Using Markdown

Markdown is a special kind of markup language that lets you format text with simple syntax. You can then use a converter program like pandoc to convert Markdown into whatever format you want: HTML, PDF, Word, PowerPoint, etc. (see the full list of output types here)

Type… …to get
Some text in a paragraph.

More text in the next paragraph. Always
use empty lines between paragraphs.

Some text in a paragraph.

More text in the next paragraph. Always use empty lines between paragraphs.

*Italic* or _Italic_ Italic
**Bold** or __Bold__ Bold
# Heading 1

Heading 1

## Heading 2

Heading 2

### Heading 3

Heading 3

(Go up to heading level 6 with ######)
[Link text](https://www.example.com) Link text
![Image caption](path/to/image.png) Image caption
`Inline code` with backticks Inline code with backticks
Block of code with triple backticks:
```
Block of code in between
triple backticks
```
Block of code in between
triple backticks
Optionally specify a language:
``` r
x <- c(1, 3, 5, 7)
plot(x)
```
x <- c(1, 3, 5, 7)
plot(x)
> Blockquote

Blockquote

- Things in
- an unordered
- list
  • Things in
  • an unordered
  • list
1. Things in
1. an ordered
2. list
3. Notice that the
8. numbers don't
18. matter
  1. Things in
  2. an ordered
  3. list
  4. Notice that the
  5. numbers don’t
  6. matter

Horizontal line

---

Horizontal line


Math

Markdown uses LaTeX to create fancy mathematical equations. There are like a billion little options and features available for math equations—you can find helpful examples of the the most common basic commands here.

You can use math in two different ways: inline or in a display block. To use math inline, wrap it in single dollar signs, like $y = mx + b$:

Inline math

Type…

Based on the DAG, the regression model for estimating the effect of education on wages
is $\hat{y} = \beta_0 + \beta_1 x_1 + \epsilon$, or $\text{Wages} = \beta_0 + \beta_1 \text{Education} + \epsilon$.

…to get…

Based on the DAG, the regression model for estimating the effect of education on wages is \(\hat{y} = \beta_0 + \beta_1 x_1 + \epsilon\), or \(\text{Wages} = \beta_0 + \beta_1 \text{Education} + \epsilon\)

To put an equation on its own line in a display block, wrap it in double dollar signs, like this:

Block math

Type…

The quadratic equation was an important part of high school math:

$$
x = \frac{-b \pm \sqrt{b^2 - 4ac}}{2a}
$$

But now we just use computers to solve for $x$.

…to get…

The quadratic equation was an important part of high school math:

\[ x = \frac{-b \pm \sqrt{b^2 - 4ac}}{2a} \]

But now we just use computers to solve for \(x\).


Because dollar signs are used to indicate math equations, you can’t just use dollar signs like normal if you’re writing about actual dollars. For instance, if you write This book costs $5.75 and this other costs $40, Markdown will treat everything that comes between the dollar signs as math, like so: “This book costs \(5.75 and this other costs \)40”.

To get around that, put a backslash (\) in front of the dollar signs, so that This book costs \$5.75 and this other costs \$40 becomes “This book costs $5.75 and this other costs $40”.

Tables

There are 4 different ways to hand-create tables in Markdown—I say “hand-create” because it’s normally way easier to use R to generate these things with packages like {gt} or {knitr} or {kableExtra}. The two most common are simple tables and pipe tables. You should look at the full documentation here.

Simple tables

For simple tables, type…

  Right     Left     Center     Default
-------     ------ ----------   -------
     12     12        12            12
    123     123       123          123
      1     1          1             1

Table: Caption goes here

…to get…

Caption goes here
Right Left Center Default
12 12 12 12
123 123 123 123
1 1 1 1
Pipe tables

For pipe tables, type…

| Right | Left | Default | Center |
|------:|:-----|---------|:------:|
|   12  |  12  |    12   |    12  |
|  123  |  123 |   123   |   123  |
|    1  |    1 |     1   |     1  |

Table: Caption goes here

…to get…

Caption goes here
Right Left Default Center
12 12 12 12
123 123 123 123
1 1 1 1

Footnotes

There are two different ways to add footnotes (see here for complete documentation): regular and inline.

