# QB/d cp2.16

< QB

**The enrollment key for each course is 123.** They are all is set to practice mode, giving students unlimited attempts at each question. Instructors can also print out copies of the quiz for classroom use. If you have any problems leave a message at user talk:Guy vandegrift.

- Latest essay: MyOpenMath/Pulling loose threads
- Latest lesson: Phasor algebra

- Quizbank now resides on MyOpenMath at
**https://www.myopenmath.com**(although I hope Wikiversity can play an important role in helping students and teachers use these questions!) - At the moment, most of the physics questions have already been transferred. To see them, join myopenmath.com as a student, and "enroll" in one or both of the following courses:
- Quizbank physics 1 (id
**60675**) - Quizbank physics 2 (id
**61712**) - Quizbank astronomy (id
**63705**)

- Quizbank physics 1 (id

**See special:permalink/1895295 for a wikitext version of this quiz.**

### LaTexMarkup begin

edit```
%[[File:Quizbankqb_{{SUBPAGENAME}}.pdf|thumb|See[[:File:Quizbankqb_{{SUBPAGENAME}}.pdf]]]]
%CurrentID: {{REVISIONID}}
%PDF: [[:File:Quizbankqb_{{SUBPAGENAME}}.pdf]]%Required images: [[file:Wikiversity-logo-en.svg|45px]][[File:RC switch.svg|45px]]
%This code creates both the question and answer key using \newcommand\mytest
%%% EDIT QUIZ INFO HERE %%%%%%%%%%%%%%%%%%%%%%%%%%%
\newcommand{\quizname}{QB/d_cp2.16}
\newcommand{\quiztype}{numerical}%[[Category:QB/numerical]]
%%%%% PREAMBLE%%%%%%%%%%%%
\newif\ifkey %estabkishes Boolean ifkey to turn on and off endnotes
\documentclass[11pt]{exam}
\RequirePackage{amssymb, amsfonts, amsmath, latexsym, verbatim,
xspace, setspace,datetime}
\RequirePackage{tikz, pgflibraryplotmarks, hyperref}
\usepackage[left=.5in, right=.5in, bottom=.5in, top=.75in]{geometry}
\usepackage{endnotes, multicol,textgreek} %
\usepackage{graphicx} %
\singlespacing %OR \onehalfspacing OR \doublespacing
\parindent 0ex % Turns off paragraph indentation
\hypersetup{ colorlinks=true, urlcolor=blue}
% BEGIN DOCUMENT
\begin{document}
\title{d\_cp2.16}
\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}
\includegraphics[width=0.15\textwidth]{666px-Wikiversity-logo-en.png}
\\Latex markup at\\
\footnotesize{ \url{https://en.wikiversity.org/wiki/special:permalink/1895295}}
\end{center}
\begin{frame}{}
\begin{multicols}{3}
\tableofcontents
\end{multicols}
\end{frame}
\pagebreak\section{Quiz}
\keytrue
\printanswers
\begin{questions}
\question \includegraphics[width=0.16\textwidth]{RC-switch.png}A parallel plate capacitor with a capicatnce C=1.00E-06\,F whose plates have an area A=225.9\,m\textsuperscript{2} and separation d=2.00E-03\,m is connected via a swith to a 2\,\textOmega\ resistor and a battery of voltage V\textsubscript{0}=2\,V as shown in the figure. The current starts to flow at time t=0 when the switch is closed. What is the voltage at time t=4.00E-06?\ifkey\endnote{Example 16.\#1 from OpenStax University Physics2: https://cnx.org/contents/eg-XcBxE@9.8:-LQJwSUO@3/161-Maxwells-Equations-and-Ele\_1 placed in Public Domain by Guy Vandegrift: {\url{https://en.wikiversity.org/wiki/special:permalink/1895295}}}\fi
\begin{choices}
\CorrectChoice 1.729E+00\,V
\choice 1.902E+00\,V
\choice 2.092E+00\,V
\choice 2.302E+00\,V
\choice 2.532E+00\,V
\end{choices}
\question \includegraphics[width=0.16\textwidth]{RC-switch.png}A parallel plate capacitor with a capicatnce C=1.00E-06\,F whose plates have an area A=225.9\,m\textsuperscript{2} and separation d=2.00E-03\,m is connected via a swith to a 2\,\textOmega\ resistor and a battery of voltage V\textsubscript{0}=2\,V as shown in the figure. The current starts to flow at time t=0 when the switch is closed. What is the magnitude of the electric field at time t=4.00E-06?\ifkey\endnote{Example 16.\#1 from OpenStax University Physics2: https://cnx.org/contents/eg-XcBxE@9.8:-LQJwSUO@3/161-Maxwells-Equations-and-Ele\_1 placed in Public Domain by Guy Vandegrift: {\url{https://en.wikiversity.org/wiki/special:permalink/1895295}}}\fi
\begin{choices}
\CorrectChoice 8.647E+02\,V/m
\choice 9.511E+02\,V/m
\choice 1.046E+03\,V/m
\choice 1.151E+03\,V/m
\choice 1.266E+03\,V/m
\end{choices}
\question \includegraphics[width=0.16\textwidth]{RC-switch.png}A parallel plate capacitor with a capicatnce C=1.00E-06\,F whose plates have an area A=225.9\,m\textsuperscript{2} and separation d=2.00E-03\,m is connected via a swith to a 2\,\textOmega\ resistor and a battery of voltage V\textsubscript{0}=2\,V as shown in the figure. The current starts to flow at time t=0 when the switch is closed. What is the magnitude of the displacement current at time t=4.00E-06?\ifkey\endnote{Example 16.\#1 from OpenStax University Physics2: https://cnx.org/contents/eg-XcBxE@9.8:-LQJwSUO@3/161-Maxwells-Equations-and-Ele\_1 placed in Public Domain by Guy Vandegrift: {\url{https://en.wikiversity.org/wiki/special:permalink/1895295}}}\fi
\begin{choices}
\choice 1.230E-01\,A
\CorrectChoice 1.353E-01\,A
\choice 1.489E-01\,A
\choice 1.638E-01\,A
\choice 1.801E-01\,A
\end{choices}
\question A 60\,kW radio transmitter on Earth sends it signal to a satellite 100\,km away. At what distance in the same direction would the signal have the same maximum field strength if the transmitter's output power were increased to 90\,kW?\ifkey\endnote{Example 16.4 from OpenStax University Physics2: https://cnx.org/contents/eg-XcBxE@9.8:WPwRpxQe@2/163-Energy-Carried-by-Electrom\_1 placed in Public Domain by Guy Vandegrift: {\url{https://en.wikiversity.org/wiki/special:permalink/1895295}}}\fi
\begin{choices}
\choice 9.202E+01\,km
\choice 1.012E+02\,km
\choice 1.113E+02\,km
\CorrectChoice 1.225E+02\,km
\choice 1.347E+02\,km
\end{choices}
\question What is the radiation pressure on an object that is 9.00E+10\,m away from the sun and has cross-sectional area of 0.04\,m\textsuperscript{2}? The average power output of the Sun is 3.80E+26\,W.\ifkey\endnote{Example 16.6 from OpenStax University Physics2: https://cnx.org/contents/eg-XcBxE@9.8:KnHTZwja@3/164-Momentum-and-Radiation-Pre\_1 placed in Public Domain by Guy Vandegrift: {\url{https://en.wikiversity.org/wiki/special:permalink/1895295}}}\fi
\begin{choices}
\choice 1.701E-05\,N/m\textsuperscript{2}
\choice 1.871E-05\,N/m\textsuperscript{2}
\choice 2.058E-05\,N/m\textsuperscript{2}
\choice 2.264E-05\,N/m\textsuperscript{2}
\CorrectChoice 2.491E-05\,N/m\textsuperscript{2}
\end{choices}
\question What is the radiation force on an object that is 9.00E+10\,m away from the sun and has cross-sectional area of 0.04\,m\textsuperscript{2}? The average power output of the Sun is 3.80E+26\,W.\ifkey\endnote{Example 16.6 from OpenStax University Physics2: https://cnx.org/contents/eg-XcBxE@9.8:KnHTZwja@3/164-Momentum-and-Radiation-Pre\_1 placed in Public Domain by Guy Vandegrift: {\url{https://en.wikiversity.org/wiki/special:permalink/1895295}}}\fi
\begin{choices}
\choice 8.233E-07\,N
\choice 9.056E-07\,N
\CorrectChoice 9.962E-07\,N
\choice 1.096E-06\,N
\choice 1.205E-06\,N
\end{choices}
\end{questions}
\newpage
\section{Renditions} %%% Renditions %%%%
\subsection{}%%%% subsection 1
\begin{questions} %%%%%%% begin questions
\question \includegraphics[width=0.16\textwidth]{RC-switch.png}A parallel plate capacitor with a capicatnce C=5.40E-06\,F whose plates have an area A=3.50E+03\,m\textsuperscript{2} and separation d=5.70E-03\,m is connected via a swith to a 92\,\textOmega\ resistor and a battery of voltage V\textsubscript{0}=52\,V as shown in the figure. The current starts to flow at time t=0 when the switch is closed. What is the voltage at time t=2.40E-03?
\begin{choices} %%%%%%% begin choices
\choice 3.876E+01\,V
\choice 4.263E+01\,V
\choice 4.690E+01\,V
\CorrectChoice 5.159E+01\,V
\choice 5.674E+01\,V
\end{choices} %%% end choices
\question \includegraphics[width=0.16\textwidth]{RC-switch.png}A parallel plate capacitor with a capicatnce C=2.90E-06\,F whose plates have an area A=1.60E+03\,m\textsuperscript{2} and separation d=5.00E-03\,m is connected via a swith to a 41\,\textOmega\ resistor and a battery of voltage V\textsubscript{0}=92\,V as shown in the figure. The current starts to flow at time t=0 when the switch is closed. What is the voltage at time t=4.50E-04?
