Scientific Articles and Technical Guides toward Dynamical systems, Chaos Theory, and Chaotic systems
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Updated
Feb 27, 2023 - Python
Scientific Articles and Technical Guides toward Dynamical systems, Chaos Theory, and Chaotic systems
This repository contains the code for the blog post on Solving the Lorenz system using Runge-Kutta methods. For further details, please refer to this post.
2D Visualisation of the Lorenz Attractor. Made with C++ and using Raysan5's Raylib for rendering
Butterfly Effect Simulator is a predefined physical deterministic environment in which the observer can test butterfly effect or chaos theory in action, altering the timeline of events and observing the outcome of the physical system with a small change in the initial conditions.
Built upon Conway's Game of Life, referencing the Utopia Experiment, and studying the butterfly effect, the project simulates and predicts non-living phenomena. It explores significant outcomes of minor changes and employs cellular automata, complex network models, and machine learning to provide new perspectives on future societal development.
Simulation and animation of the Lorenz system.
Simulating Lorenz Attractor Using Numerical Methods!
The Lorenz attractor rendered using p5.js
A javascript project to animate Lorenz System
Implementations in Unity of the Ten Minute Physics YouTube channel. Instead of using Unity's built-in physics engine, you will learn how to make your own. This is useful if you want to simulate ropes, cloth, tires, etc. You will also learn how to make fluid simulations and soft body physics.
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