QB/a10rotationalMotionAngMom dynamics
Appearance
< QB
- 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)
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
See special:permalink/1863455 for a wikitext version of this quiz.
LaTexMarkup begin
[edit | edit source]%[[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:Yo yo moment of inertia.jpg|45px]]
%This code creates both the question and answer key using \newcommand\mytest
%%% EDIT QUIZ INFO HERE %%%%%%%%%%%%%%%%%%%%%%%%%%%
\newcommand{\quizname}{QB/a10rotationalMotionAngMom_dynamics}
\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{a10rotationalMotionAngMom\_dynamics}
\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/1863455}}
\end{center}
\begin{frame}{}
\begin{multicols}{3}
\tableofcontents
\end{multicols}
\end{frame}
\pagebreak\section{Quiz}
\keytrue
\printanswers
\begin{questions}
\question A car with a tire radius of 0.26 m accelerates from 0 to 36 m/s in 6.8 seconds. What is the angular acceleration of the wheel?\ifkey\endnote{a10rotationalMotionAngMom\_dynamics\_1 placed in Public Domain by Guy Vandegrift: {\url{https://en.wikiversity.org/wiki/special:permalink/1863455}}}\fi
\begin{choices}
\choice 1.15 x 10\textsuperscript{1} m
\choice 1.39 x 10\textsuperscript{1} m
\choice 1.68 x 10\textsuperscript{1} m
\CorrectChoice 2.04 x 10\textsuperscript{1} m
\choice 2.47 x 10\textsuperscript{1} m
\end{choices}
\question A lead filled bicycle wheel of radius 0.57 m and mass 2.2 kg is rotating at a frequency of 1.7 revolutions per second. What is the moment of inertia?\ifkey\endnote{a10rotationalMotionAngMom\_dynamics\_2 placed in Public Domain by Guy Vandegrift: {\url{https://en.wikiversity.org/wiki/special:permalink/1863455}}}\fi
\begin{choices}
\choice 4.02 x 10\textsuperscript{-1} kg m\textsuperscript{2}/s\textsuperscript{2}
\choice 4.87 x 10\textsuperscript{-1} kg m\textsuperscript{2}/s\textsuperscript{2}
\choice 5.9 x 10\textsuperscript{-1} kg m\textsuperscript{2}/s\textsuperscript{2}
\CorrectChoice 7.15 x 10\textsuperscript{-1} kg m\textsuperscript{2}/s\textsuperscript{2}
\choice 8.66 x 10\textsuperscript{-1} kg m\textsuperscript{2}/s\textsuperscript{2}
\end{choices}
\question A lead filled bicycle wheel of radius 0.57 m and mass 2.2 kg is rotating at a frequency of 1.7 revolutions per second. What is the total kinetic energy if the wheel is rotating about a stationary axis?\ifkey\endnote{a10rotationalMotionAngMom\_dynamics\_3 placed in Public Domain by Guy Vandegrift: {\url{https://en.wikiversity.org/wiki/special:permalink/1863455}}}\fi
\begin{choices}
\choice 1.99 x 10\textsuperscript{1} J
\choice 2.29 x 10\textsuperscript{1} J
\choice 2.76 x 10\textsuperscript{1} J
\choice 3.43 x 10\textsuperscript{1} J
\CorrectChoice 4.08 x 10\textsuperscript{1} J
\end{choices}
\question
\includegraphics[width=0.2\textwidth]{Yo_yo_moment_of_inertia.png}The moment of inertia of a solid disk of mass, M, and radius, R, is \(\tfrac{1}{2}MR^2\). Two identical disks, each with mass 3.8 kg are attached. The larger disk has a diameter of 0.9 m, and the smaller disk has a diameter of 0.46 m. If a force of 76 N is applied at the rim of the smaller disk, what is the angular acceleration?\ifkey\endnote{a10rotationalMotionAngMom\_dynamics\_4 placed in Public Domain by Guy Vandegrift: {\url{https://en.wikiversity.org/wiki/special:permalink/1863455}}}\fi
\begin{choices}
\choice 2.03 x 10\textsuperscript{1} s\textsuperscript{-2}
\choice 2.45 x 10\textsuperscript{1} s\textsuperscript{-2}
\choice 2.97 x 10\textsuperscript{1} s\textsuperscript{-2}
\CorrectChoice 3.6 x 10\textsuperscript{1} s\textsuperscript{-2}
\choice 4.36 x 10\textsuperscript{1} s\textsuperscript{-2}
\end{choices}
\end{questions}
\newpage\section{Renditions}
\subsection{}%%%% subsection 1
\begin{questions} %%%%%%% begin questions
\question A car with a tire radius of 0.26 m accelerates from 0 to 27 m/s in 9.5 seconds. What is the angular acceleration of the wheel?
\begin{choices} %%%%%%% begin choices
\CorrectChoice 1.09 x 10\textsuperscript{1} m
\choice 1.32 x 10\textsuperscript{1} m
\choice 1.6 x 10\textsuperscript{1} m
\choice 1.94 x 10\textsuperscript{1} m
\choice 2.36 x 10\textsuperscript{1} m
\end{choices} %%% end choices
\question A car with a tire radius of 0.35 m accelerates from 0 to 32 m/s in 8.8 seconds. What is the angular acceleration of the wheel?