\begin{choices} %%%%%%% begin choices
\choice 6.755E+01\,V
\choice 7.431E+01\,V
\choice 8.174E+01\,V
\CorrectChoice 8.991E+01\,V
\choice 9.890E+01\,V
\end{choices} %%% end choices
\question \includegraphics[width=0.16\textwidth]{RC-switch.png}A parallel plate capacitor with a capicatnce C=6.20E-06\,F whose plates have an area A=5.30E+03\,m\textsuperscript{2} and separation d=7.50E-03\,m is connected via a swith to a 95\,\textOmega\ resistor and a battery of voltage V\textsubscript{0}=15\,V as shown in the figure. The current starts to flow at time t=0 when the switch is closed. What is the voltage at time t=9.20E-04?
\begin{choices} %%%%%%% begin choices
\choice 8.097E+00\,V
\choice 8.906E+00\,V
\choice 9.797E+00\,V
\choice 1.078E+01\,V
\CorrectChoice 1.185E+01\,V
\end{choices} %%% end choices
\question \includegraphics[width=0.16\textwidth]{RC-switch.png}A parallel plate capacitor with a capicatnce C=9.60E-06\,F whose plates have an area A=5.40E+03\,m\textsuperscript{2} and separation d=5.00E-03\,m is connected via a swith to a 29\,\textOmega\ resistor and a battery of voltage V\textsubscript{0}=50\,V as shown in the figure. The current starts to flow at time t=0 when the switch is closed. What is the voltage at time t=8.30E-04?
\begin{choices} %%%%%%% begin choices
\choice 3.923E+01\,V
\choice 4.315E+01\,V
\CorrectChoice 4.746E+01\,V
\choice 5.221E+01\,V
\choice 5.743E+01\,V
\end{choices} %%% end choices
\question \includegraphics[width=0.16\textwidth]{RC-switch.png}A parallel plate capacitor with a capicatnce C=8.90E-06\,F whose plates have an area A=6.90E+03\,m\textsuperscript{2} and separation d=6.90E-03\,m is connected via a swith to a 89\,\textOmega\ resistor and a battery of voltage V\textsubscript{0}=89\,V as shown in the figure. The current starts to flow at time t=0 when the switch is closed. What is the voltage at time t=3.40E-03?
\begin{choices} %%%%%%% begin choices
\choice 6.595E+01\,V
\choice 7.255E+01\,V
\choice 7.980E+01\,V
\CorrectChoice 8.778E+01\,V
\choice 9.656E+01\,V
\end{choices} %%% end choices
\question \includegraphics[width=0.16\textwidth]{RC-switch.png}A parallel plate capacitor with a capicatnce C=7.40E-06\,F whose plates have an area A=7.20E+03\,m\textsuperscript{2} and separation d=8.60E-03\,m is connected via a swith to a 14\,\textOmega\ resistor and a battery of voltage V\textsubscript{0}=16\,V as shown in the figure. The current starts to flow at time t=0 when the switch is closed. What is the voltage at time t=1.50E-04?
\begin{choices} %%%%%%% begin choices
\choice 9.195E+00\,V
\choice 1.011E+01\,V
\choice 1.113E+01\,V
\CorrectChoice 1.224E+01\,V
\choice 1.346E+01\,V
\end{choices} %%% end choices
\question \includegraphics[width=0.16\textwidth]{RC-switch.png}A parallel plate capacitor with a capicatnce C=7.10E-06\,F whose plates have an area A=5.10E+03\,m\textsuperscript{2} and separation d=6.40E-03\,m is connected via a swith to a 54\,\textOmega\ resistor and a battery of voltage V\textsubscript{0}=83\,V as shown in the figure. The current starts to flow at time t=0 when the switch is closed. What is the voltage at time t=1.50E-03?
\begin{choices} %%%%%%% begin choices
\choice 6.111E+01\,V
\choice 6.722E+01\,V
\choice 7.395E+01\,V
\CorrectChoice 8.134E+01\,V
\choice 8.947E+01\,V
\end{choices} %%% end choices
\question \includegraphics[width=0.16\textwidth]{RC-switch.png}A parallel plate capacitor with a capicatnce C=7.40E-06\,F whose plates have an area A=5.30E+03\,m\textsuperscript{2} and separation d=6.30E-03\,m is connected via a swith to a 5\,\textOmega\ resistor and a battery of voltage V\textsubscript{0}=58\,V as shown in the figure. The current starts to flow at time t=0 when the switch is closed. What is the voltage at time t=1.10E-04?
\begin{choices} %%%%%%% begin choices
\choice 4.548E+01\,V
\choice 5.003E+01\,V
\CorrectChoice 5.503E+01\,V
\choice 6.054E+01\,V
\choice 6.659E+01\,V
\end{choices} %%% end choices
\question \includegraphics[width=0.16\textwidth]{RC-switch.png}A parallel plate capacitor with a capicatnce C=1.80E-06\,F whose plates have an area A=670.0\,m\textsuperscript{2} and separation d=3.30E-03\,m is connected via a swith to a 40\,\textOmega\ resistor and a battery of voltage V\textsubscript{0}=97\,V as shown in the figure. The current starts to flow at time t=0 when the switch is closed. What is the voltage at time t=2.40E-04?
\begin{choices} %%%%%%% begin choices
\choice 7.731E+01\,V
\choice 8.504E+01\,V
\CorrectChoice 9.354E+01\,V
\choice 1.029E+02\,V
\choice 1.132E+02\,V
\end{choices} %%% end choices
\question \includegraphics[width=0.16\textwidth]{RC-switch.png}A parallel plate capacitor with a capicatnce C=3.80E-06\,F whose plates have an area A=2.70E+03\,m\textsuperscript{2} and separation d=6.30E-03\,m is connected via a swith to a 4\,\textOmega\ resistor and a battery of voltage V\textsubscript{0}=7\,V as shown in the figure. The current starts to flow at time t=0 when the switch is closed. What is the voltage at time t=3.40E-05?
\begin{choices} %%%%%%% begin choices
\CorrectChoice 6.252E+00\,V
\choice 6.878E+00\,V
\choice 7.565E+00\,V
\choice 8.322E+00\,V
\choice 9.154E+00\,V
\end{choices} %%% end choices
\question \includegraphics[width=0.16\textwidth]{RC-switch.png}A parallel plate capacitor with a capicatnce C=9.80E-06\,F whose plates have an area A=9.60E+03\,m\textsuperscript{2} and separation d=8.70E-03\,m is connected via a swith to a 23\,\textOmega\ resistor and a battery of voltage V\textsubscript{0}=3\,V as shown in the figure. The current starts to flow at time t=0 when the switch is closed. What is the voltage at time t=7.20E-04?
\begin{choices} %%%%%%% begin choices
\CorrectChoice 2.877E+00\,V
\choice 3.165E+00\,V
\choice 3.481E+00\,V
\choice 3.829E+00\,V
\choice 4.212E+00\,V
\end{choices} %%% end choices
\question \includegraphics[width=0.16\textwidth]{RC-switch.png}A parallel plate capacitor with a capicatnce C=8.30E-06\,F whose plates have an area A=7.00E+03\,m\textsuperscript{2} and separation d=7.50E-03\,m is connected via a swith to a 51\,\textOmega\ resistor and a battery of voltage V\textsubscript{0}=81\,V as shown in the figure. The current starts to flow at time t=0 when the switch is closed. What is the voltage at time t=1.20E-03?
\begin{choices} %%%%%%% begin choices
\choice 5.728E+01\,V
\choice 6.301E+01\,V
\choice 6.931E+01\,V
\CorrectChoice 7.624E+01\,V
\choice 8.387E+01\,V
\end{choices} %%% end choices
\question \includegraphics[width=0.16\textwidth]{RC-switch.png}A parallel plate capacitor with a capicatnce C=4.70E-06\,F whose plates have an area A=1.70E+03\,m\textsuperscript{2} and separation d=3.20E-03\,m is connected via a swith to a 61\,\textOmega\ resistor and a battery of voltage V\textsubscript{0}=53\,V as shown in the figure. The current starts to flow at time t=0 when the switch is closed. What is the voltage at time t=8.40E-04?
\begin{choices} %%%%%%% begin choices
\CorrectChoice 5.017E+01\,V
\choice 5.519E+01\,V
\choice 6.071E+01\,V
\choice 6.678E+01\,V
\choice 7.345E+01\,V
\end{choices} %%% end choices
\question \includegraphics[width=0.16\textwidth]{RC-switch.png}A parallel plate capacitor with a capicatnce C=7.60E-06\,F whose plates have an area A=2.90E+03\,m\textsuperscript{2} and separation d=3.40E-03\,m is connected via a swith to a 15\,\textOmega\ resistor and a battery of voltage V\textsubscript{0}=90\,V as shown in the figure. The current starts to flow at time t=0 when the switch is closed. What is the voltage at time t=2.20E-04?
\begin{choices} %%%%%%% begin choices
\CorrectChoice 7.693E+01\,V
\choice 8.463E+01\,V
\choice 9.309E+01\,V
\choice 1.024E+02\,V
\choice 1.126E+02\,V
\end{choices} %%% end choices
\question \includegraphics[width=0.16\textwidth]{RC-switch.png}A parallel plate capacitor with a capicatnce C=5.60E-06\,F whose plates have an area A=3.50E+03\,m\textsuperscript{2} and separation d=5.60E-03\,m is connected via a swith to a 94\,\textOmega\ resistor and a battery of voltage V\textsubscript{0}=21\,V as shown in the figure. The current starts to flow at time t=0 when the switch is closed. What is the voltage at time t=8.40E-04?
\begin{choices} %%%%%%% begin choices
\choice 1.258E+01\,V
\choice 1.384E+01\,V
\choice 1.522E+01\,V
\CorrectChoice 1.674E+01\,V
\choice 1.842E+01\,V
\end{choices} %%% end choices
\question \includegraphics[width=0.16\textwidth]{RC-switch.png}A parallel plate capacitor with a capicatnce C=6.50E-06\,F whose plates have an area A=4.50E+03\,m\textsuperscript{2} and separation d=6.10E-03\,m is connected via a swith to a 4\,\textOmega\ resistor and a battery of voltage V\textsubscript{0}=3\,V as shown in the figure. The current starts to flow at time t=0 when the switch is closed. What is the voltage at time t=2.70E-05?
\begin{choices} %%%%%%% begin choices
\choice 1.456E+00\,V
\choice 1.602E+00\,V
\choice 1.762E+00\,V
\CorrectChoice 1.938E+00\,V
\choice 2.132E+00\,V
\end{choices} %%% end choices
\question \includegraphics[width=0.16\textwidth]{RC-switch.png}A parallel plate capacitor with a capicatnce C=7.50E-06\,F whose plates have an area A=2.90E+03\,m\textsuperscript{2} and separation d=3.40E-03\,m is connected via a swith to a 61\,\textOmega\ resistor and a battery of voltage V\textsubscript{0}=77\,V as shown in the figure. The current starts to flow at time t=0 when the switch is closed. What is the voltage at time t=1.70E-03?
\begin{choices} %%%%%%% begin choices
\choice 5.131E+01\,V
\choice 5.644E+01\,V
\choice 6.209E+01\,V
\choice 6.830E+01\,V
\CorrectChoice 7.513E+01\,V
\end{choices} %%% end choices
\question \includegraphics[width=0.16\textwidth]{RC-switch.png}A parallel plate capacitor with a capicatnce C=9.80E-06\,F whose plates have an area A=5.60E+03\,m\textsuperscript{2} and separation d=5.10E-03\,m is connected via a swith to a 15\,\textOmega\ resistor and a battery of voltage V\textsubscript{0}=54\,V as shown in the figure. The current starts to flow at time t=0 when the switch is closed. What is the voltage at time t=2.50E-04?
\begin{choices} %%%%%%% begin choices
\choice 3.015E+01\,V
\choice 3.316E+01\,V
\choice 3.648E+01\,V
\choice 4.013E+01\,V
\CorrectChoice 4.414E+01\,V
\end{choices} %%% end choices
\question \includegraphics[width=0.16\textwidth]{RC-switch.png}A parallel plate capacitor with a capicatnce C=9.10E-06\,F whose plates have an area A=8.50E+03\,m\textsuperscript{2} and separation d=8.30E-03\,m is connected via a swith to a 67\,\textOmega\ resistor and a battery of voltage V\textsubscript{0}=8\,V as shown in the figure. The current starts to flow at time t=0 when the switch is closed. What is the voltage at time t=1.40E-03?
\begin{choices} %%%%%%% begin choices
\choice 5.946E+00\,V
\choice 6.541E+00\,V
\CorrectChoice 7.195E+00\,V
\choice 7.914E+00\,V
\choice 8.706E+00\,V
\end{choices} %%% end choices
%\pagebreak
%\end{choices}%??????????????
\end{questions}%%%%%%%% end questions
\subsection{}%%%% subsection 2
\begin{questions} %%%%%%% begin questions
\question \includegraphics[width=0.16\textwidth]{RC-switch.png}A parallel plate capacitor with a capicatnce C=1.10E-06\,F whose plates have an area A=930.0\,m\textsuperscript{2} and separation d=7.50E-03\,m is connected via a swith to a 83\,\textOmega\ resistor and a battery of voltage V\textsubscript{0}=42\,V as shown in the figure. The current starts to flow at time t=0 when the switch is closed. What is the magnitude of the electric field at time t=3.80E-04?
\begin{choices} %%%%%%% begin choices
\choice 3.765E+03\,V/m
\choice 4.142E+03\,V/m
\choice 4.556E+03\,V/m
\choice 5.012E+03\,V/m
\CorrectChoice 5.513E+03\,V/m
\end{choices} %%% end choices
\question \includegraphics[width=0.16\textwidth]{RC-switch.png}A parallel plate capacitor with a capicatnce C=1.20E-06\,F whose plates have an area A=1.00E+03\,m\textsuperscript{2} and separation d=7.70E-03\,m is connected via a swith to a 32\,\textOmega\ resistor and a battery of voltage V\textsubscript{0}=38\,V as shown in the figure. The current starts to flow at time t=0 when the switch is closed. What is the magnitude of the electric field at time t=1.40E-04?
\begin{choices} %%%%%%% begin choices
\choice 3.972E+03\,V/m
\choice 4.369E+03\,V/m
\CorrectChoice 4.806E+03\,V/m
\choice 5.287E+03\,V/m
\choice 5.816E+03\,V/m
\end{choices} %%% end choices
\question \includegraphics[width=0.16\textwidth]{RC-switch.png}A parallel plate capacitor with a capicatnce C=5.60E-06\,F whose plates have an area A=2.00E+03\,m\textsuperscript{2} and separation d=3.10E-03\,m is connected via a swith to a 68\,\textOmega\ resistor and a battery of voltage V\textsubscript{0}=73\,V as shown in the figure. The current starts to flow at time t=0 when the switch is closed. What is the magnitude of the electric field at time t=8.50E-04?
\begin{choices} %%%%%%% begin choices
\choice 1.579E+04\,V/m
\choice 1.737E+04\,V/m
\choice 1.911E+04\,V/m
\CorrectChoice 2.102E+04\,V/m
\choice 2.312E+04\,V/m
\end{choices} %%% end choices
\question \includegraphics[width=0.16\textwidth]{RC-switch.png}A parallel plate capacitor with a capicatnce C=9.20E-06\,F whose plates have an area A=3.60E+03\,m\textsuperscript{2} and separation d=3.50E-03\,m is connected via a swith to a 28\,\textOmega\ resistor and a battery of voltage V\textsubscript{0}=16\,V as shown in the figure. The current starts to flow at time t=0 when the switch is closed. What is the magnitude of the electric field at time t=6.00E-04?
\begin{choices} %%%%%%% begin choices
\choice 3.751E+03\,V/m
\CorrectChoice 4.126E+03\,V/m
\choice 4.539E+03\,V/m
\choice 4.993E+03\,V/m
\choice 5.492E+03\,V/m
\end{choices} %%% end choices
\question \includegraphics[width=0.16\textwidth]{RC-switch.png}A parallel plate capacitor with a capicatnce C=5.70E-06\,F whose plates have an area A=5.60E+03\,m\textsuperscript{2} and separation d=8.70E-03\,m is connected via a swith to a 98\,\textOmega\ resistor and a battery of voltage V\textsubscript{0}=67\,V as shown in the figure. The current starts to flow at time t=0 when the switch is closed. What is the magnitude of the electric field at time t=1.80E-03?
\begin{choices} %%%%%%% begin choices
\choice 5.050E+03\,V/m
\choice 5.555E+03\,V/m
\choice 6.111E+03\,V/m
\choice 6.722E+03\,V/m
\CorrectChoice 7.394E+03\,V/m
\end{choices} %%% end choices
\question \includegraphics[width=0.16\textwidth]{RC-switch.png}A parallel plate capacitor with a capicatnce C=2.60E-06\,F whose plates have an area A=2.60E+03\,m\textsuperscript{2} and separation d=9.00E-03\,m is connected via a swith to a 41\,\textOmega\ resistor and a battery of voltage V\textsubscript{0}=91\,V as shown in the figure. The current starts to flow at time t=0 when the switch is closed. What is the magnitude of the electric field at time t=3.00E-04?
\begin{choices} %%%%%%% begin choices
\CorrectChoice 9.505E+03\,V/m
\choice 1.046E+04\,V/m
\choice 1.150E+04\,V/m
\choice 1.265E+04\,V/m
\choice 1.392E+04\,V/m
\end{choices} %%% end choices
\question \includegraphics[width=0.16\textwidth]{RC-switch.png}A parallel plate capacitor with a capicatnce C=1.30E-06\,F whose plates have an area A=1.10E+03\,m\textsuperscript{2} and separation d=7.60E-03\,m is connected via a swith to a 80\,\textOmega\ resistor and a battery of voltage V\textsubscript{0}=5\,V as shown in the figure. The current starts to flow at time t=0 when the switch is closed. What is the magnitude of the electric field at time t=2.30E-04?
\begin{choices} %%%%%%% begin choices
\choice 4.842E+02\,V/m
\choice 5.326E+02\,V/m
\CorrectChoice 5.858E+02\,V/m
\choice 6.444E+02\,V/m
\choice 7.089E+02\,V/m
\end{choices} %%% end choices
\question \includegraphics[width=0.16\textwidth]{RC-switch.png}A parallel plate capacitor with a capicatnce C=7.30E-06\,F whose plates have an area A=4.80E+03\,m\textsuperscript{2} and separation d=5.80E-03\,m is connected via a swith to a 93\,\textOmega\ resistor and a battery of voltage V\textsubscript{0}=48\,V as shown in the figure. The current starts to flow at time t=0 when the switch is closed. What is the magnitude of the electric field at time t=9.00E-04?
\begin{choices} %%%%%%% begin choices
\choice 5.023E+03\,V/m
\choice 5.525E+03\,V/m
\CorrectChoice 6.078E+03\,V/m
\choice 6.685E+03\,V/m
\choice 7.354E+03\,V/m
\end{choices} %%% end choices
\question \includegraphics[width=0.16\textwidth]{RC-switch.png}A parallel plate capacitor with a capicatnce C=2.60E-06\,F whose plates have an area A=2.60E+03\,m\textsuperscript{2} and separation d=9.00E-03\,m is connected via a swith to a 63\,\textOmega\ resistor and a battery of voltage V\textsubscript{0}=86\,V as shown in the figure. The current starts to flow at time t=0 when the switch is closed. What is the magnitude of the electric field at time t=8.00E-04?
\begin{choices} %%%%%%% begin choices
\choice 7.125E+03\,V/m
\choice 7.837E+03\,V/m
\choice 8.621E+03\,V/m
\CorrectChoice 9.483E+03\,V/m
\choice 1.043E+04\,V/m
\end{choices} %%% end choices
\question \includegraphics[width=0.16\textwidth]{RC-switch.png}A parallel plate capacitor with a capicatnce C=8.20E-06\,F whose plates have an area A=4.10E+03\,m\textsuperscript{2} and separation d=4.40E-03\,m is connected via a swith to a 87\,\textOmega\ resistor and a battery of voltage V\textsubscript{0}=37\,V as shown in the figure. The current starts to flow at time t=0 when the switch is closed. What is the magnitude of the electric field at time t=9.20E-04?
