From Lagrangian to equation of motion, create or simulate any kind of 2 dimensional linked pendulums.
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Updated
May 12, 2019 - Python
From Lagrangian to equation of motion, create or simulate any kind of 2 dimensional linked pendulums.
Parametric study of the vertical rise of a Rocket
Upper Secondary School graduation project for Sinan Pasic, class 18B, graduate of NTI Gymnasiet, Västerås June 2021.
Euler's and Runge-Kutta methods comparison on solving initial value problem on Lotka-Volterra equations and other functions
Double pendulum simulation that uses Runge-Kutta 4 algorithm
The classical 4th order Runge-Kutta solver, implemented in plain C for optimal performance. Also includes a wrapper library with Python bindings, so it may be called from within Python.
This repository contains the code for the blog post on Runge-Kutta methods for solving ODEs. For further details, please refer to this post.
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.
Numerical Methods Lotka-Volterra prey-predator model using Fortran
A Python project using numerical calculus to display 3D simulations (colisions and solar system prototype).
Fourth order Runge Kutta(RK-4) and the Euler's Method are two methods of numerically solving differential equations.
Code written in my advanced computation physics classes in Python
Two Body Simulation
This project features two dynamic simulations: bungee jumping and atmospheric convection models, using Runge-Kutta methods to capture their behavior. Dive into chaotic Lorenz attractor visuals, track variable evolution via time series charts, and compare cord lengths between these intriguing simulations. Explore dynamic modeling and chaotic systems
Runge–Kutta method RK4 for second order differential equations
Uma calculadora expansível capaz de computar o método de Runge-Kutta (RK4) para funções simples.
Fortran numerical solution of the stagnation point flow with 4th order runge kutta scheme and bisection method
Telegram bot that solves differential equations of the 1st and 2nd order using the Runge-Kutta method
Solve differential equations with some numerical integration methods
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