\begin{choices} %%%%%%% begin choices
\choice 5.84 x 10\textsuperscript{0} m
\choice 7.08 x 10\textsuperscript{0} m
\choice 8.58 x 10\textsuperscript{0} m
\CorrectChoice 1.04 x 10\textsuperscript{1} m
\choice 1.26 x 10\textsuperscript{1} m
\end{choices} %%% end choices
\question A car with a tire radius of 0.34 m accelerates from 0 to 25 m/s in 9.2 seconds. What is the angular acceleration of the wheel?
\begin{choices} %%%%%%% begin choices
\choice 5.45 x 10\textsuperscript{0} m
\choice 6.6 x 10\textsuperscript{0} m
\CorrectChoice 7.99 x 10\textsuperscript{0} m
\choice 9.68 x 10\textsuperscript{0} m
\choice 1.17 x 10\textsuperscript{1} m
\end{choices} %%% end choices
\question A car with a tire radius of 0.31 m accelerates from 0 to 39 m/s in 9.3 seconds. What is the angular acceleration of the wheel?
\begin{choices} %%%%%%% begin choices
\choice 1.12 x 10\textsuperscript{1} m
\CorrectChoice 1.35 x 10\textsuperscript{1} m
\choice 1.64 x 10\textsuperscript{1} m
\choice 1.99 x 10\textsuperscript{1} m
\choice 2.41 x 10\textsuperscript{1} m
\end{choices} %%% end choices
\question A car with a tire radius of 0.21 m accelerates from 0 to 26 m/s in 11.1 seconds. What is the angular acceleration of the wheel?
\begin{choices} %%%%%%% begin choices
\choice 9.21 x 10\textsuperscript{0} m
\CorrectChoice 1.12 x 10\textsuperscript{1} m
\choice 1.35 x 10\textsuperscript{1} m
\choice 1.64 x 10\textsuperscript{1} m
\choice 1.98 x 10\textsuperscript{1} m
\end{choices} %%% end choices
\question A car with a tire radius of 0.24 m accelerates from 0 to 33 m/s in 8.5 seconds. What is the angular acceleration of the wheel?
\begin{choices} %%%%%%% begin choices
\choice 1.34 x 10\textsuperscript{1} m
\CorrectChoice 1.62 x 10\textsuperscript{1} m
\choice 1.96 x 10\textsuperscript{1} m
\choice 2.37 x 10\textsuperscript{1} m
\choice 2.88 x 10\textsuperscript{1} m
\end{choices} %%% end choices
\question A car with a tire radius of 0.21 m accelerates from 0 to 26 m/s in 9.1 seconds. What is the angular acceleration of the wheel?
\begin{choices} %%%%%%% begin choices
\choice 7.65 x 10\textsuperscript{0} m
\choice 9.27 x 10\textsuperscript{0} m
\choice 1.12 x 10\textsuperscript{1} m
\CorrectChoice 1.36 x 10\textsuperscript{1} m
\choice 1.65 x 10\textsuperscript{1} m
\end{choices} %%% end choices
\question A car with a tire radius of 0.28 m accelerates from 0 to 22 m/s in 10 seconds. What is the angular acceleration of the wheel?
\begin{choices} %%%%%%% begin choices
\choice 5.35 x 10\textsuperscript{0} m
\choice 6.49 x 10\textsuperscript{0} m
\CorrectChoice 7.86 x 10\textsuperscript{0} m
\choice 9.52 x 10\textsuperscript{0} m
\choice 1.15 x 10\textsuperscript{1} m
\end{choices} %%% end choices
\question A car with a tire radius of 0.23 m accelerates from 0 to 31 m/s in 11.3 seconds. What is the angular acceleration of the wheel?
\begin{choices} %%%%%%% begin choices
\choice 9.85 x 10\textsuperscript{0} m
\CorrectChoice 1.19 x 10\textsuperscript{1} m
\choice 1.45 x 10\textsuperscript{1} m
\choice 1.75 x 10\textsuperscript{1} m
\choice 2.12 x 10\textsuperscript{1} m
\end{choices} %%% end choices
\question A car with a tire radius of 0.21 m accelerates from 0 to 29 m/s in 11 seconds. What is the angular acceleration of the wheel?
\begin{choices} %%%%%%% begin choices
\CorrectChoice 1.26 x 10\textsuperscript{1} m
\choice 1.52 x 10\textsuperscript{1} m
\choice 1.84 x 10\textsuperscript{1} m
\choice 2.23 x 10\textsuperscript{1} m
\choice 2.7 x 10\textsuperscript{1} m
\end{choices} %%% end choices
\question A car with a tire radius of 0.23 m accelerates from 0 to 23 m/s in 10.5 seconds. What is the angular acceleration of the wheel?
