The motion of an asteroid in a two-dimensional space with a star and a planet • University project • 2014 - Laboratorio di Fisica Computazionale - BSc in Physics, II year
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Updated
Feb 27, 2019 - C
The motion of an asteroid in a two-dimensional space with a star and a planet • University project • 2014 - Laboratorio di Fisica Computazionale - BSc in Physics, II year
Runge-Kutta C program, methods (RK12 and RK24) for solving ordinary differential equations, with adaptive step size.
[NJU] 南京大学天文天体力学基础作业 Homework of Fundamental Celestial Mechanics Class
N-Body problem in C with parallel computing using 12 order Runge-Kutta with adaptive step size
A solution, written in C, to Korteweg de Vries using the fourth order Runge-Kutta method and finite differences.
The motion of massive point with many constraints • University project • 2014 - Laboratorio di Fisica Computazionale - BSc in Physics, II year
Studying 2nd order differential equation with Runge-Kutta and Verlet
Runge–Kutta method RK4 for second order differential equations
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.
Programa que simula a dinâmica de pêndulos acoplados. TCC de Ingrid Rayssa Delgado Cavalcante Cruz.
Math solutions.
This repo contains some of the well-known algorithms for Numerical Analysis.
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