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Readme.md

How to Write your Next Thesis in LaTeX

An International Webinar between Instituto Tecnológico de Morelia, Jade University of Applied Science and Óbuda University

Repository organization

The repository is organized in the next way. The 1_basics folder includes information (presentations or guides), examples source code, and any other useful information that the attendant can review during or after the webinar.

Webinar Contents

Here you can find the highlights of each day lecture, to avoid repetitive points during the webinar.


Day 1: Introduction (Marx)

  • What is LaTeX?
  • How LaTeX works?
  • Exploring Overleaf (Windows, organization, files)
  • Compiling a basic document
  • Using basic commands and definitions
  • document options and geometry
  • Defining new vars, paragraph spaces, tabulation space, and text sizes
  • A dummy text definition command
  • The minipage challenge

Here are some basic but useful information about the eexamples and packages that we use during the webinar. If you require more deep information you can visit the links provided along the Readme file.

Example 1: Hello LaTeX

A basic example to test any LaTeX distribution is:

\documentclass{standalone}
\begin{document}
Hello \LaTeX{}
\end{document}

Example 2: Fonts and Styles

Latex Font Formats

Font formats, like bold or italics, are useful for highlight important text section by taking the reader's attention. Next are listed the most common used formats; if you need a detailed manual please look the LaTeX2e font selection manual.

Code Notes
\textbf{} for bold text
\textmd{} for medium
\textit{} for italics
\textsl{} for slanted
\underline{} for underline
\textsc{} for small capital letters
\uppercase{} for large capital letters
\textsuperscript{} for raised text
\textsubscript{} for lowered text
\texttt{} for terminal text
\oldstylenums{} for old number font

Font sizes

The font formats and sizes are not modified frequently, most of the time LaTeX makes a good work with them. However, here are some common font size modifiers to work with:

Class option 10pt 11pt 12pt
\Huge 25pt 25pt 25pt
\huge 20pt 20pt 25pt
\LARGE 17pt 17pt 20pt
\Large 14pt 14pt 17pt
\large 12pt 12pt 14pt
\normalsize(default) 10pt 11pt 12pt
\small 9pt 10pt 11pt
\footnotesize 8pt 9pt 10pt
\scriptsize 7pt 8pt 8pt
\tiny 5pt 6pt 6pt

Example 3: Geometry and Lengths

Geometry package

The documents geometry can be handle by natural LaTeX commands. Howeever, there is a useful package to make it easier. The package is Geometry.

Units

The next table list the valid units used on LaTeX 1.

Abbreviation Value
pt a point is approximately 1/72.27 inch, that means about 0.0138 inch or 0.3515 mm (exactly point is defined as 1/864 of American printer’s foot that is 249/250 of English foot)
mm a millimeter
cm a centimeter
in inch
ex roughly the height of an 'x' (lowercase) in the current font (it depends on the font used)
em roughly the width of an 'M' (uppercase) in the current font (it depends on the font used)
mu math unit equal to 1/18 em, where em is taken from the math symbols family

Day 2: Document Classes and Sectional Units

Day 3: Equations, Tables and Figures (Marx)

  • Inline equations
  • Equation's environment
  • Cross-references with \ref
  • amsmath package
  • The equation challenge
  • The Matrix challenge
  • Tables and booktabs package
  • The graphicx package and short titles
  • Subfigures challenge
  • Table of Contents
  • Changing the way it looks

The equation challenge

First the Fourier series coefficients:

Then, the complete Equation:

If you need an extended manual please take a look to the short math guide.

Matrices

By using the amsmath package it is possible to write easily matrices by:

\begin{bmatrix}
  1 & 2 & 3\\
  a & b & c
\end{bmatrix}

you also use pmatrix, Bmatrix , vmatrix, and Vmatrix.

Subfigures

%preamble
\usepackage{caption}
\usepackage{subcaption}
.....
%on body
\begin{figure}
   \centering
   \begin{subfigure}[b]{0.3\textwidth}
       \centering
       \includegraphics[width=\textwidth]{graph1}
       \caption{$y=x$}
       \label{fig:y equals x}
   \end{subfigure}
   \hfill
   \begin{subfigure}[b]{0.3\textwidth}
       \centering
       \includegraphics[width=\textwidth]{graph2}
       \caption{$y=3sinx$}
       \label{fig:three sin x}
   \end{subfigure}
   \hfill
   \begin{subfigure}[b]{0.3\textwidth}
       \centering
       \includegraphics[width=\textwidth]{graph3}
       \caption{$y=5/x$}
       \label{fig:five over x}
   \end{subfigure}
      \caption{Three simple graphs}
      \label{fig:three graphs}
\end{figure}

Subtables

\begin{table}[h]
  \begin{subtable}[h]{0.45\textwidth}
      \centering
      \begin{tabular}{l | l | l}
      Day & Max Temp & Min Temp \\
      \hline \hline
      Mon & 20 & 13\\
      Tue & 22 & 14\\
      Wed & 23 & 12\\
      Thurs & 25 & 13\\
      Fri & 18 & 7\\
      Sat & 15 & 13\\
      Sun & 20 & 13
     \end{tabular}
     \caption{First Week}
     \label{tab:week1}
  \end{subtable}
  \hfill
  \begin{subtable}[h]{0.45\textwidth}
      \centering
      \begin{tabular}{l | l | l}
      Day & Max Temp & Min Temp \\
      \hline \hline
      Mon & 17 & 11\\
      Tue & 16 & 10\\
      Wed & 14 & 8\\
      Thurs & 12 & 5\\
      Fri & 15 & 7\\
      Sat & 16 & 12\\
      Sun & 15 & 9
      \end{tabular}
      \caption{Second Week}
      \label{tab:week2}
   \end{subtable}
   \caption{Max and min temps recorded in the first two weeks of July}
   \label{tab:temps}
\end{table}

Day 4: Plots with PGFPlots package(Marx)

  • Making plots from equation
  • Plotting data from a simple experiment
  • Title, labels, and ticks configuration
  • Multi-trace plots and its configuration
  • Bar and scatter plots
  • Reading data from a CSV files

Day 5: References with Bibtex (Kai)

What is a reference? What is a good reference?

  • A simple reference Workflow with BibTEX
  • Citation Styles
  • Workflow Improvements
  • Tools
    • BibTEX
    • JabRef
    • Citavi
    • Zotero

Certficates Feedback session


  1. Extracted from Overleaf ↩︎