Python code that uses Hamiltonian mechanics to simulate a two-body system, as well other dynamics simulations.
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Updated
Jul 23, 2020 - Jupyter Notebook
Python code that uses Hamiltonian mechanics to simulate a two-body system, as well other dynamics simulations.
Project to understand how close passages between galaxies affect the orbits of stars in the galaxies, and see the effects in dramatic tidal features observed in some merging galaxies. The project is done in a team of 2.
Website to visualize different orbital parameter configurations and their influence on the climate.
A Python package for M. Müller implementation of the "Equation of Time - Problem in Astronomy" to calculate the Equation of Time based on the individual effect of eccentricity and obliquity (v1.4.2)
Orbital mechanics
Robotic Exploration of the Solar System using NASA's JPL SPICE Toolkit and Remote Sensing with LandSat 8 data
Repository started as part of a 2022 study on Python libraries for orbit propagation.
Orbital Mechanics for Fourier Curves
N-Body [Experimental!]
Applications and examples with the satmad project.
Numerical solution of the geodesics associated with the Schwarzschild metric.
Python code, and plots and animations to visualize the Pluto-Neptune mean motion resonance (MMR) in 3D+time
Astrodynamics library in Julia
Library to handle and generate orbit data
Code to convert between orbital elements and Cartesian position and velocity
A visual orbit simulation that includes: orbit perturbations from J2, the Sun and Moon, and atmospheric drag.
A research and project of a interplanetary transfer targetting Mars from Earth made with patched conics technique and optimized with PSO algorithym implemented for Matlab
A complete handy toolbox for geodesy in Python
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