Regular notes need (1) an identifier and (2) the actual note. The identifier can be whatever you want. Some people like to use numbers like [^1], but if you ever rearrange paragraphs or add notes before #1, the numbering will be wrong (in your Markdown file, not in the output; everything will be correct in the output). Because of that, I prefer to use some sort of text label:

Footnotes

Type…

Here is a footnote reference[^1] and here is another [^note-on-dags].

[^1]: This is a note.

[^note-on-dags]: DAGs are neat. 

And here's more of the document.

…to get…

Here is a footnote reference1 and here is another.2

And here’s more of the document.


  1. This is a note.↩︎

  2. DAGs are neat.↩︎

You can also use inline footnotes with ^[Text of the note goes here], which are often easier because you don’t need to worry about identifiers:

Inline footnotes

Type…

Causal inference is neat.^[But it can be hard too!]

…to get…

Causal inference is neat.1


  1. But it can be hard too!↩︎

Front matter

You can include a special section at the top of a Markdown document that contains metadata (or data about your document) like the title, date, author, etc. This section uses a special simple syntax named YAML (or “YAML Ain’t Markup Language”) that follows this basic outline: setting: value for setting. Here’s an example YAML metadata section. Note that it must start and end with three dashes (---).

---
title: Title of your document
date: "January 13, 2020"
author: "Your name"
---

You can put the values inside quotes (like the date and name in the example above), or you can leave them outside of quotes (like the title in the example above). I typically use quotes just to be safe—if the value you’re using has a colon (:) in it, it’ll confuse Markdown since it’ll be something like title: My cool title: a subtitle, which has two colons. It’s better to do this:

---
title: "My cool title: a subtitle"
---

If you want to use quotes inside one of the values (e.g. your document is An evaluation of "scare quotes"), you can use single quotes instead:

---
title: 'An evaluation of "scare quotes"'
---

Citations

One of the most powerful features of Markdown + pandoc is the ability to automatically cite things and generate bibliographies. to use citations, you need to create a BibTeX file (ends in .bib) that contains a database of the things you want to cite. You can do this with bibliography managers designed to work with BibTeX directly (like BibDesk on macOS), or you can use Zotero (macOS and Windows) to export a .bib file. You can download an example .bib file of all the readings from this class here.

Complete details for using citations can be found here. In brief, you need to do three things:

  1. Add a bibliography: entry to the YAML metadata:

    ---
    title: Title of your document
    date: "January 13, 2020"
    author: "Your name"
    bibliography: name_of_file.bib
    ---
  2. Choose a citation style based on a CSL file. The default is Chicago author-date, but you can choose from 2,000+ at this repository. Download the CSL file, put it in your project folder, and add an entry to the YAML metadata (or provide a URL to the online version):

    ---
    title: Title of your document
    date: "January 13, 2020"
    author: "Your name"
    bibliography: name_of_file.bib
    csl: "https://raw.githubusercontent.com/citation-style-language/styles/master/apa.csl"
    ---

    Some of the most common CSLs are:

  3. Cite things in your document. Check the documentation for full details of how to do this. Essentially, you use @citationkey inside square brackets ([]):

    Type… …to get…
    Causal inference is neat [@Rohrer:2018;
    @AngristPischke:2015].
    Causal inference is neat (Rohrer 2018; Angrist and Pischke 2015).
    Causal inference is neat [see @Rohrer:2018, p. 34;
    also @AngristPischke:2015, chapter 1].
    Causal inference is neat (see Rohrer 2018, 34; also Angrist and Pischke 2015, chap. 1).
    Angrist and Pischke say causal inference is neat
    [-@AngristPischke:2015; see also @Rohrer:2018].
    Angrist and Pischke say causal inference is neat (2015; see also Rohrer 2018).
    @AngristPischke:2015 [chapter 1] say causal
    inference is neat, and @Rohrer:2018 agrees.
    Angrist and Pischke (2015, chap. 1) say causal inference is neat, and Rohrer (2018) agrees.

    After compiling, you should have a perfectly formatted bibliography added to the end of your document too:

    Angrist, Joshua D., and Jörn-Steffen Pischke. 2015. Mastering ’Metrics: The Path from Cause to Effect. Princeton, NJ: Princeton University Press.

    Rohrer, Julia M. 2018. “Thinking Clearly About Correlations and Causation: Graphical Causal Models for Observational Data.” Advances in Methods and Practices in Psychological Science 1 (1): 27–42. https://doi.org/10.1177/2515245917745629.

Other references

These websites have additional details and examples and practice tools: