There are 3 repositories under numberphile topic.
Balls bouncing in a ring. This simulation outlines how chaos emerges from a simple ball bouncing around in a ring. This code was inspired by a numberphile video on chaos-theory.
A repository for simulating some of the interesting mathematics problems discussed on the popular YouTube channel, NumberPhile. One implementation done so far is a visualization of the golden ratio turning into sequences of flower petals.
Recreation of the animations shown in Numberphile's "Beautiful Trigonometry"
Recamán's sequence image and animation generator
A collection of some algorithms on generating numerous prime sequences
Programming and Plotting Graphs From the Numberphile "Amazing Graphs" Series
Javascript visualization of "The Trapped Knight" math problem invented by Neil Sloane.
self-made "chaos games" problem realization as described in the video https://www.youtube.com/watch?v=kbKtFN71Lfs using kotlin
Trying to find a magic square of squares, see https://www.youtube.com/watch?v=aOT_bG-vWyg
Interactive visualizations of interesting math phenomena (LIVE DEMO). Most are inspired by Youtube videos.
Let's you play around with different types of Cellular Automata e.g. Conway's Game Of Life, Ulam Stanislaw's Cellular Automaton
Simulation of the English Premiere League as seen on Numberphile, but in C and with a few addons I was curious to check out.
This script compute the number of step to finish the hydra game, see https://www.youtube.com/watch?v=prURA1i8Qj4
6 completely different algorithms to create a SierpinskiTriangle using P5
Projeto simples feito com propósito de responder uma pergunta no Brainly
Tool for solving math problems involving finding an expression for a given value. (like numberphile's 10958 problem)
Balls bouncing inside of a circle. This was inspired by a similar Numberphile video on chaotic systems.
An illustration of videos on Numberphile channel (if they are possible)
Python code to generate a barnsley fern and a mutated version of the barnsley fern.
A simulation based on the numberphile video, Two Candles, One Cake
Small React app demonstrating some shortcuts for testing divisibility of integers.
An interactive visualisation of a maths problem detailed in: https://youtu.be/m4Uth-EaTZ8
A Matt Parker-inspired tool to find a number with a greater multiplicative persistence of any* input
After looking the Numberphile video "The Clever Way to Count Tanks", I wanted to check their findings.
Recreation & the Extension of the behaviour shown in Numberphile's "Chaos Game"
script to see how many rolls it takes to get a one roll Yahtzee
A Go implementation of Matt Parker's ShanksBot