N-body problem using Verlet and 4th Order Runge-Kutta integrator
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Updated
Nov 26, 2017 - C++
N-body problem using Verlet and 4th Order Runge-Kutta integrator
A relational database project using PostgreSQL, representing various celestial bodies. Detailed instructions are in project-instructions.md.
A compilation of celestial data geojson objects
Realistic and interactive simulation of the solar system.
Celestial bodies, solar system, rocket with UNITY3D
Game/Simulation Prototype in Unity/C#
Build a Celestial Bodies Database Project
N-body model of Saturn and some of its moons with python.
🚀 Lightweight wrapper for interacting with NASA's API libraries at api.nasa.gov.
🌠🌈Classificação de Corpos Celestes usando suas características espectrais🌐☄️
This is the Project that was built to detect the co-ordinates of celestial entities
N-body space simulator that uses the Runge-Kutta 4 numerical integration method to solve two first order differential equations derived from the second order differential equation that governs the motion of an orbiting celestial. Also has preset demos for two-body and three-body circular orbits which use parametric equations. Uses the SFML (Simp…
Celestial bodies visualisation
Hassle free galactical procedural generator
Calculates optimum interplanetary trajectories visitng a specifed sequence of planets or other celestial bodies.
This is one of the required projects to earn the Relational Databases certification from freeCodeCamp. For this project, I built a database of celestial bodies using PostgreSQL.
Space Mission Design - A SPICE-enhanced continuous thrust interplanetary mission propagator and vizualizer
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