
\includegraphics[width=0.16\textwidth]{DC-circuit-3-cappies1-voltage-source.png}In the figure shown C\textsubscript{1}=19.2\,\textmu\ F, C\textsubscript{2}=2.24\,\textmu\ F, and C\textsubscript{3}=4.93\,\textmu\ F. The voltage source provides \textepsilon\ =11.7\,V. What is the energy stored in C\textsubscript{2}?
\begin{choices} %%%%%%% begin choices
\choice 1.303E+01\,\textmu\ J
\choice 1.434E+01\,\textmu\ J
\choice 1.577E+01\,\textmu\ J
\choice 1.735E+01\,\textmu\ J
\CorrectChoice 1.908E+01\,\textmu\ J
\end{choices} %%% end choices
\question
\includegraphics[width=0.16\textwidth]{DC-circuit-3-cappies1-voltage-source.png}In the figure shown C\textsubscript{1}=16.9\,\textmu\ F, C\textsubscript{2}=2.86\,\textmu\ F, and C\textsubscript{3}=5.1\,\textmu\ F. The voltage source provides \textepsilon\ =9.98\,V. What is the energy stored in C\textsubscript{2}?
\begin{choices} %%%%%%% begin choices
\choice 1.764E+01\,\textmu\ J
\CorrectChoice 1.940E+01\,\textmu\ J
\choice 2.134E+01\,\textmu\ J
\choice 2.348E+01\,\textmu\ J
\choice 2.583E+01\,\textmu\ J
\end{choices} %%% end choices
\question
\includegraphics[width=0.16\textwidth]{DC-circuit-3-cappies1-voltage-source.png}In the figure shown C\textsubscript{1}=21.1\,\textmu\ F, C\textsubscript{2}=2.69\,\textmu\ F, and C\textsubscript{3}=4.78\,\textmu\ F. The voltage source provides \textepsilon\ =12.8\,V. What is the energy stored in C\textsubscript{2}?
\begin{choices} %%%%%%% begin choices
\choice 2.102E+01\,\textmu\ J
\choice 2.312E+01\,\textmu\ J
\CorrectChoice 2.543E+01\,\textmu\ J
\choice 2.797E+01\,\textmu\ J
\choice 3.077E+01\,\textmu\ J
\end{choices} %%% end choices
\end{questions}
\pagebreak
\section{Attribution}
\theendnotes
\end{document}