GitHub topics: celestial-mechanics
bluescarni/heyoka
C++ library for ODE integration via Taylor's method and LLVM
Language: C++ - Size: 620 MB - Last synced at: about 16 hours ago - Pushed at: about 17 hours ago - Stars: 212 - Forks: 13
krmerdem/Astro-Observer-Plan
Astronomy software built with Python and PySide 6 for astronomical observations.
Language: Python - Size: 22.1 MB - Last synced at: 4 days ago - Pushed at: 4 days ago - Stars: 7 - Forks: 0
poliastro/poliastro 📦
poliastro - :rocket: Astrodynamics in Python
Language: Python - Size: 43.7 MB - Last synced at: 7 days ago - Pushed at: over 1 year ago - Stars: 921 - Forks: 287
arda-guler/orbitSim3D
Sophisticated astrodynamics and space mission simulator. Calculate n-body trajectories, perform orbital maneuvers, apply various perturbations, generate plots, and more! Minimal dependencies.
Language: Python - Size: 121 MB - Last synced at: 11 days ago - Pushed at: 11 days ago - Stars: 67 - Forks: 9
ofrohn/d3-celestial
A star map with d3.js
Language: JavaScript - Size: 190 MB - Last synced at: 6 days ago - Pushed at: 9 months ago - Stars: 659 - Forks: 188
ut-astria/orbdetpy
Orbit Determination with Python
Language: Java - Size: 112 MB - Last synced at: 9 days ago - Pushed at: almost 2 years ago - Stars: 119 - Forks: 38
bluescarni/heyoka.py
Python library for ODE integration via Taylor's method and LLVM
Language: Python - Size: 1.25 GB - Last synced at: 25 days ago - Pushed at: 25 days ago - Stars: 75 - Forks: 12
jewels86/Axinite
A powerful open-source engine for advanced celestial mechanics, orbital dynamics, and planetary motion.
Language: Python - Size: 86.2 MB - Last synced at: 15 days ago - Pushed at: about 2 months ago - Stars: 4 - Forks: 0
smirik/asteroid-families-ml
Identify asteroid families using machine-learning
Language: Python - Size: 10.7 KB - Last synced at: 3 days ago - Pushed at: over 7 years ago - Stars: 3 - Forks: 1
Francesco-Zeno-Costanzo/Newtonian-gravity
Physical systems with Newtonian gravity
Language: Python - Size: 928 KB - Last synced at: 2 months ago - Pushed at: 2 months ago - Stars: 0 - Forks: 0
bluescarni/obake
A C++20 library for the symbolic manipulation of sparse polynomials & co.
Language: C++ - Size: 10.2 MB - Last synced at: about 1 month ago - Pushed at: 7 months ago - Stars: 28 - Forks: 9
SeverinDenisenko/celestial-mechanic-solvers
ODE solvers for celestial mechanics
Language: C++ - Size: 17.2 MB - Last synced at: about 1 month ago - Pushed at: 2 months ago - Stars: 3 - Forks: 0
MarcvdSluys/libTheSky
Fortran library to compute positions of celestial bodies
Language: Fortran - Size: 638 KB - Last synced at: about 1 month ago - Pushed at: 2 months ago - Stars: 4 - Forks: 2
astronomy/libTheSky
Fortran library to compute positions of celestial bodies
Language: Fortran - Size: 520 KB - Last synced at: about 1 month ago - Pushed at: 2 months ago - Stars: 8 - Forks: 3
arda-guler/Kozmoworks
Versatile astrodynamics / space mission simulator. n-body orbital mechanics, maneuvers, perturbations and more.
Language: C++ - Size: 1.51 MB - Last synced at: about 1 month ago - Pushed at: over 1 year ago - Stars: 7 - Forks: 2
plazajan/Kepler-World
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, slides on astronomy and on methodology of science.
Language: TeX - Size: 15.2 MB - Last synced at: 3 months ago - Pushed at: 3 months ago - Stars: 0 - Forks: 0
arda-guler/Connectonomicon
Asteroid tracklet identification and orbit determination tool
Language: Python - Size: 463 KB - Last synced at: about 1 month ago - Pushed at: 5 months ago - Stars: 4 - Forks: 0
bluescarni/piranha
The Piranha computer algebra system.
Language: C++ - Size: 119 MB - Last synced at: 8 days ago - Pushed at: almost 3 years ago - Stars: 102 - Forks: 25
spyderkam/CR3BP
Finding the stable orbits of a small comet in a comet–earth–sun 3 body system using the classic Runge–Kutta method as well as the concept of Lagrange points.
Language: Fortran - Size: 126 KB - Last synced at: 5 months ago - Pushed at: 5 months ago - Stars: 0 - Forks: 0
adoumouangnamouemmanuel/solar-system-simulation
The Solar System Simulation project is a Python-based simulation of the solar system, utilizing Pygame for visualization and various calculations for accurate celestial physics. The project aims to provide an educational tool to explore planetary dynamics, including gravitational interactions, orbital mechanics, and visualization.
Language: Python - Size: 3.47 MB - Last synced at: 9 months ago - Pushed at: 9 months ago - Stars: 2 - Forks: 0
arda-guler/minorbit2
Easy-to-use minor planet orbit propagator with animated orbits
Language: Python - Size: 15.4 MB - Last synced at: 2 months ago - Pushed at: 10 months ago - Stars: 0 - Forks: 0
arturania/cspice
NASA/JPL SPICE Toolkit for C – patched for cross-platform compatibility
Language: C - Size: 106 MB - Last synced at: 10 months ago - Pushed at: about 3 years ago - Stars: 18 - Forks: 7
vlakir/cleanode
Сustomized collection of ODE solvers
Language: Python - Size: 104 KB - Last synced at: 9 days ago - Pushed at: over 3 years ago - Stars: 3 - Forks: 1
Samson-Mano/lagrange_points
Numerical solution of Circular restricted three-body problem in which the mass of one of the bodies is negligible, as well as the interaction forces between it and the other two bodies.
Language: C# - Size: 3.62 MB - Last synced at: about 1 month ago - Pushed at: about 4 years ago - Stars: 6 - Forks: 2
astronomy/SolTrack
A free, fast and accurate routine to compute the position of the Sun
Language: Python - Size: 87.9 KB - Last synced at: about 1 month ago - Pushed at: about 1 year ago - Stars: 9 - Forks: 6
TJamara/Saturn-s_Moons_Simulation
N-body model of Saturn and some of its moons with python.
Language: Python - Size: 796 KB - Last synced at: over 1 year ago - Pushed at: over 1 year ago - Stars: 0 - Forks: 0
xetle/spheroid
Celestial Mechanics
Language: JavaScript - Size: 17.1 MB - Last synced at: over 1 year ago - Pushed at: over 4 years ago - Stars: 0 - Forks: 0
FabrizioMusacchio/Orbit
This repository contains the code for the blog post on Runge-Kutta methods for solving ODEs. For further details, please refer to this post.
Language: Python - Size: 29.5 MB - Last synced at: 2 months ago - Pushed at: almost 2 years ago - Stars: 0 - Forks: 0
smirik/mercury
N-body fortran integrator
Language: Fortran - Size: 186 KB - Last synced at: about 2 years ago - Pushed at: about 2 years ago - Stars: 49 - Forks: 24
sinisa-susnjar/nova-d
D translation of the libnova celestial mechanics engine.
Language: D - Size: 5.23 MB - Last synced at: almost 2 years ago - Pushed at: almost 2 years ago - Stars: 0 - Forks: 0
abhisrkckl/mikkola
An implementation of Mikkola's method to solve Kepler's equation
Language: C++ - Size: 34.2 KB - Last synced at: about 2 years ago - Pushed at: over 6 years ago - Stars: 2 - Forks: 0
Marmingen/orbit-determination
Calculates the orbital elements from three separate observations of an object in the sky.
Language: Python - Size: 34.2 KB - Last synced at: about 2 years ago - Pushed at: over 2 years ago - Stars: 2 - Forks: 0
eug-vs/physics-engine 📦
2D physics engine from scratch. Pygame is used only for graphics & sounds. All the interactions are implemented as applying certain force to a body. Can be used to model celestial mechanics.
Language: Python - Size: 24.4 KB - Last synced at: 2 days ago - Pushed at: almost 6 years ago - Stars: 2 - Forks: 0
paveloom-university/Resonances-in-Celestial-Mechanics-S11-2022
Modelling dynamics of main-belt asteroids
Language: Julia - Size: 587 KB - Last synced at: about 2 years ago - Pushed at: over 2 years ago - Stars: 0 - Forks: 0
Marmingen/ephemeris-calculation
Calculates an ephemeris of a celestial object provided its orbital elements, observation date, and returns it as declination and right ascension
Language: Python - Size: 69.3 KB - Last synced at: about 2 years ago - Pushed at: over 2 years ago - Stars: 1 - Forks: 0
ut-astria/AstriaGraph
A tool for visualizing Resident Space Objects (http://astria.tacc.utexas.edu/AstriaGraph/)
Language: JavaScript - Size: 151 KB - Last synced at: about 2 years ago - Pushed at: almost 6 years ago - Stars: 31 - Forks: 17
mbd-astro/forest
Fast open-source software toolkit for numerical integration in orbital environments, and is easily incorporated into existing projects with seamless Python and Matlab support
Size: 1.01 MB - Last synced at: about 2 years ago - Pushed at: over 2 years ago - Stars: 4 - Forks: 1
BlakeWittmayer/30_Arietis_Research
This repository is for programs analyzing the habitability of the star system 30 Arietis.
Language: Fortran - Size: 1.6 MB - Last synced at: about 1 month ago - Pushed at: about 2 years ago - Stars: 0 - Forks: 0
dywanik/astronomy
My astronomy and astrophysics repository
Language: Python - Size: 1.34 MB - Last synced at: over 1 year ago - Pushed at: over 7 years ago - Stars: 1 - Forks: 0
jonathan-prete/Constant-Density-Polyhedron-Dynamical-Model
The MATLAB model here presented performs trajectory propagations based on the Constant Density Polyhedron algorithm. With this model, it is possible to compute trajectories in the proximity of astronomical bodies such as asteroids or comets. The algorithm also allows to compute ballistic trajectories.
Size: 4.12 MB - Last synced at: about 2 years ago - Pushed at: almost 4 years ago - Stars: 1 - Forks: 1
EOS3D/eos3d-mpl
A simple matplotlib-based orbital mechanics visualization library
Language: Python - Size: 7.4 MB - Last synced at: 4 months ago - Pushed at: almost 7 years ago - Stars: 4 - Forks: 4
miroslavbroz/swift_rmvs3_fp_ye_yorp
Numerical integrator of orbits, including Yarkovsky effect, YORP, and collisions. Based on SWIFT (Levison & Duncan 1994).
Language: Fortran - Size: 36.3 MB - Last synced at: over 1 year ago - Pushed at: over 1 year ago - Stars: 2 - Forks: 0
ivanbok/lodestar-app
This application allows you to generate lists of astronomical objects that can be seen from your location.
Language: JavaScript - Size: 17.2 MB - Last synced at: about 2 years ago - Pushed at: about 3 years ago - Stars: 0 - Forks: 0
paveloom-university/Computer-Methods-of-Celestial-Mechanics-S09-2021
Presentations on some of the computer methods considered in the course
Language: TeX - Size: 38.5 MB - Last synced at: about 2 years ago - Pushed at: over 3 years ago - Stars: 0 - Forks: 0
paveloom-university/Celestial-Mechanics-Laboratory-Workshop-S09-2021
Finding a figure-8 solution to a three-body problem with arbitrary precision
Language: Julia - Size: 192 KB - Last synced at: about 2 years ago - Pushed at: over 3 years ago - Stars: 0 - Forks: 0
AgenttiX/planetary-motion
FYS2085 project work: planetary motion
Language: Python - Size: 769 KB - Last synced at: about 2 years ago - Pushed at: over 3 years ago - Stars: 0 - Forks: 0
smirik/resonances-web
The interface to the catalog of three-body and two-body mean-motion resonances
Language: PHP - Size: 1.71 MB - Last synced at: about 2 years ago - Pushed at: about 6 years ago - Stars: 0 - Forks: 0
HakanSunay/Celestial-Mechanics
Небесна механика / Nebesna mehanika
Language: MATLAB - Size: 9.56 MB - Last synced at: about 9 hours ago - Pushed at: almost 6 years ago - Stars: 0 - Forks: 0
yolita15/celestial-mechanics
Проект по ИД "Небесна Механика" към ФМИ, СУ
Language: MATLAB - Size: 524 KB - Last synced at: about 2 years ago - Pushed at: almost 6 years ago - Stars: 0 - Forks: 0
