codex-latex-experiments/outline.tex

\documentclass[10pt, letter]{article}
\usepackage{amsfonts}

\usepackage{outlines}
\usepackage{enumitem}
\setenumerate[1]{label=\Roman*.}
\setenumerate[2]{label=\Alph*.}
\setenumerate[3]{label=\arabic*.}
\setenumerate[4]{label=\alph*.}

\usepackage{outline}


\begin{document}

\begin{verbatim}
\begin{outline}[enumerate]
   \1 Point A
      \2 Point A1
      \2 Point A2
         \3 ...
            \4 ...
   \1 Point B
      \2 Point B1
         \3 Point B1a
            \4 ...
\end{outline}

\end{verbatim}


\begin{outline}
\item {\bf Introduction }
	\begin{outline}
	\item {\bf Applications } \\ Motivation for research and applications related to the subject.
	\item {\bf Organization } \\ Explain organization of the report, what is included, and what is not.
	\end{outline}
\item {\bf Literature Survey }
\begin{outline}
	\item {\bf Experimental Work } \\
	Literature describing experiments with something in common with
	my experiment. My experiment is subdivided into section
	relating to each aspect of the whole.
		\begin{outline}
		\item {\bf Drop Delivery } \\ Literature relating to the production of droplets.
			\begin{outline}
			\item {\bf Continuous } \\ Continuous drop production methods, i.e. jet methods.
			\item {\bf Drop on Demand } \\ Drop on demand methods, i.e. ink jet devices. Produce drops whenever needed, simplifies control of frequency.
			\item {\bf Flexibility } \\ Best methods in terms of flexible velocities, volumes, and frequencies.
			\item {\bf Control Circuitry } \\ Circuitry necessary to control the drops, may include	control of generation, size, and frequency. Diverters and drop chargers.
			\item {\bf Extensibility } \\ Methods extensible to 2D applications.
			\item {\bf Recirculation } \\ Recirculation techniques, pump, none, capillary.
			\end{outline}
		\item {\bf Instrumentation } \\ Literature dealing with measurement of various parameters.
		\begin{outline}
		\item {\bf Temperature }
		\begin{outline}
		\item {\bf Heater Surface }
		\item {\bf Fluid Temperature }
		\item {\bf Heat Flux }
		\item {\bf Heat Transfer Coefficient }
		\end{outline}
		\item {\bf Drop Characteristics }
		\begin{outline}
		\item {\bf Size }
		\item {\bf Velocity }
		\item {\bf Frequency }
		\end{outline}
		\end{outline}
		\item {\bf Heating Element } \\
		Literature dealing with the heating element. Material
		properties, surface properties, heat sources.
		\begin{outline}
		\item {\bf Material }
		\item {\bf Heat Source }
		\end{outline}
		\end{outline}
		\item {\bf Analytical Work }
		\begin{outline}
		\item {\bf Evaporation }
		\item {\bf Boiling }
		\item {\bf Leidenfrost Temperatures }
		\item {\bf Heat Transfer }
		\item {\bf Numerical Analysis }
		\begin{outline}
		\item {\bf Drop Characteristics }
		\item {\bf Surface Wetting }
		\item {\bf Transient Temperatures }
		\end{outline}
	\end{outline}
\end{outline}
\item {\bf Proposed Research }
	\begin{outline}
	\item {\bf Experimental Work }
	\item {\bf Analytical Work }
	\end{outline}
\end{outline}


\end{document}