\begin{choices} %%%%%%% begin choices
\choice 4.578E+03\,V/m
\choice 5.036E+03\,V/m
\choice 5.539E+03\,V/m
\CorrectChoice 6.093E+03\,V/m
\choice 6.703E+03\,V/m
\end{choices} %%% end choices
\question \includegraphics[width=0.16\textwidth]{RC-switch.png}A parallel plate capacitor with a capicatnce C=5.20E-06\,F whose plates have an area A=2.90E+03\,m\textsuperscript{2} and separation d=4.90E-03\,m is connected via a swith to a 93\,\textOmega\ resistor and a battery of voltage V\textsubscript{0}=5\,V as shown in the figure. The current starts to flow at time t=0 when the switch is closed. What is the magnitude of the electric field at time t=2.20E-03?
\begin{choices} %%%%%%% begin choices
\choice 6.896E+02\,V/m
\choice 7.585E+02\,V/m
\choice 8.344E+02\,V/m
\choice 9.178E+02\,V/m
\CorrectChoice 1.010E+03\,V/m
\end{choices} %%% end choices
\question \includegraphics[width=0.16\textwidth]{RC-switch.png}A parallel plate capacitor with a capicatnce C=8.20E-06\,F whose plates have an area A=6.20E+03\,m\textsuperscript{2} and separation d=6.70E-03\,m is connected via a swith to a 75\,\textOmega\ resistor and a battery of voltage V\textsubscript{0}=17\,V as shown in the figure. The current starts to flow at time t=0 when the switch is closed. What is the magnitude of the electric field at time t=6.50E-04?
\begin{choices} %%%%%%% begin choices
\choice 1.505E+03\,V/m
\CorrectChoice 1.656E+03\,V/m
\choice 1.821E+03\,V/m
\choice 2.003E+03\,V/m
\choice 2.204E+03\,V/m
\end{choices} %%% end choices
\question \includegraphics[width=0.16\textwidth]{RC-switch.png}A parallel plate capacitor with a capicatnce C=4.50E-06\,F whose plates have an area A=3.30E+03\,m\textsuperscript{2} and separation d=6.40E-03\,m is connected via a swith to a 83\,\textOmega\ resistor and a battery of voltage V\textsubscript{0}=56\,V as shown in the figure. The current starts to flow at time t=0 when the switch is closed. What is the magnitude of the electric field at time t=1.40E-03?
\begin{choices} %%%%%%% begin choices
\choice 7.767E+03\,V/m
\CorrectChoice 8.544E+03\,V/m
\choice 9.398E+03\,V/m
\choice 1.034E+04\,V/m
\choice 1.137E+04\,V/m
\end{choices} %%% end choices
\question \includegraphics[width=0.16\textwidth]{RC-switch.png}A parallel plate capacitor with a capicatnce C=4.70E-06\,F whose plates have an area A=4.20E+03\,m\textsuperscript{2} and separation d=8.00E-03\,m is connected via a swith to a 6\,\textOmega\ resistor and a battery of voltage V\textsubscript{0}=94\,V as shown in the figure. The current starts to flow at time t=0 when the switch is closed. What is the magnitude of the electric field at time t=6.60E-05?
\begin{choices} %%%%%%% begin choices
\choice 7.253E+03\,V/m
\choice 7.978E+03\,V/m
\choice 8.776E+03\,V/m
\choice 9.653E+03\,V/m
\CorrectChoice 1.062E+04\,V/m
\end{choices} %%% end choices
\question \includegraphics[width=0.16\textwidth]{RC-switch.png}A parallel plate capacitor with a capicatnce C=2.00E-06\,F whose plates have an area A=1.90E+03\,m\textsuperscript{2} and separation d=8.60E-03\,m is connected via a swith to a 28\,\textOmega\ resistor and a battery of voltage V\textsubscript{0}=45\,V as shown in the figure. The current starts to flow at time t=0 when the switch is closed. What is the magnitude of the electric field at time t=1.30E-04?
\begin{choices} %%%%%%% begin choices
\choice 3.223E+03\,V/m
\choice 3.546E+03\,V/m
\choice 3.900E+03\,V/m
\choice 4.290E+03\,V/m
\CorrectChoice 4.719E+03\,V/m
\end{choices} %%% end choices
\question \includegraphics[width=0.16\textwidth]{RC-switch.png}A parallel plate capacitor with a capicatnce C=7.90E-06\,F whose plates have an area A=6.10E+03\,m\textsuperscript{2} and separation d=6.80E-03\,m is connected via a swith to a 22\,\textOmega\ resistor and a battery of voltage V\textsubscript{0}=6\,V as shown in the figure. The current starts to flow at time t=0 when the switch is closed. What is the magnitude of the electric field at time t=5.20E-04?
\begin{choices} %%%%%%% begin choices
\choice 7.619E+02\,V/m
\CorrectChoice 8.381E+02\,V/m
\choice 9.219E+02\,V/m
\choice 1.014E+03\,V/m
\choice 1.115E+03\,V/m
\end{choices} %%% end choices
\question \includegraphics[width=0.16\textwidth]{RC-switch.png}A parallel plate capacitor with a capicatnce C=1.40E-06\,F whose plates have an area A=980.0\,m\textsuperscript{2} and separation d=6.20E-03\,m is connected via a swith to a 8\,\textOmega\ resistor and a battery of voltage V\textsubscript{0}=53\,V as shown in the figure. The current starts to flow at time t=0 when the switch is closed. What is the magnitude of the electric field at time t=2.40E-05?
\begin{choices} %%%%%%% begin choices
\choice 5.154E+03\,V/m
\choice 5.669E+03\,V/m
\choice 6.236E+03\,V/m
\choice 6.860E+03\,V/m
\CorrectChoice 7.545E+03\,V/m
\end{choices} %%% end choices
\question \includegraphics[width=0.16\textwidth]{RC-switch.png}A parallel plate capacitor with a capicatnce C=4.30E-06\,F whose plates have an area A=2.80E+03\,m\textsuperscript{2} and separation d=5.70E-03\,m is connected via a swith to a 7\,\textOmega\ resistor and a battery of voltage V\textsubscript{0}=97\,V as shown in the figure. The current starts to flow at time t=0 when the switch is closed. What is the magnitude of the electric field at time t=7.00E-05?
\begin{choices} %%%%%%% begin choices
\choice 1.049E+04\,V/m
\choice 1.154E+04\,V/m
\choice 1.269E+04\,V/m
\choice 1.396E+04\,V/m
\CorrectChoice 1.535E+04\,V/m
\end{choices} %%% end choices
\question \includegraphics[width=0.16\textwidth]{RC-switch.png}A parallel plate capacitor with a capicatnce C=1.60E-06\,F whose plates have an area A=890.0\,m\textsuperscript{2} and separation d=4.90E-03\,m is connected via a swith to a 80\,\textOmega\ resistor and a battery of voltage V\textsubscript{0}=44\,V as shown in the figure. The current starts to flow at time t=0 when the switch is closed. What is the magnitude of the electric field at time t=2.90E-04?
\begin{choices} %%%%%%% begin choices
\choice 6.651E+03\,V/m
\choice 7.316E+03\,V/m
\CorrectChoice 8.048E+03\,V/m
\choice 8.853E+03\,V/m
\choice 9.738E+03\,V/m
\end{choices} %%% end choices
%\pagebreak
%\end{choices}%??????????????
\end{questions}%%%%%%%% end questions
\subsection{}%%%% subsection 3
\begin{questions} %%%%%%% begin questions
\question \includegraphics[width=0.16\textwidth]{RC-switch.png}A parallel plate capacitor with a capicatnce C=3.80E-06\,F whose plates have an area A=1.80E+03\,m\textsuperscript{2} and separation d=4.30E-03\,m is connected via a swith to a 41\,\textOmega\ resistor and a battery of voltage V\textsubscript{0}=39\,V as shown in the figure. The current starts to flow at time t=0 when the switch is closed. What is the magnitude of the displacement current at time t=3.60E-04?
\begin{choices} %%%%%%% begin choices
\choice 7.089E-02\,A
\choice 7.798E-02\,A
\choice 8.578E-02\,A
\CorrectChoice 9.436E-02\,A
\choice 1.038E-01\,A
\end{choices} %%% end choices
\question \includegraphics[width=0.16\textwidth]{RC-switch.png}A parallel plate capacitor with a capicatnce C=6.90E-06\,F whose plates have an area A=5.80E+03\,m\textsuperscript{2} and separation d=7.40E-03\,m is connected via a swith to a 26\,\textOmega\ resistor and a battery of voltage V\textsubscript{0}=9\,V as shown in the figure. The current starts to flow at time t=0 when the switch is closed. What is the magnitude of the displacement current at time t=4.70E-04?
\begin{choices} %%%%%%% begin choices
\choice 1.894E-02\,A
\choice 2.083E-02\,A
\choice 2.291E-02\,A
\CorrectChoice 2.520E-02\,A
\choice 2.773E-02\,A
\end{choices} %%% end choices
\question \includegraphics[width=0.16\textwidth]{RC-switch.png}A parallel plate capacitor with a capicatnce C=3.20E-06\,F whose plates have an area A=2.80E+03\,m\textsuperscript{2} and separation d=7.80E-03\,m is connected via a swith to a 17\,\textOmega\ resistor and a battery of voltage V\textsubscript{0}=94\,V as shown in the figure. The current starts to flow at time t=0 when the switch is closed. What is the magnitude of the displacement current at time t=2.20E-04?
\begin{choices} %%%%%%% begin choices
\choice 8.809E-02\,A
\CorrectChoice 9.690E-02\,A
\choice 1.066E-01\,A
\choice 1.173E-01\,A
\choice 1.290E-01\,A
\end{choices} %%% end choices
\question \includegraphics[width=0.16\textwidth]{RC-switch.png}A parallel plate capacitor with a capicatnce C=9.40E-06\,F whose plates have an area A=5.00E+03\,m\textsuperscript{2} and separation d=4.70E-03\,m is connected via a swith to a 62\,\textOmega\ resistor and a battery of voltage V\textsubscript{0}=65\,V as shown in the figure. The current starts to flow at time t=0 when the switch is closed. What is the magnitude of the displacement current at time t=9.70E-04?
