Accurately calculate times of 24 solar terms using JPL HORIZONS. 用噴射推進實驗室HORIZONS网上天文数据精确计算24节气时间（精确到毫秒）

The complete integrated solution for all of your astronomical imaging needs.

A simulation of the solar system using Newton’s law of universal gravitation and three.js to render and explore the celestial bodies in the browser

Repo for my coursework for PHYS281 Scientific Programming and Modelling. A Library to simulate the interaction of solid bodies in 3D, and be able to graphically display motion or output in multiple forms. Integrates JPLHorizons data to be able to use in simulation.

A program to determine when Matariki will occur written in TypeScript using the Node.js runtime.

This program uses data from JPL Horizons to calculate when that object will be at opposition. It automates finding oppositions for creating observation plans for telescopic observations.

iCompare, a comparison package for integrators used in the Solar System Dynamics community

A program to determine when Matariki will occur written in TypeScript using the Node.js runtime.

The main file is palomas_orrery.py This project provides a visualization of the solar system, comets, and space missions using JPL Horizons. And it also provides visualizations of our stellar neighborhood using Hipparcos, Gaia and Simbad. This script works in Windows. For a limited Mac version, see palomas_orrery_win_mac.py