\begin{choices} %%%%%%% begin choices
\CorrectChoice 9.52 x 10\textsuperscript{0} m
\choice 1.15 x 10\textsuperscript{1} m
\choice 1.4 x 10\textsuperscript{1} m
\choice 1.69 x 10\textsuperscript{1} m
\choice 2.05 x 10\textsuperscript{1} m
\end{choices} %%% end choices
\question A car with a tire radius of 0.37 m accelerates from 0 to 28 m/s in 11.9 seconds. What is the angular acceleration of the wheel?
\begin{choices} %%%%%%% begin choices
\CorrectChoice 6.36 x 10\textsuperscript{0} m
\choice 7.7 x 10\textsuperscript{0} m
\choice 9.33 x 10\textsuperscript{0} m
\choice 1.13 x 10\textsuperscript{1} m
\choice 1.37 x 10\textsuperscript{1} m
\pagebreak
\end{choices}
\end{questions}%%%%%%%% end questions
\subsection{}%%%% subsection 2
\begin{questions} %%%%%%% begin questions
\question A lead filled bicycle wheel of radius 0.47 m and mass 2.2 kg is rotating at a frequency of 1.9 revolutions per second. What is the moment of inertia?
\begin{choices} %%%%%%% begin choices
\choice 3.31 x 10\textsuperscript{-1} kg m\textsuperscript{2}/s\textsuperscript{2}
\choice 4.01 x 10\textsuperscript{-1} kg m\textsuperscript{2}/s\textsuperscript{2}
\CorrectChoice 4.86 x 10\textsuperscript{-1} kg m\textsuperscript{2}/s\textsuperscript{2}
\choice 5.89 x 10\textsuperscript{-1} kg m\textsuperscript{2}/s\textsuperscript{2}
\choice 7.13 x 10\textsuperscript{-1} kg m\textsuperscript{2}/s\textsuperscript{2}
\end{choices} %%% end choices
\question A lead filled bicycle wheel of radius 0.33 m and mass 2.2 kg is rotating at a frequency of 1.3 revolutions per second. What is the moment of inertia?
\begin{choices} %%%%%%% begin choices
\CorrectChoice 2.4 x 10\textsuperscript{-1} kg m\textsuperscript{2}/s\textsuperscript{2}
\choice 2.9 x 10\textsuperscript{-1} kg m\textsuperscript{2}/s\textsuperscript{2}
\choice 3.52 x 10\textsuperscript{-1} kg m\textsuperscript{2}/s\textsuperscript{2}
\choice 4.26 x 10\textsuperscript{-1} kg m\textsuperscript{2}/s\textsuperscript{2}
\choice 5.16 x 10\textsuperscript{-1} kg m\textsuperscript{2}/s\textsuperscript{2}
\end{choices} %%% end choices
\question A lead filled bicycle wheel of radius 0.37 m and mass 2.3 kg is rotating at a frequency of 1.6 revolutions per second. What is the moment of inertia?
\begin{choices} %%%%%%% begin choices
\CorrectChoice 3.15 x 10\textsuperscript{-1} kg m\textsuperscript{2}/s\textsuperscript{2}
\choice 3.81 x 10\textsuperscript{-1} kg m\textsuperscript{2}/s\textsuperscript{2}
\choice 4.62 x 10\textsuperscript{-1} kg m\textsuperscript{2}/s\textsuperscript{2}
\choice 5.6 x 10\textsuperscript{-1} kg m\textsuperscript{2}/s\textsuperscript{2}
\choice 6.78 x 10\textsuperscript{-1} kg m\textsuperscript{2}/s\textsuperscript{2}
\end{choices} %%% end choices
\question A lead filled bicycle wheel of radius 0.35 m and mass 2.7 kg is rotating at a frequency of 1.5 revolutions per second. What is the moment of inertia?
\begin{choices} %%%%%%% begin choices
\choice 2.25 x 10\textsuperscript{-1} kg m\textsuperscript{2}/s\textsuperscript{2}
\choice 2.73 x 10\textsuperscript{-1} kg m\textsuperscript{2}/s\textsuperscript{2}
\CorrectChoice 3.31 x 10\textsuperscript{-1} kg m\textsuperscript{2}/s\textsuperscript{2}
\choice 4.01 x 10\textsuperscript{-1} kg m\textsuperscript{2}/s\textsuperscript{2}
\choice 4.85 x 10\textsuperscript{-1} kg m\textsuperscript{2}/s\textsuperscript{2}
\end{choices} %%% end choices
\question A lead filled bicycle wheel of radius 0.56 m and mass 2.9 kg is rotating at a frequency of 1.6 revolutions per second. What is the moment of inertia?
\begin{choices} %%%%%%% begin choices
\choice 7.51 x 10\textsuperscript{-1} kg m\textsuperscript{2}/s\textsuperscript{2}
\CorrectChoice 9.09 x 10\textsuperscript{-1} kg m\textsuperscript{2}/s\textsuperscript{2}
\choice 1.1 x 10\textsuperscript{0} kg m\textsuperscript{2}/s\textsuperscript{2}
\choice 1.33 x 10\textsuperscript{0} kg m\textsuperscript{2}/s\textsuperscript{2}
\choice 1.62 x 10\textsuperscript{0} kg m\textsuperscript{2}/s\textsuperscript{2}
\end{choices} %%% end choices
\question A lead filled bicycle wheel of radius 0.43 m and mass 2.2 kg is rotating at a frequency of 1.1 revolutions per second. What is the moment of inertia?
