Blocks & Labels#
1. f(t)
\
2. S(t) -> 4. X -> 5. b -> 6. SV'
/
3. h(t)
Biological: Love(t) 1, 2, 3#
\(f(t)\)
\(S(t)\)
\(h(t)=\frac{f(t)}{S(t)}\)
Politics: Thrones 4#
\(\displaystyle X\)
Selfish: Will 5, 6#
\(\beta\)
\(SV\)’
Note
This is a general note.
Tip
Here’s a helpful tip.
Warning
Warning: Proceed with caution!
Caution
Caution: Pay attention to this.
Danger
\(h(t)=\frac{f(t)}{S(t)}\) Danger: Potential hazard ahead!
1. f(t)
\
2. S(t) -> 4. X -> 5. b -> 6. SV'
/
3. h(t)
Attention
Attention: Important information highlighted.
Important
Important: Crucial information to note.
Hint
Hint: A small hint to help you out.
Highlights from the First Impact Story from 2019
Changing the culture of data science
The Turing Way is an online handbook – and global community – dedicated to fostering gold-standard reproducible research. It’s a cultural movement with the potential to transform data science
There is a crisis of reproducibility in science.
‘Publish-or-perish’ incentives and excessive data secrecy stifle progress and waste resources: siloed science is slow science.
Visit The Alan Turing Institute website for the full impact story.
Got it! To make the variable ( X ) appear larger in LaTeX, you can use the \displaystyle command within a math environment to make it larger than the standard inline math size. Here is how you can do it:
\[ \displaystyle X \]
If you want it even larger, you can use one of the font size commands such as \Huge, \huge, \LARGE, \Large, \large, \normalsize, \small, \footnotesize, \scriptsize, or \tiny. For example:
{\Huge X}
Here is an example with different sizes:
\documentclass{article}
\begin{document}
\[
\text{Normal size: } X
\]
\[
\text{\Huge Large size: } X
\]
\[
\text{\LARGE Larger size: } X
\]
\[
\text{\huge Even larger size: } X
\]
\[
\text{\Huge Largest size: } X
\]
\end{document}
Each command modifies the size of the variable ( X ) accordingly.