A Python package for visualizing spacecraft orbits and orbital maneuvers.

A collection of Python projects that explore astrophysics concepts through simulations, data analysis, and code.

Hohmann transfer orbit modeling with Hall-Effect thruster integration, implemented in Python, C++ and MATLAB with 3D visualization and validated delta-V calculations for LEO to GEO missions

Python simulations of orbital mechanics: models include a two-body gravitational system, Hohmann transfer, and bi-elliptic transfer. Visualizes orbital trajectories and energy changes involved in classical orbital maneuvers between circular orbits.

A playground for simple 2D orbital mechanics++

Maximizing outlet thrust in a geostationary orbit (GEO) with minimal voltage

GEO spacecraft propulsion optimization library covering Hohmann transfers, J2 perturbations, Hall-Effect and ion thruster trade studies, and station-keeping budgets, implemented in Python and MATLAB

Orbital mechanics script for Hohmann transfer computation and visualization (Δv, transfer ellipse, vis-viva).

Trabalho de Mecânica do Voo Espacial sobre Manobra de Hohmann

Interactive Pygame-based visualizer for simulating Hohmann transfers between any orbits. Includes real-time satellite motion telemetary, burn controls, and customizable orbital parameters.

Preliminary design of an exoplanets space mission