\begin{choices} %%%%%%% begin choices
\choice 1.89 x 10\textsuperscript{-1} kg m\textsuperscript{2}/s\textsuperscript{2}
\choice 2.29 x 10\textsuperscript{-1} kg m\textsuperscript{2}/s\textsuperscript{2}
\choice 2.77 x 10\textsuperscript{-1} kg m\textsuperscript{2}/s\textsuperscript{2}
\choice 3.36 x 10\textsuperscript{-1} kg m\textsuperscript{2}/s\textsuperscript{2}
\CorrectChoice 4.07 x 10\textsuperscript{-1} kg m\textsuperscript{2}/s\textsuperscript{2}
\end{choices} %%% end choices
\question A lead filled bicycle wheel of radius 0.35 m and mass 2.3 kg is rotating at a frequency of 1.1 revolutions per second. What is the moment of inertia?
\begin{choices} %%%%%%% begin choices
\CorrectChoice 2.82 x 10\textsuperscript{-1} kg m\textsuperscript{2}/s\textsuperscript{2}
\choice 3.41 x 10\textsuperscript{-1} kg m\textsuperscript{2}/s\textsuperscript{2}
\choice 4.14 x 10\textsuperscript{-1} kg m\textsuperscript{2}/s\textsuperscript{2}
\choice 5.01 x 10\textsuperscript{-1} kg m\textsuperscript{2}/s\textsuperscript{2}
\choice 6.07 x 10\textsuperscript{-1} kg m\textsuperscript{2}/s\textsuperscript{2}
\end{choices} %%% end choices
\question A lead filled bicycle wheel of radius 0.38 m and mass 2.8 kg is rotating at a frequency of 1.7 revolutions per second. What is the moment of inertia?
\begin{choices} %%%%%%% begin choices
\choice 3.34 x 10\textsuperscript{-1} kg m\textsuperscript{2}/s\textsuperscript{2}
\CorrectChoice 4.04 x 10\textsuperscript{-1} kg m\textsuperscript{2}/s\textsuperscript{2}
\choice 4.9 x 10\textsuperscript{-1} kg m\textsuperscript{2}/s\textsuperscript{2}
\choice 5.93 x 10\textsuperscript{-1} kg m\textsuperscript{2}/s\textsuperscript{2}
\choice 7.19 x 10\textsuperscript{-1} kg m\textsuperscript{2}/s\textsuperscript{2}
\end{choices} %%% end choices
\question A lead filled bicycle wheel of radius 0.37 m and mass 2.1 kg is rotating at a frequency of 1.4 revolutions per second. What is the moment of inertia?
\begin{choices} %%%%%%% begin choices
\CorrectChoice 2.87 x 10\textsuperscript{-1} kg m\textsuperscript{2}/s\textsuperscript{2}
\choice 3.48 x 10\textsuperscript{-1} kg m\textsuperscript{2}/s\textsuperscript{2}
\choice 4.22 x 10\textsuperscript{-1} kg m\textsuperscript{2}/s\textsuperscript{2}
\choice 5.11 x 10\textsuperscript{-1} kg m\textsuperscript{2}/s\textsuperscript{2}
\choice 6.19 x 10\textsuperscript{-1} kg m\textsuperscript{2}/s\textsuperscript{2}
\end{choices} %%% end choices
\question A lead filled bicycle wheel of radius 0.58 m and mass 2.8 kg is rotating at a frequency of 1.8 revolutions per second. What is the moment of inertia?
\begin{choices} %%%%%%% begin choices
\CorrectChoice 9.42 x 10\textsuperscript{-1} kg m\textsuperscript{2}/s\textsuperscript{2}
\choice 1.14 x 10\textsuperscript{0} kg m\textsuperscript{2}/s\textsuperscript{2}
\choice 1.38 x 10\textsuperscript{0} kg m\textsuperscript{2}/s\textsuperscript{2}
\choice 1.67 x 10\textsuperscript{0} kg m\textsuperscript{2}/s\textsuperscript{2}
\choice 2.03 x 10\textsuperscript{0} kg m\textsuperscript{2}/s\textsuperscript{2}
\end{choices} %%% end choices
\question A lead filled bicycle wheel of radius 0.41 m and mass 2.9 kg is rotating at a frequency of 1.7 revolutions per second. What is the moment of inertia?
