%% outline-sample.tex %% Copyright 1991 Peter Halvorson %% Updates for LaTeX2e copyright 2002 Seth Flaxman %% Updated for LPPL 1.3c or later by Clea F. Rees (for Seth Flaxman), 2008/10/06. % % This work may be distributed and/or modified under the % conditions of the LaTeX Project Public License, either version 1.3 % of this license or (at your option) any later version. % The latest version of this license is in % http://www.latex-project.org/lppl.txt % and version 1.3 or later is part of all distributions of LaTeX % version 2005/12/01 or later. % % This work has the LPPL maintenance status `unmaintained'. % % This work consists of the files outline.sty and outline-sample.tex. % Save file as: outline-sample.tex \documentclass{report} \usepackage{outline} % [outline] includes new outline environment. I. A. 1. a. (1) (a) % use \begin{outline} \item ... \end{outline} \pagestyle{empty} \begin{document} \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. Divertors 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}