Calculates an ephemeris of a celestial object provided its orbital elements, observation date, and returns it as declination and right ascension
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Updated
Dec 2, 2022 - Python
Calculates an ephemeris of a celestial object provided its orbital elements, observation date, and returns it as declination and right ascension
This application allows you to generate lists of astronomical objects that can be seen from your location.
The interface to the catalog of three-body and two-body mean-motion resonances
Проект по ИД "Небесна Механика" към ФМИ, СУ
Physical systems with Newtonian gravity
This repository contains the code for the blog post on Runge-Kutta methods for solving ODEs. For further details, please refer to this post.
Сustomized collection of ODE solvers
Presentations on some of the computer methods considered in the course
This repository is for programs analyzing the habitability of the star system 30 Arietis.
My astronomy and astrophysics repository
Calculates the orbital elements from three separate observations of an object in the sky.
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.
D translation of the libnova celestial mechanics engine.
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.
N-body model of Saturn and some of its moons with python.
Versatile astrodynamics / space mission simulator. n-body orbital mechanics, maneuvers, perturbations and more.
Numerical integrator of orbits, including Yarkovsky effect, YORP, and collisions. Based on SWIFT (Levison & Duncan 1994).
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.
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