There are 8 repositories under relativity topic.
🌌 A collaborative list of awesome software for exploring Physics concepts
NRPy+, BlackHoles@Home, SENRv2, and the NRPy+ Jupyter Tutorial: Python-Based Code Generation for Numerical Relativity... and Beyond!
A performance-portable geodesic ray tracing library.
Open Source Community: Integration testing is a software testing methodology used to test individual software components or units of code to verify their interaction. These components are tested as a single group or organized in an iterative manner.That said, we have created Relativity Integration Test Helpers to assist you with writing good Integration Tests for your Relativity application. You can use this framework to test event handlers, agents or any workflow that combines agents and Eventhandlers. We will continue adding more helpers but in the mean time you should be able to create workspaces, create dbcontext, proxy and create documents with this framework. This framework is only compatible with Relativity 9.5
A ray-tracer for curved spacetimes
See effects of special relativity such as Terrell rotation, relativistic beaming and Doppler shift.
Special-relativistic phenomena illustrated using spacetime diagrams.
Simulation of time travel paradoxes using a wormhole time machine.
This repository consist of Chef Recipes which on execution creates a Hyper-V instance with Relativity installed and configured.
Templates for Relativity Event Handlers, Custom Pages, and Agents.
Itsy-bitsy-teeny-weeny-black-hole-visualisation-machiney.
Einstein Special Relativity's one of the Paradox Name Twin Paradox Demonstration and Calculator Using Java Script
A Python Implementation of Relativistic Physics
The code for the Gravitational Dimensionality Reduction (GDR) algorithm
Projects presenting and analysing physical phenomena (and other Physics papers).
My Journey in Theoretical Cosmology and Advanced Computational Astrophysics through the various related projects with Python using Data Science and Analytics techniques.
A presentation about the relativistic addition of velocities.
The purpose of this code is to assist academics in Einstein's Theory of General Relativity. This code allows the user to input a spacetime metric of their own design and output the Christoffel symbols, Ricci curvature tensor and Ricci scalar. This code uses the Symbolic Math Toolbox™ in MATLAB® to perform these calculations.
Steinmetz, A. Modern topics in relativistic spin dynamics and magnetism. PhD dissertation. University of Arizona, 2023.
General relativity with automatic differentiation in Jax.
A collection of bookmarklets for Relativity(One) administrators
Quotations from textbooks on special and general relativity.
Minkowski's Space-Time Visualizer
Repository provides useful samples how Relativity Export API can be utilized.