\begin{choices} %%%%%%% begin choices
\CorrectChoice 1.985E-01\,A
\choice 2.183E-01\,A
\choice 2.401E-01\,A
\choice 2.642E-01\,A
\choice 2.906E-01\,A
\end{choices} %%% end choices
\question \includegraphics[width=0.16\textwidth]{RC-switch.png}A parallel plate capacitor with a capicatnce C=7.30E-06\,F whose plates have an area A=6.10E+03\,m\textsuperscript{2} and separation d=7.40E-03\,m is connected via a swith to a 18\,\textOmega\ resistor and a battery of voltage V\textsubscript{0}=8\,V as shown in the figure. The current starts to flow at time t=0 when the switch is closed. What is the magnitude of the displacement current at time t=2.20E-04?
\begin{choices} %%%%%%% begin choices
\choice 6.259E-02\,A
\choice 6.885E-02\,A
\choice 7.573E-02\,A
\CorrectChoice 8.331E-02\,A
\choice 9.164E-02\,A
\end{choices} %%% end choices
\question \includegraphics[width=0.16\textwidth]{RC-switch.png}A parallel plate capacitor with a capicatnce C=7.30E-06\,F whose plates have an area A=6.80E+03\,m\textsuperscript{2} and separation d=8.30E-03\,m is connected via a swith to a 84\,\textOmega\ resistor and a battery of voltage V\textsubscript{0}=3\,V as shown in the figure. The current starts to flow at time t=0 when the switch is closed. What is the magnitude of the displacement current at time t=2.60E-03?
\begin{choices} %%%%%%% begin choices
\choice 4.678E-04\,A
\CorrectChoice 5.145E-04\,A
\choice 5.660E-04\,A
\choice 6.226E-04\,A
\choice 6.848E-04\,A
\end{choices} %%% end choices
\question \includegraphics[width=0.16\textwidth]{RC-switch.png}A parallel plate capacitor with a capicatnce C=6.80E-06\,F whose plates have an area A=6.60E+03\,m\textsuperscript{2} and separation d=8.60E-03\,m is connected via a swith to a 62\,\textOmega\ resistor and a battery of voltage V\textsubscript{0}=36\,V as shown in the figure. The current starts to flow at time t=0 when the switch is closed. What is the magnitude of the displacement current at time t=6.60E-04?
\begin{choices} %%%%%%% begin choices
\choice 8.288E-02\,A
\choice 9.117E-02\,A
\choice 1.003E-01\,A
\choice 1.103E-01\,A
\CorrectChoice 1.213E-01\,A
\end{choices} %%% end choices
\question \includegraphics[width=0.16\textwidth]{RC-switch.png}A parallel plate capacitor with a capicatnce C=4.40E-06\,F whose plates have an area A=1.80E+03\,m\textsuperscript{2} and separation d=3.60E-03\,m is connected via a swith to a 87\,\textOmega\ resistor and a battery of voltage V\textsubscript{0}=61\,V as shown in the figure. The current starts to flow at time t=0 when the switch is closed. What is the magnitude of the displacement current at time t=6.70E-04?
\begin{choices} %%%%%%% begin choices
\choice 8.320E-02\,A
\choice 9.152E-02\,A
\choice 1.007E-01\,A
\choice 1.107E-01\,A
\CorrectChoice 1.218E-01\,A
\end{choices} %%% end choices
\question \includegraphics[width=0.16\textwidth]{RC-switch.png}A parallel plate capacitor with a capicatnce C=3.80E-06\,F whose plates have an area A=2.70E+03\,m\textsuperscript{2} and separation d=6.30E-03\,m is connected via a swith to a 85\,\textOmega\ resistor and a battery of voltage V\textsubscript{0}=22\,V as shown in the figure. The current starts to flow at time t=0 when the switch is closed. What is the magnitude of the displacement current at time t=1.50E-03?
\begin{choices} %%%%%%% begin choices
\choice 2.058E-03\,A
\choice 2.263E-03\,A
\CorrectChoice 2.490E-03\,A
\choice 2.739E-03\,A
\choice 3.013E-03\,A
\end{choices} %%% end choices
\question \includegraphics[width=0.16\textwidth]{RC-switch.png}A parallel plate capacitor with a capicatnce C=6.90E-06\,F whose plates have an area A=5.80E+03\,m\textsuperscript{2} and separation d=7.40E-03\,m is connected via a swith to a 78\,\textOmega\ resistor and a battery of voltage V\textsubscript{0}=70\,V as shown in the figure. The current starts to flow at time t=0 when the switch is closed. What is the magnitude of the displacement current at time t=2.50E-03?
\begin{choices} %%%%%%% begin choices
\choice 5.890E-03\,A
\choice 6.479E-03\,A
\choice 7.126E-03\,A
\choice 7.839E-03\,A
\CorrectChoice 8.623E-03\,A
\end{choices} %%% end choices
\question \includegraphics[width=0.16\textwidth]{RC-switch.png}A parallel plate capacitor with a capicatnce C=7.60E-06\,F whose plates have an area A=4.00E+03\,m\textsuperscript{2} and separation d=4.70E-03\,m is connected via a swith to a 38\,\textOmega\ resistor and a battery of voltage V\textsubscript{0}=28\,V as shown in the figure. The current starts to flow at time t=0 when the switch is closed. What is the magnitude of the displacement current at time t=8.10E-04?
\begin{choices} %%%%%%% begin choices
\choice 3.351E-02\,A
\choice 3.686E-02\,A
\choice 4.054E-02\,A
\CorrectChoice 4.460E-02\,A
\choice 4.906E-02\,A
\end{choices} %%% end choices
\question \includegraphics[width=0.16\textwidth]{RC-switch.png}A parallel plate capacitor with a capicatnce C=1.40E-06\,F whose plates have an area A=730.0\,m\textsuperscript{2} and separation d=4.60E-03\,m is connected via a swith to a 96\,\textOmega\ resistor and a battery of voltage V\textsubscript{0}=90\,V as shown in the figure. The current starts to flow at time t=0 when the switch is closed. What is the magnitude of the displacement current at time t=3.30E-04?
\begin{choices} %%%%%%% begin choices
\choice 7.315E-02\,A
\CorrectChoice 8.047E-02\,A
\choice 8.851E-02\,A
\choice 9.737E-02\,A
\choice 1.071E-01\,A
\end{choices} %%% end choices
\question \includegraphics[width=0.16\textwidth]{RC-switch.png}A parallel plate capacitor with a capicatnce C=4.90E-06\,F whose plates have an area A=3.00E+03\,m\textsuperscript{2} and separation d=5.40E-03\,m is connected via a swith to a 10\,\textOmega\ resistor and a battery of voltage V\textsubscript{0}=12\,V as shown in the figure. The current starts to flow at time t=0 when the switch is closed. What is the magnitude of the displacement current at time t=2.00E-04?
\begin{choices} %%%%%%% begin choices
\choice 1.841E-02\,A
\CorrectChoice 2.026E-02\,A
\choice 2.228E-02\,A
\choice 2.451E-02\,A
\choice 2.696E-02\,A
\end{choices} %%% end choices
\question \includegraphics[width=0.16\textwidth]{RC-switch.png}A parallel plate capacitor with a capicatnce C=9.80E-06\,F whose plates have an area A=1.00E+04\,m\textsuperscript{2} and separation d=9.00E-03\,m is connected via a swith to a 15\,\textOmega\ resistor and a battery of voltage V\textsubscript{0}=94\,V as shown in the figure. The current starts to flow at time t=0 when the switch is closed. What is the magnitude of the displacement current at time t=6.60E-04?
\begin{choices} %%%%%%% begin choices
\choice 6.394E-02\,A
\CorrectChoice 7.033E-02\,A
\choice 7.736E-02\,A
\choice 8.510E-02\,A
\choice 9.361E-02\,A
\end{choices} %%% end choices
\question \includegraphics[width=0.16\textwidth]{RC-switch.png}A parallel plate capacitor with a capicatnce C=3.80E-06\,F whose plates have an area A=3.00E+03\,m\textsuperscript{2} and separation d=7.10E-03\,m is connected via a swith to a 78\,\textOmega\ resistor and a battery of voltage V\textsubscript{0}=25\,V as shown in the figure. The current starts to flow at time t=0 when the switch is closed. What is the magnitude of the displacement current at time t=1.30E-03?
\begin{choices} %%%%%%% begin choices
\choice 2.998E-03\,A
\choice 3.298E-03\,A
\choice 3.628E-03\,A
\CorrectChoice 3.991E-03\,A
\choice 4.390E-03\,A
\end{choices} %%% end choices
\question \includegraphics[width=0.16\textwidth]{RC-switch.png}A parallel plate capacitor with a capicatnce C=9.20E-06\,F whose plates have an area A=7.30E+03\,m\textsuperscript{2} and separation d=7.00E-03\,m is connected via a swith to a 75\,\textOmega\ resistor and a battery of voltage V\textsubscript{0}=78\,V as shown in the figure. The current starts to flow at time t=0 when the switch is closed. What is the magnitude of the displacement current at time t=1.90E-03?
\begin{choices} %%%%%%% begin choices
\CorrectChoice 6.624E-02\,A
\choice 7.287E-02\,A
\choice 8.016E-02\,A
\choice 8.817E-02\,A
\choice 9.699E-02\,A
\end{choices} %%% end choices
\question \includegraphics[width=0.16\textwidth]{RC-switch.png}A parallel plate capacitor with a capicatnce C=5.70E-06\,F whose plates have an area A=3.20E+03\,m\textsuperscript{2} and separation d=5.00E-03\,m is connected via a swith to a 27\,\textOmega\ resistor and a battery of voltage V\textsubscript{0}=80\,V as shown in the figure. The current starts to flow at time t=0 when the switch is closed. What is the magnitude of the displacement current at time t=1.60E-04?
\begin{choices} %%%%%%% begin choices
\choice 9.524E-01\,A
\CorrectChoice 1.048E+00\,A
\choice 1.152E+00\,A
\choice 1.268E+00\,A
\choice 1.394E+00\,A
\end{choices} %%% end choices
\question \includegraphics[width=0.16\textwidth]{RC-switch.png}A parallel plate capacitor with a capicatnce C=6.60E-06\,F whose plates have an area A=4.90E+03\,m\textsuperscript{2} and separation d=6.60E-03\,m is connected via a swith to a 20\,\textOmega\ resistor and a battery of voltage V\textsubscript{0}=59\,V as shown in the figure. The current starts to flow at time t=0 when the switch is closed. What is the magnitude of the displacement current at time t=1.70E-04?
\begin{choices} %%%%%%% begin choices
\CorrectChoice 8.138E-01\,A
\choice 8.952E-01\,A
\choice 9.847E-01\,A
\choice 1.083E+00\,A
\choice 1.191E+00\,A
\end{choices} %%% end choices
\question \includegraphics[width=0.16\textwidth]{RC-switch.png}A parallel plate capacitor with a capicatnce C=5.50E-06\,F whose plates have an area A=3.00E+03\,m\textsuperscript{2} and separation d=4.90E-03\,m is connected via a swith to a 55\,\textOmega\ resistor and a battery of voltage V\textsubscript{0}=37\,V as shown in the figure. The current starts to flow at time t=0 when the switch is closed. What is the magnitude of the displacement current at time t=9.00E-04?
\begin{choices} %%%%%%% begin choices
\choice 2.580E-02\,A
\choice 2.838E-02\,A
\choice 3.121E-02\,A
\CorrectChoice 3.433E-02\,A
\choice 3.777E-02\,A
\end{choices} %%% end choices
%\pagebreak
%\end{choices}%??????????????