\begin{choices} %%%%%%% begin choices
\choice 4.02 x 10\textsuperscript{-1} kg m\textsuperscript{2}/s\textsuperscript{2}
\CorrectChoice 4.87 x 10\textsuperscript{-1} kg m\textsuperscript{2}/s\textsuperscript{2}
\choice 5.91 x 10\textsuperscript{-1} kg m\textsuperscript{2}/s\textsuperscript{2}
\choice 7.16 x 10\textsuperscript{-1} kg m\textsuperscript{2}/s\textsuperscript{2}
\choice 8.67 x 10\textsuperscript{-1} kg m\textsuperscript{2}/s\textsuperscript{2}
\end{choices} %%% end choices
\question A lead filled bicycle wheel of radius 0.4 m and mass 2.7 kg is rotating at a frequency of 1.6 revolutions per second. What is the moment of inertia?
\begin{choices} %%%%%%% begin choices
\CorrectChoice 4.32 x 10\textsuperscript{-1} kg m\textsuperscript{2}/s\textsuperscript{2}
\choice 5.23 x 10\textsuperscript{-1} kg m\textsuperscript{2}/s\textsuperscript{2}
\choice 6.34 x 10\textsuperscript{-1} kg m\textsuperscript{2}/s\textsuperscript{2}
\choice 7.68 x 10\textsuperscript{-1} kg m\textsuperscript{2}/s\textsuperscript{2}
\choice 9.31 x 10\textsuperscript{-1} kg m\textsuperscript{2}/s\textsuperscript{2}
\pagebreak
\end{choices}
\end{questions}%%%%%%%% end questions
\subsection{}%%%% subsection 3
\begin{questions} %%%%%%% begin questions
\question A lead filled bicycle wheel of radius 0.47 m and mass 2.2 kg is rotating at a frequency of 1.9 revolutions per second. What is the total kinetic energy if the wheel is rotating about a stationary axis?
\begin{choices} %%%%%%% begin choices
\CorrectChoice 3.46 x 10\textsuperscript{1} J
\choice 4.2 x 10\textsuperscript{1} J
\choice 5.08 x 10\textsuperscript{1} J
\choice 6.16 x 10\textsuperscript{1} J
\choice 7.46 x 10\textsuperscript{1} J
\end{choices} %%% end choices
\question A lead filled bicycle wheel of radius 0.33 m and mass 2.2 kg is rotating at a frequency of 1.3 revolutions per second. What is the total kinetic if the wheel is rotating about a stationary axis?
\begin{choices} %%%%%%% begin choices
\choice 6.6 x 10\textsuperscript{0} J
\CorrectChoice 7.99 x 10\textsuperscript{0} J
\choice 9.68 x 10\textsuperscript{0} J
\choice 1.17 x 10\textsuperscript{1} J
\choice 1.42 x 10\textsuperscript{1} J
\end{choices} %%% end choices
\question A lead filled bicycle wheel of radius 0.37 m and mass 2.3 kg is rotating at a frequency of 1.6 revolutions per second. What is the total kinetic energy if the wheel is rotating about a stationary axis?
\begin{choices} %%%%%%% begin choices
\choice 7.39 x 10\textsuperscript{0} J
\choice 8.95 x 10\textsuperscript{0} J
\choice 1.08 x 10\textsuperscript{1} J
\choice 1.31 x 10\textsuperscript{1} J
\CorrectChoice 1.59 x 10\textsuperscript{1} J
\end{choices} %%% end choices
\question A lead filled bicycle wheel of radius 0.35 m and mass 2.7 kg is rotating at a frequency of 1.5 revolutions per second. What is the total kinetic energy if the wheel is rotating about a stationary axis?
\begin{choices} %%%%%%% begin choices
\choice 8.26 x 10\textsuperscript{0} J
\choice 1 x 10\textsuperscript{1} J
\choice 1.21 x 10\textsuperscript{1} J
\CorrectChoice 1.47 x 10\textsuperscript{1} J
\choice 1.78 x 10\textsuperscript{1} J
\end{choices} %%% end choices
\question A lead filled bicycle wheel of radius 0.56 m and mass 2.9 kg is rotating at a frequency of 1.6 revolutions per second. What is the total kinetic energy if the wheel is rotating about a stationary axis?
\begin{choices} %%%%%%% begin choices
\choice 3.79 x 10\textsuperscript{1} J
\CorrectChoice 4.6 x 10\textsuperscript{1} J
\choice 5.57 x 10\textsuperscript{1} J
\choice 6.75 x 10\textsuperscript{1} J
\choice 8.17 x 10\textsuperscript{1} J
\end{choices} %%% end choices
\question A lead filled bicycle wheel of radius 0.43 m and mass 2.2 kg is rotating at a frequency of 1.1 revolutions per second. What is the total kinetic energy if the wheel is rotating about a stationary axis?
\begin{choices} %%%%%%% begin choices
\choice 4.51 x 10\textsuperscript{0} J
\choice 5.46 x 10\textsuperscript{0} J
\choice 6.62 x 10\textsuperscript{0} J
\choice 8.02 x 10\textsuperscript{0} J
\CorrectChoice 9.72 x 10\textsuperscript{0} J
\end{choices} %%% end choices
\question A lead filled bicycle wheel of radius 0.35 m and mass 2.3 kg is rotating at a frequency of 1.1 revolutions per second. What is the total kinetic energy if the wheel is rotating about a stationary axis?
