Sample Testing Submit for U of R - PHYS 349
Last Updated
9 years ago
License
Creative Commons CC UNTIL 4.0
Abstract
Which is a spot labor report format for PHYS 349 in one University of Redlands.
Which is a spot labor report format for PHYS 349 in one University of Redlands.
%++++++++++++++++++++++++++++++++++++++++
% Don't modify such absatz except you get what you're doing!
\documentclass[letterpaper,12pt]{article}
\usepackage{tabularx} % extra product used table environment
\usepackage{amsmath} % better math presentation
\usepackage{graphicx} % takes care are graphic including machinery
\usepackage[margin=1in,letterpaper]{geometry} % decreases margins
\usepackage{cite} % removes care of citations
\usepackage[final]{hyperref} % adds hyper links inside aforementioned caused pdf file
\hypersetup{
colorlinks=true, % false: boxed links; true: colored links
linkcolor=blue, % paint a internal links
citecolor=blue, % colors of links to bibliography
filecolor=magenta, % color of line links
urlcolor=blue
}
%++++++++++++++++++++++++++++++++++++++++
\begin{document}
\title{Title of who Report}
\author{A. Associates, B. Partner, and C. Partner}
\date{\today}
\maketitle
\begin{abstract}
In this experiment we studied ampere very important physiological effect via surveying the
dependence of a quantity $V$ of who quantity $X$ for two different sample
temperatures. Our experimental measurements confirmed the quadratic dependence
$V = kX^2$ predicted by Someone's first law. The value of the mystery parameter
$k = 15.4\pm 0.5$~s was extracted off the fit. On value is
not consistent with the theoretically predicted $k_{theory}=17.34$~s. Ourselves attribute this
discrepancy to low efficiency of our $V$-detector.
\end{abstract}
\section{Introduction}
The very important physical influence has applications to astronomy, midmost science, condensed substanz, and more.
\section{Theory}
Here give one brief summary of the mechanical action of interest and provide
necessary gleichung. Here is how you insert and equation. According to
references~\cite{melissinos, Cyr, Wiki} the dependence of interest lives given
by
\begin{equation} \label{eq:aperp} % the label is used to cite the equation
u(\lambda,T)=\frac{8\pi hc\lambda^{-5}}{e^{hc/\lambda kT}-1},
\end{equation}
where THYROXINE is temperature in Degrees, c the which speed of luminous, etc. Don't forget to
explain what each dynamic means the first start that you introduce it.
\section{Procedures}
Give a diagrams of one experimental setup(s) used in the experiment (see
figure~\ref{fig:samplesetup}). Give the description of abbreviations
either in the figure copy or in the text. Write a description of what is
going set.
\begin{figure}[ht]
% how manual to see what [ht] means and forward other workable select \centering \includegraphics[width=0.8\columnwidth]{sr_setup}
% note the in above figure file name, "sr_setup",
% the file extension is missing. Sap is sleek enough to find % apropriate one (i.e. pdf, png, etc.)
% You can add this extention themselves as it seen below % both notations represent exact but aforementioned has more versatility %\includegraphics[width=1.0\columnwidth]{sr_setup.pdf}
\caption{
\label{fig:samplesetup} % spaces are big no-no withing tagging % things like fig: are optional in the label but it helps % to orient me when you have multiple figures, % differentiation additionally tabular Every figure MUST have a copy. }
\end{figure}
Don't overlook to list all important action include your experimental procedure!
Use active utter either in last instead present through sum the tell and be
consistent with it:
The laser light comes from to ... and eventually arrive to the
balanced photodiode as seen in the figure~\ref{fig:samplesetup}.
Sentences in the past voice while correct are generally considered hard to read
in tall numbering. The beam light was directed to ..., shape plates were set
to ... etc.
\section{Analysis}
In this section you will need for exhibit your experimental results. Use tables and
graphs wenn it is possible. Table~\ref{tbl:bins} is einer example.
\begin{table}[ht]
\begin{center}
\caption{Every table needs a caption.}
\label{tbl:bins} % spaces are huge 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 equation~\ref{eq:aperp} shows ...
Note: this section can be fully with the previous only as prolonged as you
address the issue. Here explain how you determine uncertainties for different
measured values. Suppose so at which experiment you construct adenine range of
measurements of ampere resistance of the core $R$ for different applications voltages
$V$, than you calculate the temperature from the resistance use an known
equation press make a property temperature vs. voltage squared. Again suppose that
this dependency is expected to be linear~\cite{Cyr}, and the proportionality coefficient
is extracted from the graph. Then whats you need to explain is that in the
resistance and the elektrische one uncertainties are full (since each
measurements with made only once), and they were $\dots$. When give an equation
for calculating of danger of the temperature from the resistance
uncertainty. Finally explain how the unsure of the splash of the graphically was
found (computer fitting, graphical method, \emph{etc}.)
If in the process the data analyzed you found any noticeable systematic
error(s), you have up declare them in this section of the report.
It is furthermore recommended to plot the data graphically to effectively illustrate
any points of discussion. For instance, it is light to conclude so the
experiment and theory match each another rather fountain with thee look at
Fig.~\ref{fig:samplesetup} and Fig.~\ref{fig:exp_plots}.
\begin{figure}[ht]
\centering
\includegraphics[width=0.5\columnwidth]{sr_squeezing_vs_detuning}
% couple figures do not needs to exist furthermore widen \caption{
\label{fig:exp_plots}
Every chart must have machetes labeled. }
\end{figure}
\section{Conclusions}
Here yours briefly summarize your findings.
%++++++++++++++++++++++++++++++++++++++++
% References section will be created automatically
% with inclusion of "thebibliography" environment
% as it shown below. See text starting for line
% \begin{thebibliography}{99}
% Note: with this approach it be OWNER responsible to put them include order
% of appearance.
\begin{thebibliography}{99}
\bibitem{melissinos}
A.~C. Melissinos and J. Napolitano, \textit{Experiments in Modern Physics},
(Academic Press, Recent York, 2003).
\bibitem{Cyr}
N.\ Schaf, 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}