\end{questions}%%%%%%%% end questions
\subsection{}%%%% subsection 4
\begin{questions} %%%%%%% begin questions
\question A 46\,kW radio transmitter on Earth sends it signal to a satellite 140\,km away. At what distance in the same direction would the signal have the same maximum field strength if the transmitter's output power were increased to 73\,kW?
\begin{choices} %%%%%%% begin choices
\CorrectChoice 1.764E+02\,km
\choice 1.940E+02\,km
\choice 2.134E+02\,km
\choice 2.347E+02\,km
\choice 2.582E+02\,km
\end{choices} %%% end choices
\question A 59\,kW radio transmitter on Earth sends it signal to a satellite 120\,km away. At what distance in the same direction would the signal have the same maximum field strength if the transmitter's output power were increased to 73\,kW?
\begin{choices} %%%%%%% begin choices
\choice 1.003E+02\,km
\choice 1.103E+02\,km
\choice 1.213E+02\,km
\CorrectChoice 1.335E+02\,km
\choice 1.468E+02\,km
\end{choices} %%% end choices
\question A 57\,kW radio transmitter on Earth sends it signal to a satellite 120\,km away. At what distance in the same direction would the signal have the same maximum field strength if the transmitter's output power were increased to 73\,kW?
\begin{choices} %%%%%%% begin choices
\choice 1.020E+02\,km
\choice 1.122E+02\,km
\choice 1.235E+02\,km
\CorrectChoice 1.358E+02\,km
\choice 1.494E+02\,km
\end{choices} %%% end choices
\question A 58\,kW radio transmitter on Earth sends it signal to a satellite 120\,km away. At what distance in the same direction would the signal have the same maximum field strength if the transmitter's output power were increased to 98\,kW?
\begin{choices} %%%%%%% begin choices
\choice 1.418E+02\,km
\CorrectChoice 1.560E+02\,km
\choice 1.716E+02\,km
\choice 1.887E+02\,km
\choice 2.076E+02\,km
\end{choices} %%% end choices
\question A 55\,kW radio transmitter on Earth sends it signal to a satellite 130\,km away. At what distance in the same direction would the signal have the same maximum field strength if the transmitter's output power were increased to 93\,kW?
\begin{choices} %%%%%%% begin choices
\choice 1.270E+02\,km
\choice 1.397E+02\,km
\choice 1.537E+02\,km
\CorrectChoice 1.690E+02\,km
\choice 1.859E+02\,km
\end{choices} %%% end choices
\question A 59\,kW radio transmitter on Earth sends it signal to a satellite 120\,km away. At what distance in the same direction would the signal have the same maximum field strength if the transmitter's output power were increased to 84\,kW?
\begin{choices} %%%%%%% begin choices
\choice 9.780E+01\,km
\choice 1.076E+02\,km
\choice 1.183E+02\,km
\choice 1.302E+02\,km
\CorrectChoice 1.432E+02\,km
\end{choices} %%% end choices
\question A 49\,kW radio transmitter on Earth sends it signal to a satellite 120\,km away. At what distance in the same direction would the signal have the same maximum field strength if the transmitter's output power were increased to 89\,kW?
\begin{choices} %%%%%%% begin choices
\CorrectChoice 1.617E+02\,km
\choice 1.779E+02\,km
\choice 1.957E+02\,km
\choice 2.153E+02\,km
\choice 2.368E+02\,km
\end{choices} %%% end choices
\question A 42\,kW radio transmitter on Earth sends it signal to a satellite 130\,km away. At what distance in the same direction would the signal have the same maximum field strength if the transmitter's output power were increased to 94\,kW?
\begin{choices} %%%%%%% begin choices
\choice 1.768E+02\,km
\CorrectChoice 1.945E+02\,km
\choice 2.139E+02\,km
\choice 2.353E+02\,km
\choice 2.589E+02\,km
\end{choices} %%% end choices
\question A 42\,kW radio transmitter on Earth sends it signal to a satellite 130\,km away. At what distance in the same direction would the signal have the same maximum field strength if the transmitter's output power were increased to 98\,kW?
\begin{choices} %%%%%%% begin choices
\choice 1.641E+02\,km
\choice 1.805E+02\,km
\CorrectChoice 1.986E+02\,km
\choice 2.184E+02\,km
\choice 2.403E+02\,km
\end{choices} %%% end choices
\question A 41\,kW radio transmitter on Earth sends it signal to a satellite 100\,km away. At what distance in the same direction would the signal have the same maximum field strength if the transmitter's output power were increased to 98\,kW?
\begin{choices} %%%%%%% begin choices
\choice 1.405E+02\,km
\CorrectChoice 1.546E+02\,km
\choice 1.701E+02\,km
\choice 1.871E+02\,km
\choice 2.058E+02\,km
\end{choices} %%% end choices
\question A 56\,kW radio transmitter on Earth sends it signal to a satellite 140\,km away. At what distance in the same direction would the signal have the same maximum field strength if the transmitter's output power were increased to 72\,kW?
\begin{choices} %%%%%%% begin choices
\choice 1.084E+02\,km
\choice 1.193E+02\,km
\choice 1.312E+02\,km
\choice 1.443E+02\,km
\CorrectChoice 1.587E+02\,km
\end{choices} %%% end choices
\question A 48\,kW radio transmitter on Earth sends it signal to a satellite 130\,km away. At what distance in the same direction would the signal have the same maximum field strength if the transmitter's output power were increased to 80\,kW?
\begin{choices} %%%%%%% begin choices
\CorrectChoice 1.678E+02\,km
\choice 1.846E+02\,km
\choice 2.031E+02\,km
\choice 2.234E+02\,km
\choice 2.457E+02\,km
\end{choices} %%% end choices
\question A 59\,kW radio transmitter on Earth sends it signal to a satellite 150\,km away. At what distance in the same direction would the signal have the same maximum field strength if the transmitter's output power were increased to 73\,kW?
\begin{choices} %%%%%%% begin choices
\choice 1.517E+02\,km
\CorrectChoice 1.669E+02\,km
\choice 1.835E+02\,km
\choice 2.019E+02\,km
\choice 2.221E+02\,km
\end{choices} %%% end choices
\question A 58\,kW radio transmitter on Earth sends it signal to a satellite 120\,km away. At what distance in the same direction would the signal have the same maximum field strength if the transmitter's output power were increased to 88\,kW?
\begin{choices} %%%%%%% begin choices
\choice 1.111E+02\,km
\choice 1.222E+02\,km
\choice 1.344E+02\,km
\CorrectChoice 1.478E+02\,km
\choice 1.626E+02\,km
\end{choices} %%% end choices
\question A 46\,kW radio transmitter on Earth sends it signal to a satellite 120\,km away. At what distance in the same direction would the signal have the same maximum field strength if the transmitter's output power were increased to 78\,kW?
\begin{choices} %%%%%%% begin choices
\CorrectChoice 1.563E+02\,km
\choice 1.719E+02\,km
\choice 1.891E+02\,km
\choice 2.080E+02\,km
\choice 2.288E+02\,km
\end{choices} %%% end choices
\question A 59\,kW radio transmitter on Earth sends it signal to a satellite 130\,km away. At what distance in the same direction would the signal have the same maximum field strength if the transmitter's output power were increased to 76\,kW?
\begin{choices} %%%%%%% begin choices
\choice 1.008E+02\,km
\choice 1.109E+02\,km
\choice 1.219E+02\,km
\choice 1.341E+02\,km
\CorrectChoice 1.475E+02\,km
\end{choices} %%% end choices
\question A 41\,kW radio transmitter on Earth sends it signal to a satellite 160\,km away. At what distance in the same direction would the signal have the same maximum field strength if the transmitter's output power were increased to 85\,kW?
\begin{choices} %%%%%%% begin choices
\choice 2.094E+02\,km
\CorrectChoice 2.304E+02\,km
\choice 2.534E+02\,km
\choice 2.788E+02\,km
\choice 3.066E+02\,km
\end{choices} %%% end choices
\question A 48\,kW radio transmitter on Earth sends it signal to a satellite 150\,km away. At what distance in the same direction would the signal have the same maximum field strength if the transmitter's output power were increased to 96\,kW?
\begin{choices} %%%%%%% begin choices
\choice 1.753E+02\,km
\choice 1.928E+02\,km
\CorrectChoice 2.121E+02\,km
\choice 2.333E+02\,km
\choice 2.567E+02\,km
\end{choices} %%% end choices
\question A 47\,kW radio transmitter on Earth sends it signal to a satellite 130\,km away. At what distance in the same direction would the signal have the same maximum field strength if the transmitter's output power were increased to 90\,kW?
\begin{choices} %%%%%%% begin choices
\CorrectChoice 1.799E+02\,km
\choice 1.979E+02\,km
\choice 2.177E+02\,km
\choice 2.394E+02\,km
\choice 2.634E+02\,km
\end{choices} %%% end choices
%\pagebreak
%\end{choices}%??????????????