\begin{choices} %%%%%%% begin choices
\choice 3.78 x 10\textsuperscript{0} J
\choice 4.58 x 10\textsuperscript{0} J
\choice 5.55 x 10\textsuperscript{0} J
\CorrectChoice 6.73 x 10\textsuperscript{0} J
\choice 8.15 x 10\textsuperscript{0} J
\end{choices} %%% end choices
\question A lead filled bicycle wheel of radius 0.38 m and mass 2.8 kg is rotating at a frequency of 1.7 revolutions per second. What is the total kinetic energy if the wheel is rotating about a stationary axis?
\begin{choices} %%%%%%% begin choices
\choice 1.07 x 10\textsuperscript{1} J
\choice 1.3 x 10\textsuperscript{1} J
\choice 1.57 x 10\textsuperscript{1} J
\choice 1.9 x 10\textsuperscript{1} J
\CorrectChoice 2.31 x 10\textsuperscript{1} J
\end{choices} %%% end choices
\question A lead filled bicycle wheel of radius 0.37 m and mass 2.1 kg is rotating at a frequency of 1.4 revolutions per second. What is the total kinetic energy if the wheel is rotating about a stationary axis?
\begin{choices} %%%%%%% begin choices
\choice 5.16 x 10\textsuperscript{0} J
\choice 6.25 x 10\textsuperscript{0} J
\choice 7.58 x 10\textsuperscript{0} J
\choice 9.18 x 10\textsuperscript{0} J
\CorrectChoice 1.11 x 10\textsuperscript{1} J
\end{choices} %%% end choices
\question A lead filled bicycle wheel of radius 0.58 m and mass 2.8 kg is rotating at a frequency of 1.8 revolutions per second. What is the total kinetic energy if the wheel is rolling about a stationary axis?
\begin{choices} %%%%%%% begin choices
\choice 3.39 x 10\textsuperscript{1} J
\choice 4.1 x 10\textsuperscript{1} J
\choice 4.97 x 10\textsuperscript{1} J
\CorrectChoice 6.02 x 10\textsuperscript{1} J
\choice 7.3 x 10\textsuperscript{1} J
\end{choices} %%% end choices
\question A lead filled bicycle wheel of radius 0.41 m and mass 2.9 kg is rotating at a frequency of 1.7 revolutions per second. What is the total kinetic energy if the wheel is rolling about a stationary axis?
\begin{choices} %%%%%%% begin choices
\CorrectChoice 2.78 x 10\textsuperscript{1} J
\choice 3.37 x 10\textsuperscript{1} J
\choice 4.08 x 10\textsuperscript{1} J
\choice 4.95 x 10\textsuperscript{1} J
\choice 5.99 x 10\textsuperscript{1} J
\end{choices} %%% end choices
\question A lead filled bicycle wheel of radius 0.4 m and mass 2.7 kg is rotating at a frequency of 1.6 revolutions per second. What is the total kinetic energy if the wheel is rolling about a stationary axis?
\begin{choices} %%%%%%% begin choices
\choice 1.23 x 10\textsuperscript{1} J
\choice 1.49 x 10\textsuperscript{1} J
\choice 1.8 x 10\textsuperscript{1} J
\CorrectChoice 2.18 x 10\textsuperscript{1} J
\choice 2.64 x 10\textsuperscript{1} J
\pagebreak
\end{choices}
\end{questions}%%%%%%%% end questions
\subsection{}%%%% subsection 4
\begin{questions} %%%%%%% begin questions
\question
\includegraphics[width=0.2\textwidth]{Yo_yo_moment_of_inertia.png}The moment of inertia of a solid disk of mass, M, and radius, R, is \(\tfrac{1}{2}MR^2\). Two identical disks, each with mass 2.7 kg are attached. The larger disk has a diameter of 0.87 m, and the smaller disk has a diameter of 0.45 m. If a force of 55 N is applied at the rim of the smaller disk, what is the angular acceleration?
\begin{choices} %%%%%%% begin choices
\choice 2.6 x 10\textsuperscript{1} s\textsuperscript{-2}
\choice 3.15 x 10\textsuperscript{1} s\textsuperscript{-2}
\CorrectChoice 3.82 x 10\textsuperscript{1} s\textsuperscript{-2}
\choice 4.63 x 10\textsuperscript{1} s\textsuperscript{-2}
\choice 5.61 x 10\textsuperscript{1} s\textsuperscript{-2}
\end{choices} %%% end choices
\question
\includegraphics[width=0.2\textwidth]{Yo_yo_moment_of_inertia.png}The moment of inertia of a solid disk of mass, M, and radius, R, is \(\tfrac{1}{2}MR^2\). Two identical disks, each with mass 3.6 kg are attached. The larger disk has a diameter of 0.71 m, and the smaller disk has a diameter of 0.32 m. If a force of 13 N is applied at the rim of the smaller disk, what is the angular acceleration?
