Python library for ODE integration via Taylor's method and LLVM
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Updated
Jun 28, 2024 - C++
Python library for ODE integration via Taylor's method and LLVM
C++ library for ODE integration via Taylor's method and LLVM
A Python turtle simulation of planet movements to study Kepler's laws and how they emerge from Newton's law of gravity, for high school or lower level undergraduate students. Also, a slide show.
Physical systems with Newtonian gravity
A free, fast and accurate routine to compute the position of the Sun
N-body model of Saturn and some of its moons with python.
Fortran library to compute positions of celestial bodies
Versatile astrodynamics / space mission simulator. n-body orbital mechanics, maneuvers, perturbations and more.
poliastro - 🚀 Astrodynamics in Python
Numerical integrator of orbits, including Yarkovsky effect, YORP, and collisions. Based on SWIFT (Levison & Duncan 1994).
This repository contains the code for the blog post on Runge-Kutta methods for solving ODEs. For further details, please refer to this post.
A star map with d3.js
Orbit Determination with Python
D translation of the libnova celestial mechanics engine.
This repository is for programs analyzing the habitability of the star system 30 Arietis.
The interface to the catalog of three-body and two-body mean-motion resonances
N-body fortran integrator
Calculates the orbital elements from three separate observations of an object in the sky.
Modelling dynamics of main-belt asteroids
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