\end{questions}%%%%%%%% end questions
\subsection{}%%%% subsection 5
\begin{questions} %%%%%%% begin questions
\question What is the radiation pressure on an object that is 5.90E+11\,m away from the sun and has cross-sectional area of 0.014\,m\textsuperscript{2}? The average power output of the Sun is 3.80E+26\,W.
\begin{choices} %%%%%%% begin choices
\choice 5.268E-07\,N/m\textsuperscript{2}
\CorrectChoice 5.795E-07\,N/m\textsuperscript{2}
\choice 6.375E-07\,N/m\textsuperscript{2}
\choice 7.012E-07\,N/m\textsuperscript{2}
\choice 7.713E-07\,N/m\textsuperscript{2}
\end{choices} %%% end choices
\question What is the radiation pressure on an object that is 9.70E+11\,m away from the sun and has cross-sectional area of 0.098\,m\textsuperscript{2}? The average power output of the Sun is 3.80E+26\,W.
\begin{choices} %%%%%%% begin choices
\CorrectChoice 2.144E-07\,N/m\textsuperscript{2}
\choice 2.358E-07\,N/m\textsuperscript{2}
\choice 2.594E-07\,N/m\textsuperscript{2}
\choice 2.854E-07\,N/m\textsuperscript{2}
\choice 3.139E-07\,N/m\textsuperscript{2}
\end{choices} %%% end choices
\question What is the radiation pressure on an object that is 5.50E+11\,m away from the sun and has cross-sectional area of 0.051\,m\textsuperscript{2}? The average power output of the Sun is 3.80E+26\,W.
\begin{choices} %%%%%%% begin choices
\choice 4.555E-07\,N/m\textsuperscript{2}
\choice 5.010E-07\,N/m\textsuperscript{2}
\choice 5.511E-07\,N/m\textsuperscript{2}
\choice 6.063E-07\,N/m\textsuperscript{2}
\CorrectChoice 6.669E-07\,N/m\textsuperscript{2}
\end{choices} %%% end choices
\question What is the radiation pressure on an object that is 1.20E+11\,m away from the sun and has cross-sectional area of 0.082\,m\textsuperscript{2}? The average power output of the Sun is 3.80E+26\,W.
\begin{choices} %%%%%%% begin choices
\choice 9.568E-06\,N/m\textsuperscript{2}
\choice 1.053E-05\,N/m\textsuperscript{2}
\choice 1.158E-05\,N/m\textsuperscript{2}
\choice 1.274E-05\,N/m\textsuperscript{2}
\CorrectChoice 1.401E-05\,N/m\textsuperscript{2}
\end{choices} %%% end choices
\question What is the radiation pressure on an object that is 2.20E+11\,m away from the sun and has cross-sectional area of 0.082\,m\textsuperscript{2}? The average power output of the Sun is 3.80E+26\,W.
\begin{choices} %%%%%%% begin choices
\choice 3.131E-06\,N/m\textsuperscript{2}
\choice 3.445E-06\,N/m\textsuperscript{2}
\choice 3.789E-06\,N/m\textsuperscript{2}
\CorrectChoice 4.168E-06\,N/m\textsuperscript{2}
\choice 4.585E-06\,N/m\textsuperscript{2}
\end{choices} %%% end choices
\question What is the radiation pressure on an object that is 8.10E+11\,m away from the sun and has cross-sectional area of 0.057\,m\textsuperscript{2}? The average power output of the Sun is 3.80E+26\,W.
\begin{choices} %%%%%%% begin choices
\CorrectChoice 3.075E-07\,N/m\textsuperscript{2}
\choice 3.382E-07\,N/m\textsuperscript{2}
\choice 3.720E-07\,N/m\textsuperscript{2}
\choice 4.092E-07\,N/m\textsuperscript{2}
\choice 4.502E-07\,N/m\textsuperscript{2}
\end{choices} %%% end choices
\question What is the radiation pressure on an object that is 2.40E+11\,m away from the sun and has cross-sectional area of 0.052\,m\textsuperscript{2}? The average power output of the Sun is 3.80E+26\,W.
\begin{choices} %%%%%%% begin choices
\choice 2.392E-06\,N/m\textsuperscript{2}
\choice 2.631E-06\,N/m\textsuperscript{2}
\choice 2.894E-06\,N/m\textsuperscript{2}
\choice 3.184E-06\,N/m\textsuperscript{2}
\CorrectChoice 3.502E-06\,N/m\textsuperscript{2}
\end{choices} %%% end choices
\question What is the radiation pressure on an object that is 8.30E+11\,m away from the sun and has cross-sectional area of 0.097\,m\textsuperscript{2}? The average power output of the Sun is 3.80E+26\,W.
\begin{choices} %%%%%%% begin choices
\CorrectChoice 2.928E-07\,N/m\textsuperscript{2}
\choice 3.221E-07\,N/m\textsuperscript{2}
\choice 3.543E-07\,N/m\textsuperscript{2}
\choice 3.898E-07\,N/m\textsuperscript{2}
\choice 4.287E-07\,N/m\textsuperscript{2}
\end{choices} %%% end choices
\question What is the radiation pressure on an object that is 5.50E+11\,m away from the sun and has cross-sectional area of 0.016\,m\textsuperscript{2}? The average power output of the Sun is 3.80E+26\,W.
\begin{choices} %%%%%%% begin choices
\CorrectChoice 6.669E-07\,N/m\textsuperscript{2}
\choice 7.336E-07\,N/m\textsuperscript{2}
\choice 8.069E-07\,N/m\textsuperscript{2}
\choice 8.876E-07\,N/m\textsuperscript{2}
\choice 9.764E-07\,N/m\textsuperscript{2}
\end{choices} %%% end choices
\question What is the radiation pressure on an object that is 8.90E+11\,m away from the sun and has cross-sectional area of 0.013\,m\textsuperscript{2}? The average power output of the Sun is 3.80E+26\,W.
\begin{choices} %%%%%%% begin choices
\choice 2.315E-07\,N/m\textsuperscript{2}
\CorrectChoice 2.547E-07\,N/m\textsuperscript{2}
\choice 2.801E-07\,N/m\textsuperscript{2}
\choice 3.082E-07\,N/m\textsuperscript{2}
\choice 3.390E-07\,N/m\textsuperscript{2}
\end{choices} %%% end choices
\question What is the radiation pressure on an object that is 1.10E+11\,m away from the sun and has cross-sectional area of 0.036\,m\textsuperscript{2}? The average power output of the Sun is 3.80E+26\,W.
\begin{choices} %%%%%%% begin choices
\choice 1.378E-05\,N/m\textsuperscript{2}
\choice 1.516E-05\,N/m\textsuperscript{2}
\CorrectChoice 1.667E-05\,N/m\textsuperscript{2}
\choice 1.834E-05\,N/m\textsuperscript{2}
\choice 2.017E-05\,N/m\textsuperscript{2}
\end{choices} %%% end choices
\question What is the radiation pressure on an object that is 9.70E+11\,m away from the sun and has cross-sectional area of 0.099\,m\textsuperscript{2}? The average power output of the Sun is 3.80E+26\,W.
\begin{choices} %%%%%%% begin choices
\choice 1.464E-07\,N/m\textsuperscript{2}
\choice 1.611E-07\,N/m\textsuperscript{2}
\choice 1.772E-07\,N/m\textsuperscript{2}
\choice 1.949E-07\,N/m\textsuperscript{2}
\CorrectChoice 2.144E-07\,N/m\textsuperscript{2}
\end{choices} %%% end choices
\question What is the radiation pressure on an object that is 5.50E+11\,m away from the sun and has cross-sectional area of 0.025\,m\textsuperscript{2}? The average power output of the Sun is 3.80E+26\,W.
\begin{choices} %%%%%%% begin choices
\choice 5.511E-07\,N/m\textsuperscript{2}
\choice 6.063E-07\,N/m\textsuperscript{2}
\CorrectChoice 6.669E-07\,N/m\textsuperscript{2}
\choice 7.336E-07\,N/m\textsuperscript{2}
\choice 8.069E-07\,N/m\textsuperscript{2}
\end{choices} %%% end choices
\question What is the radiation pressure on an object that is 2.40E+11\,m away from the sun and has cross-sectional area of 0.019\,m\textsuperscript{2}? The average power output of the Sun is 3.80E+26\,W.
\begin{choices} %%%%%%% begin choices
\choice 2.392E-06\,N/m\textsuperscript{2}
\choice 2.631E-06\,N/m\textsuperscript{2}
\choice 2.894E-06\,N/m\textsuperscript{2}
\choice 3.184E-06\,N/m\textsuperscript{2}
\CorrectChoice 3.502E-06\,N/m\textsuperscript{2}
\end{choices} %%% end choices
\question What is the radiation pressure on an object that is 9.30E+11\,m away from the sun and has cross-sectional area of 0.019\,m\textsuperscript{2}? The average power output of the Sun is 3.80E+26\,W.
\begin{choices} %%%%%%% begin choices
\CorrectChoice 2.332E-07\,N/m\textsuperscript{2}
\choice 2.566E-07\,N/m\textsuperscript{2}
\choice 2.822E-07\,N/m\textsuperscript{2}
\choice 3.104E-07\,N/m\textsuperscript{2}
\choice 3.415E-07\,N/m\textsuperscript{2}
\end{choices} %%% end choices
\question What is the radiation pressure on an object that is 6.90E+11\,m away from the sun and has cross-sectional area of 0.041\,m\textsuperscript{2}? The average power output of the Sun is 3.80E+26\,W.
\begin{choices} %%%%%%% begin choices
\choice 3.502E-07\,N/m\textsuperscript{2}
\choice 3.852E-07\,N/m\textsuperscript{2}
\CorrectChoice 4.237E-07\,N/m\textsuperscript{2}
\choice 4.661E-07\,N/m\textsuperscript{2}
\choice 5.127E-07\,N/m\textsuperscript{2}
\end{choices} %%% end choices
\question What is the radiation pressure on an object that is 1.10E+11\,m away from the sun and has cross-sectional area of 0.048\,m\textsuperscript{2}? The average power output of the Sun is 3.80E+26\,W.
\begin{choices} %%%%%%% begin choices
\choice 1.253E-05\,N/m\textsuperscript{2}
\choice 1.378E-05\,N/m\textsuperscript{2}
\choice 1.516E-05\,N/m\textsuperscript{2}
\CorrectChoice 1.667E-05\,N/m\textsuperscript{2}
\choice 1.834E-05\,N/m\textsuperscript{2}
\end{choices} %%% end choices
\question What is the radiation pressure on an object that is 9.70E+11\,m away from the sun and has cross-sectional area of 0.076\,m\textsuperscript{2}? The average power output of the Sun is 3.80E+26\,W.
\begin{choices} %%%%%%% begin choices
\choice 1.611E-07\,N/m\textsuperscript{2}
\choice 1.772E-07\,N/m\textsuperscript{2}
\choice 1.949E-07\,N/m\textsuperscript{2}
\CorrectChoice 2.144E-07\,N/m\textsuperscript{2}
\choice 2.358E-07\,N/m\textsuperscript{2}
\end{choices} %%% end choices
\question What is the radiation pressure on an object that is 5.50E+11\,m away from the sun and has cross-sectional area of 0.022\,m\textsuperscript{2}? The average power output of the Sun is 3.80E+26\,W.
\begin{choices} %%%%%%% begin choices
\choice 4.555E-07\,N/m\textsuperscript{2}
\choice 5.010E-07\,N/m\textsuperscript{2}
\choice 5.511E-07\,N/m\textsuperscript{2}
\choice 6.063E-07\,N/m\textsuperscript{2}
\CorrectChoice 6.669E-07\,N/m\textsuperscript{2}
\end{choices} %%% end choices
%\pagebreak
%\end{choices}%??????????????