\begin{choices} %%%%%%% begin choices
\choice 5.19 x 10\textsuperscript{0} s\textsuperscript{-2}
\choice 6.29 x 10\textsuperscript{0} s\textsuperscript{-2}
\CorrectChoice 7.62 x 10\textsuperscript{0} s\textsuperscript{-2}
\choice 9.23 x 10\textsuperscript{0} s\textsuperscript{-2}
\choice 1.12 x 10\textsuperscript{1} s\textsuperscript{-2}
\end{choices} %%% end choices
\question
\includegraphics[width=0.2\textwidth]{Yo_yo_moment_of_inertia.png}The moment of inertia of a solid disk of mass, M, and radius, R, is \(\tfrac{1}{2}MR^2\). Two identical disks, each with mass 4.7 kg are attached. The larger disk has a diameter of 0.81 m, and the smaller disk has a diameter of 0.44 m. If a force of 97 N is applied at the rim of the smaller disk, what is the angular acceleration?
\begin{choices} %%%%%%% begin choices
\CorrectChoice 4.27 x 10\textsuperscript{1} s\textsuperscript{-2}
\choice 5.18 x 10\textsuperscript{1} s\textsuperscript{-2}
\choice 6.27 x 10\textsuperscript{1} s\textsuperscript{-2}
\choice 7.6 x 10\textsuperscript{1} s\textsuperscript{-2}
\choice 9.21 x 10\textsuperscript{1} s\textsuperscript{-2}
\end{choices} %%% end choices
\question
\includegraphics[width=0.2\textwidth]{Yo_yo_moment_of_inertia.png}The moment of inertia of a solid disk of mass, M, and radius, R, is \(\tfrac{1}{2}MR^2\). Two identical disks, each with mass 3.4 kg are attached. The larger disk has a diameter of 0.91 m, and the smaller disk has a diameter of 0.56 m. If a force of 35 N is applied at the rim of the smaller disk, what is the angular acceleration?
\begin{choices} %%%%%%% begin choices
\choice 9.37 x 10\textsuperscript{0} s\textsuperscript{-2}
\choice 1.14 x 10\textsuperscript{1} s\textsuperscript{-2}
\choice 1.38 x 10\textsuperscript{1} s\textsuperscript{-2}
\choice 1.67 x 10\textsuperscript{1} s\textsuperscript{-2}
\CorrectChoice 2.02 x 10\textsuperscript{1} s\textsuperscript{-2}
\end{choices} %%% end choices
\question
\includegraphics[width=0.2\textwidth]{Yo_yo_moment_of_inertia.png}The moment of inertia of a solid disk of mass, M, and radius, R, is \(\tfrac{1}{2}MR^2\). Two identical disks, each with mass 9.3 kg are attached. The larger disk has a diameter of 0.83 m, and the smaller disk has a diameter of 0.46 m. If a force of 96 N is applied at the rim of the smaller disk, what is the angular acceleration?
\begin{choices} %%%%%%% begin choices
\choice 9.79 x 10\textsuperscript{0} s\textsuperscript{-2}
\choice 1.19 x 10\textsuperscript{1} s\textsuperscript{-2}
\choice 1.44 x 10\textsuperscript{1} s\textsuperscript{-2}
\choice 1.74 x 10\textsuperscript{1} s\textsuperscript{-2}
\CorrectChoice 2.11 x 10\textsuperscript{1} s\textsuperscript{-2}
\end{choices} %%% end choices
\question
\includegraphics[width=0.2\textwidth]{Yo_yo_moment_of_inertia.png}The moment of inertia of a solid disk of mass, M, and radius, R, is \(\tfrac{1}{2}MR^2\). Two identical disks, each with mass 3 kg are attached. The larger disk has a diameter of 0.92 m, and the smaller disk has a diameter of 0.48 m. If a force of 70 N is applied at the rim of the smaller disk, what is the angular acceleration?
\begin{choices} %%%%%%% begin choices
\choice 2.83 x 10\textsuperscript{1} s\textsuperscript{-2}
\choice 3.43 x 10\textsuperscript{1} s\textsuperscript{-2}
\CorrectChoice 4.16 x 10\textsuperscript{1} s\textsuperscript{-2}
\choice 5.04 x 10\textsuperscript{1} s\textsuperscript{-2}
\choice 6.11 x 10\textsuperscript{1} s\textsuperscript{-2}
\end{choices} %%% end choices
\question
\includegraphics[width=0.2\textwidth]{Yo_yo_moment_of_inertia.png}The moment of inertia of a solid disk of mass, M, and radius, R, is \(\tfrac{1}{2}MR^2\). Two identical disks, each with mass 5.2 kg are attached. The larger disk has a diameter of 0.92 m, and the smaller disk has a diameter of 0.47 m. If a force of 53 N is applied at the rim of the smaller disk, what is the angular acceleration?
