* [How to Fold a Julia Fractal](http://acko.net/blog/how-to-fold-a-julia-fractal/) - Brilliant use of animation to show complex mathematical processes geometrically. Shows off Wittens' MathBox library. See also: To Infinity… And Beyond!, Animate Your Way to Glory.
* [World of Mathematics](http://world.mathigon.org/)
* [A Primer on Bézier Curves](http://pomax.github.io/bezierinfo/)
* [Math Insight](http://mathinsight.org/) - Copious interactive diagrams and ingenious experiments with digital publishing (threads, notation systems)
* [Who’ll Freeze First? A Puzzle About Size and Staying Warm](http://noticing.co/on-size-and-warmth/)
* [Years You Have Left to Live, Probably](http://flowingdata.com/2015/09/23/years-you-have-left-to-live-probably/) - Great illustration of survival analysis, and of probabalistic proccesses in general. Memento mori.
* [Back to the Future of Handwriting Recognition](http://jackschaedler.github.io/handwriting-recognition/) - An Active Essay Revisiting the GRAIL Handwriting Recognizer
* [Calculating The Intersection Area of 3+ Circles](http://www.benfrederickson.com/calculating-the-intersection-of-3-or-more-circles/)
* [Line-intersection](http://bl.ocks.org/1wheel/464141fe9b940153e636) - Responsive parallel representations make the Bentley–Ottmann algorithm easier to understand.
* [Split Packing: An Algorithm for Packing Circles with up to Critical Density](https://morr.cc/split-packing/)
* [VisuAlgo](http://visualgo.net/)
* [Coloring Maps](http://roadtolarissa.com/blog/2015/01/04/coloring-maps-with-d3/) - Transforming numbers into colors
* [Interactive Diagrams for Wikipedia](https://classes.soe.ucsc.edu/cmps179/Spring13/#Week9)
* [r2d3.us](http://www.r2d3.us/visual-intro-to-machine-learning-part-1/) - a visual introduction to machine learning
* [Neural Networks And Deep Learning](http://neuralnetworksanddeeplearning.com/) - Free online interactive book about Neural Networks and Deep Learning.
* [playground.tensorflow.org](http://playground.tensorflow.org/) - a neural network playground
* [worrydream.com](http://worrydream.com/ladderofabstraction/) - up and down the ladder of abstraction – a systemic approach to interactive visualization
* [Reinventing Explanation](http://michaelnielsen.org/reinventing_explanation/) – prototyping an accessible explanation of simpson's paradox
* [blog.ncase.me](http://blog.ncase.me/explorable-explanations/) - design patterns for explorable explanations
* [simblob.blogspot.de](http://simblob.blogspot.de/2016/12/five-year-mission.html) - amit patel of red blob games looks back on 5 years of creating interactive explanations
## Tools for Explorable Explanations
*[↑ top](#contents)*
* [Tangle](http://worrydream.com/Tangle/) Js Library for reactive documents
* [Outside the box](http://simblob.blogspot.nl/2016/10/outside-box.html) On SVG and Arrows.
* [mindstorms.media.mit.edu](http://mindstorms.media.mit.edu/) - "mindstorms: children, computers, and powerful ideas", an influential 1980 book by seymour papert
* [Elements of Euclid](https://archive.org/details/firstsixbooksofe00eucl) - oliver byrne's edition of euclid's "elements" uses colored diagrams and symbols instead of letters to proof theorems about math and geometry
* [Understanding Comics](http://scottmccloud.com/2-print/1-uc/) - "The pedagogical potential of the comic form is vast and mostly untapped" —Bret Victor