\end{questions}%%%%%%%% end questions
\subsection{}%%%% subsection 6
\begin{questions} %%%%%%% begin questions
\question What is the radiation force on an object that is 5.20E+11\,m away from the sun and has cross-sectional area of 0.04\,m\textsuperscript{2}? The average power output of the Sun is 3.80E+26\,W.
\begin{choices} %%%%%%% begin choices
\choice 2.242E-08\,N
\choice 2.466E-08\,N
\choice 2.713E-08\,N
\CorrectChoice 2.984E-08\,N
\choice 3.283E-08\,N
\end{choices} %%% end choices
\question What is the radiation force on an object that is 3.80E+11\,m away from the sun and has cross-sectional area of 0.094\,m\textsuperscript{2}? The average power output of the Sun is 3.80E+26\,W.
\begin{choices} %%%%%%% begin choices
\choice 8.969E-08\,N
\choice 9.866E-08\,N
\choice 1.085E-07\,N
\choice 1.194E-07\,N
\CorrectChoice 1.313E-07\,N
\end{choices} %%% end choices
\question What is the radiation force on an object that is 1.70E+11\,m away from the sun and has cross-sectional area of 0.033\,m\textsuperscript{2}? The average power output of the Sun is 3.80E+26\,W.
\begin{choices} %%%%%%% begin choices
\choice 1.904E-07\,N
\choice 2.094E-07\,N
\CorrectChoice 2.303E-07\,N
\choice 2.534E-07\,N
\choice 2.787E-07\,N
\end{choices} %%% end choices
\question What is the radiation force on an object that is 5.50E+11\,m away from the sun and has cross-sectional area of 0.096\,m\textsuperscript{2}? The average power output of the Sun is 3.80E+26\,W.
\begin{choices} %%%%%%% begin choices
\choice 4.373E-08\,N
\choice 4.810E-08\,N
\choice 5.291E-08\,N
\choice 5.820E-08\,N
\CorrectChoice 6.402E-08\,N
\end{choices} %%% end choices
\question What is the radiation force on an object that is 2.00E+11\,m away from the sun and has cross-sectional area of 0.053\,m\textsuperscript{2}? The average power output of the Sun is 3.80E+26\,W.
\begin{choices} %%%%%%% begin choices
\CorrectChoice 2.673E-07\,N
\choice 2.940E-07\,N
\choice 3.234E-07\,N
\choice 3.558E-07\,N
\choice 3.913E-07\,N
\end{choices} %%% end choices
\question What is the radiation force on an object that is 1.60E+11\,m away from the sun and has cross-sectional area of 0.081\,m\textsuperscript{2}? The average power output of the Sun is 3.80E+26\,W.
\begin{choices} %%%%%%% begin choices
\choice 5.275E-07\,N
\choice 5.803E-07\,N
\CorrectChoice 6.383E-07\,N
\choice 7.021E-07\,N
\choice 7.723E-07\,N
\end{choices} %%% end choices
\question What is the radiation force on an object that is 5.50E+11\,m away from the sun and has cross-sectional area of 0.075\,m\textsuperscript{2}? The average power output of the Sun is 3.80E+26\,W.
\begin{choices} %%%%%%% begin choices
\CorrectChoice 5.002E-08\,N
\choice 5.502E-08\,N
\choice 6.052E-08\,N
\choice 6.657E-08\,N
\choice 7.323E-08\,N
\end{choices} %%% end choices
\question What is the radiation force on an object that is 3.60E+11\,m away from the sun and has cross-sectional area of 0.069\,m\textsuperscript{2}? The average power output of the Sun is 3.80E+26\,W.
\begin{choices} %%%%%%% begin choices
\choice 7.336E-08\,N
\choice 8.069E-08\,N
\choice 8.876E-08\,N
\choice 9.764E-08\,N
\CorrectChoice 1.074E-07\,N
\end{choices} %%% end choices
\question What is the radiation force on an object that is 5.40E+11\,m away from the sun and has cross-sectional area of 0.021\,m\textsuperscript{2}? The average power output of the Sun is 3.80E+26\,W.
\begin{choices} %%%%%%% begin choices
\choice 9.923E-09\,N
\choice 1.092E-08\,N
\choice 1.201E-08\,N
\choice 1.321E-08\,N
\CorrectChoice 1.453E-08\,N
\end{choices} %%% end choices
\question What is the radiation force on an object that is 7.60E+11\,m away from the sun and has cross-sectional area of 0.052\,m\textsuperscript{2}? The average power output of the Sun is 3.80E+26\,W.
\begin{choices} %%%%%%% begin choices
\choice 1.501E-08\,N
\choice 1.651E-08\,N
\CorrectChoice 1.816E-08\,N
\choice 1.998E-08\,N
\choice 2.198E-08\,N
\end{choices} %%% end choices
\question What is the radiation force on an object that is 7.40E+11\,m away from the sun and has cross-sectional area of 0.082\,m\textsuperscript{2}? The average power output of the Sun is 3.80E+26\,W.
\begin{choices} %%%%%%% begin choices
\choice 2.063E-08\,N
\choice 2.270E-08\,N
\choice 2.497E-08\,N
\choice 2.746E-08\,N
\CorrectChoice 3.021E-08\,N
\end{choices} %%% end choices
\question What is the radiation force on an object that is 4.70E+11\,m away from the sun and has cross-sectional area of 0.015\,m\textsuperscript{2}? The average power output of the Sun is 3.80E+26\,W.
\begin{choices} %%%%%%% begin choices
\choice 1.029E-08\,N
\choice 1.132E-08\,N
\choice 1.245E-08\,N
\CorrectChoice 1.370E-08\,N
\choice 1.507E-08\,N
\end{choices} %%% end choices
\question What is the radiation force on an object that is 9.70E+11\,m away from the sun and has cross-sectional area of 0.044\,m\textsuperscript{2}? The average power output of the Sun is 3.80E+26\,W.
\begin{choices} %%%%%%% begin choices
\choice 7.088E-09\,N
\choice 7.796E-09\,N
\choice 8.576E-09\,N
\CorrectChoice 9.434E-09\,N
\choice 1.038E-08\,N
\end{choices} %%% end choices
\question What is the radiation force on an object that is 2.50E+11\,m away from the sun and has cross-sectional area of 0.045\,m\textsuperscript{2}? The average power output of the Sun is 3.80E+26\,W.
\begin{choices} %%%%%%% begin choices
\choice 1.200E-07\,N
\choice 1.320E-07\,N
\CorrectChoice 1.452E-07\,N
\choice 1.598E-07\,N
\choice 1.757E-07\,N
\end{choices} %%% end choices
\question What is the radiation force on an object that is 8.10E+11\,m away from the sun and has cross-sectional area of 0.053\,m\textsuperscript{2}? The average power output of the Sun is 3.80E+26\,W.
\begin{choices} %%%%%%% begin choices
\CorrectChoice 1.630E-08\,N
\choice 1.793E-08\,N
\choice 1.972E-08\,N
\choice 2.169E-08\,N
\choice 2.386E-08\,N
\end{choices} %%% end choices
\question What is the radiation force on an object that is 4.70E+11\,m away from the sun and has cross-sectional area of 0.098\,m\textsuperscript{2}? The average power output of the Sun is 3.80E+26\,W.
\begin{choices} %%%%%%% begin choices
\choice 7.396E-08\,N
\choice 8.136E-08\,N
\CorrectChoice 8.950E-08\,N
\choice 9.845E-08\,N
\choice 1.083E-07\,N
\end{choices} %%% end choices
\question What is the radiation force on an object that is 9.90E+11\,m away from the sun and has cross-sectional area of 0.083\,m\textsuperscript{2}? The average power output of the Sun is 3.80E+26\,W.
\begin{choices} %%%%%%% begin choices
\choice 1.167E-08\,N
\choice 1.284E-08\,N
\choice 1.412E-08\,N
\choice 1.553E-08\,N
\CorrectChoice 1.708E-08\,N
\end{choices} %%% end choices
\question What is the radiation force on an object that is 1.20E+11\,m away from the sun and has cross-sectional area of 0.055\,m\textsuperscript{2}? The average power output of the Sun is 3.80E+26\,W.
\begin{choices} %%%%%%% begin choices
\choice 5.263E-07\,N
\choice 5.789E-07\,N
\choice 6.368E-07\,N
\choice 7.005E-07\,N
\CorrectChoice 7.705E-07\,N
\end{choices} %%% end choices
\question What is the radiation force on an object that is 6.70E+11\,m away from the sun and has cross-sectional area of 0.095\,m\textsuperscript{2}? The average power output of the Sun is 3.80E+26\,W.
\begin{choices} %%%%%%% begin choices
\choice 3.528E-08\,N
\choice 3.881E-08\,N
\CorrectChoice 4.269E-08\,N
\choice 4.696E-08\,N
\choice 5.166E-08\,N
\end{choices} %%% end choices
\end{questions}
\pagebreak
\section{Attribution}
\theendnotes
\end{document}
```