root.tex

\input{preamble}

\begin{document}

\title{Phys3201 Template GT}
\author{A. Partner, B. Partner, and C. Partner}
\date{\today}
\maketitle

\begin{abstract}
  In this experiment we studied pendulum motion in a non-uniformly accelerating reference frame. \textbf{Special notes:} Prof Goldman specifically requested to not have ``100" sig figs, put font on figure axes in readable size, and don't put grids on plots!
\end{abstract}


\section{Introduction}

Motivate why you chose the problem that you did. Why is it interesting?

\blindtext %delete this line


\section{Background}

Give a brief summary of the physical theory, include any equations necessary, and cite any references you want to include. Here is how you insert an equation. According to
references the dependence of interest is given
by
\begin{gather*}
  \mathcal{L} =  \frac{1}{2} m \ell^2 ( \dot{\theta}+\dot{\phi}_0)^2 - m g_e(t) \ell \cos(\theta)\\
  \\
  m\ell^2 (\ddot{\theta} + \ddot{\phi}_0) = mg_e\ell\sin(\theta)\\
\end{gather*}
\begin{equation}
  \ddot{\phi}(t) = -\frac{g_e(t)}{\ell} \sin\left(\phi(t)-\phi_0(t)\right)
  \label{Eq:equation1} %the label lets you refer to the equation later
\end{equation}

\blindtext %delete this line

\section{Methods}


Give a schematic of the experimental setup(s) used in the experiment (see
figure). Give the description of  abbreviations
either in the figure caption or in the text. Write a description of what is
going on.

%\begin{figure}[ht] 
% read manual to see what [ht] means and for other possible options
%        \centering \includegraphics[width=0.8\columnwidth]{sr_setup}
% note that in above figure file name, "sr_setup",
% the file extension is missing. LaTeX is smart enough to find
% apropriate one (i.e. pdf, png, etc.)
% You can add this extention yourself as it seen below
% both notations are correct but above has more flexibility
%\includegraphics[width=1.0\columnwidth]{sr_setup.pdf}
%        \caption{
%                \label{fig:samplesetup} % spaces are big no-no withing labels
% things like fig: are optional in the label but it helps
% to orient yourself when you have multiple figures,
% equations and tables
%                Every figure MUST have a caption.
%        }
%\end{figure}

and eventually arrived to the
balanced photodiode as seen in the figure.


\section{Results}

In this section you will need to show your experimental results. Use tables and
graphs when it is possible. Table~\ref{tbl:bins} is an example.

\begin{table}[ht]
  \begin{center}
    \caption{Every table needs a caption.}
    \label{tbl:bins} % spaces are big no-no withing labels
    \begin{tabular}{|cc|}
      \hline
      \multicolumn{1}{|c}{$x$ (m)} & \multicolumn{1}{c|}{$V$ (V)} \\
      \hline
      0.0044151                    & 0.0030871                    \\
      0.0021633                    & 0.0021343                    \\
      0.0003600                    & 0.0018642                    \\
      0.0023831                    & 0.0013287                    \\
      \hline
    \end{tabular}
  \end{center}
\end{table}

Analysis of equatio shows \ldots

\blindtext

For example, it is easy to conclude that the
experiment and theory match each other rather well if you look at


\section{Conclusions}
Here you briefly summarize your findings. Did you learn any new physics? Was everything as expected?

\blindtext

\section{Future Work}
Since you had limited time to work on this project, what questions are left outstanding? What would be your next steps?

\blindtext

%++++++++++++++++++++++++++++++++++++++++
% References section will be created automatically 
% with inclusion of "thebibliography" environment
% as it shown below. See text starting with line
% \begin{thebibliography}{99}
% Note: with this approach it is YOUR responsibility to put them in order
% of appearance.

\begin{thebibliography}{99}

  \bibitem{melissinos}
  A.~C. Melissinos and J. Napolitano, \textit{Experiments in Modern Physics},
  (Academic Press, New York, 2003).

  \bibitem{Cyr}
  N.\ Cyr, M.\ T$\hat{e}$tu, and M.\ Breton,
  % "All-optical microwave frequency standard: a proposal,"
  IEEE Trans.\ Instrum.\ Meas.\ \textbf{42}, 640 (1993).

  \bibitem{Wiki} \emph{Expected value},  available at
  \texttt{http://en.wikipedia.org/wiki/Expected\_value}.

\end{thebibliography}


\end{document}