\begin{choices} %%%%%%% begin choices
\choice 1.48 x 10\textsuperscript{1} s\textsuperscript{-2}
\CorrectChoice 1.8 x 10\textsuperscript{1} s\textsuperscript{-2}
\choice 2.18 x 10\textsuperscript{1} s\textsuperscript{-2}
\choice 2.64 x 10\textsuperscript{1} s\textsuperscript{-2}
\choice 3.19 x 10\textsuperscript{1} s\textsuperscript{-2}
\end{choices} %%% end choices
\question
\includegraphics[width=0.2\textwidth]{Yo_yo_moment_of_inertia.png}The moment of inertia of a solid disk of mass, M, and radius, R, is \(\tfrac{1}{2}MR^2\). Two identical disks, each with mass 9.7 kg are attached. The larger disk has a diameter of 0.83 m, and the smaller disk has a diameter of 0.41 m. If a force of 31 N is applied at the rim of the smaller disk, what is the angular acceleration?
\begin{choices} %%%%%%% begin choices
\choice 3.44 x 10\textsuperscript{0} s\textsuperscript{-2}
\choice 4.17 x 10\textsuperscript{0} s\textsuperscript{-2}
\choice 5.05 x 10\textsuperscript{0} s\textsuperscript{-2}
\CorrectChoice 6.12 x 10\textsuperscript{0} s\textsuperscript{-2}
\choice 7.41 x 10\textsuperscript{0} s\textsuperscript{-2}
\end{choices} %%% end choices
\question
\includegraphics[width=0.2\textwidth]{Yo_yo_moment_of_inertia.png}The moment of inertia of a solid disk of mass, M, and radius, R, is \(\tfrac{1}{2}MR^2\). Two identical disks, each with mass 1.8 kg are attached. The larger disk has a diameter of 0.85 m, and the smaller disk has a diameter of 0.44 m. If a force of 14 N is applied at the rim of the smaller disk, what is the angular acceleration?
\begin{choices} %%%%%%% begin choices
\choice 8.4 x 10\textsuperscript{0} s\textsuperscript{-2}
\choice 1.02 x 10\textsuperscript{1} s\textsuperscript{-2}
\choice 1.23 x 10\textsuperscript{1} s\textsuperscript{-2}
\CorrectChoice 1.49 x 10\textsuperscript{1} s\textsuperscript{-2}
\choice 1.81 x 10\textsuperscript{1} s\textsuperscript{-2}
\end{choices} %%% end choices
\question
\includegraphics[width=0.2\textwidth]{Yo_yo_moment_of_inertia.png}The moment of inertia of a solid disk of mass, M, and radius, R, is \(\tfrac{1}{2}MR^2\). Two identical disks, each with mass 8.1 kg are attached. The larger disk has a diameter of 0.99 m, and the smaller disk has a diameter of 0.63 m. If a force of 87 N is applied at the rim of the smaller disk, what is the angular acceleration?
\begin{choices} %%%%%%% begin choices
\choice 9.12 x 10\textsuperscript{0} s\textsuperscript{-2}
\choice 1.11 x 10\textsuperscript{1} s\textsuperscript{-2}
\choice 1.34 x 10\textsuperscript{1} s\textsuperscript{-2}
\choice 1.62 x 10\textsuperscript{1} s\textsuperscript{-2}
\CorrectChoice 1.97 x 10\textsuperscript{1} s\textsuperscript{-2}
\end{choices} %%% end choices
\question
\includegraphics[width=0.2\textwidth]{Yo_yo_moment_of_inertia.png}The moment of inertia of a solid disk of mass, M, and radius, R, is \(\tfrac{1}{2}MR^2\). Two identical disks, each with mass 3.9 kg are attached. The larger disk has a diameter of 0.9 m, and the smaller disk has a diameter of 0.46 m. If a force of 44 N is applied at the rim of the smaller disk, what is the angular acceleration?
\begin{choices} %%%%%%% begin choices
\choice 9.43 x 10\textsuperscript{0} s\textsuperscript{-2}
\choice 1.14 x 10\textsuperscript{1} s\textsuperscript{-2}
\choice 1.38 x 10\textsuperscript{1} s\textsuperscript{-2}
\choice 1.68 x 10\textsuperscript{1} s\textsuperscript{-2}
\CorrectChoice 2.03 x 10\textsuperscript{1} s\textsuperscript{-2}
\end{choices} %%% end choices
\question
\includegraphics[width=0.2\textwidth]{Yo_yo_moment_of_inertia.png}The moment of inertia of a solid disk of mass, M, and radius, R, is \(\tfrac{1}{2}MR^2\). Two identical disks, each with mass 1.8 kg are attached. The larger disk has a diameter of 0.86 m, and the smaller disk has a diameter of 0.38 m. If a force of 31 N is applied at the rim of the smaller disk, what is the angular acceleration?
\begin{choices} %%%%%%% begin choices
\choice 1.37 x 10\textsuperscript{1} s\textsuperscript{-2}
\choice 1.67 x 10\textsuperscript{1} s\textsuperscript{-2}
\choice 2.02 x 10\textsuperscript{1} s\textsuperscript{-2}
\choice 2.44 x 10\textsuperscript{1} s\textsuperscript{-2}
\CorrectChoice 2.96 x 10\textsuperscript{1} s\textsuperscript{-2}
\end{choices} %%% end choices
\end{questions}\pagebreak
\section{Attribution}
\theendnotes
\end{document}