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Solving Schrodinger Equation Numerically
常微分方程式の数値解法の基礎.(教材)
3D animation of the Lorenz Attractor trajectory, implemented in Python using the 4th order Runge-Kutta method. [Personal project]
Methods of numerical modelling with undergraduate level computational physics solutions with non-linear equations, gaussian probabilities, and Euler RK4 integration
A small step for dynamics, a giant leap for SciML
Solving some interesting problems using Python and C++
A simple N-Body simulator, able to support a galactic environnement (under the form of a gravitational field).
Blogpost and web demos about numerical solutions to ODEs
2-D Euler equation solver using Finite Volume Methods
Simple header-only C++ ODE solver library for Runge-Kutta 4th order method with events.
different methods for solving several ode
N-body space simulator that uses the Runge-Kutta 4 numerical integration method to solve two first order differential equations derived from the second order differential equation that governs the motion of an orbiting celestial. Also has preset demos for two-body and three-body circular orbits which use parametric equations. Uses the SFML (Simple and Fast Multimedia Library) library: https://www.sfml-dev.org
Solving First Order Differential Equations using Euler and RK4 methods
A rectangle-circle pendulum simulation with the RK4 method
The fourth order runge kutta method is used to solve the first and second order differential equations
Using the Adams-Bashforth-Moulton method (with Runge-Kutta 4th order) to approximate the Lorenz problem. 3D result plotting using matplotlib.
Simulating a satellite's orbit around the Earth with varying initial conditions using Python & tkinter.
basic simulation of planetary movements in our solar system, based on initial conditions from horizons@ssd.jpl.nasa.gov and vizualization with three.js
Collection of fixed-step IVP solvers. Includes support for matrix-valued IVPs, and provides functions for generating IVP solver equations.
Euler and Runge-Kutta numerical methods of ODE solution
Simulation of soliton waves with different numerical methods
Quarter car model analysis with ODE solving methods (Heun, RK4, Euler, Midpoint)
Les tp de physique numérique pour modéliser et utiliser l'informatique dans la physique
This is a solver for nth order systems of differential equations using the fourth-order Runge-Kutta method for solving systems of DEs
This is a solver for nth order ODEs using RK4 written in c++
This is a numeric solver for higher oder ordinary differential equations based on Runge Kutta 4. Created for Uni Class
Numerical Methods
Double pendulum numerical solver using Runge-Kutta 4th Order methods for integration
Some codes from my Applicable Math Method Course in TIFR CAM
Assignment codes from my Non -linear PDE course in ICTS TIFR