A real-time 3D particle physics simulator built from scratch in Python and Taichi. Designed around constrained hardware (2GB VRAM), it uses explicit memory budgeting, Struct-of-Arrays GPU layout, and ...

Particle accelerators reveal the heart of nuclear matter by smashing together atoms at close to the speed of light. The ...

Part 1 of a Python based simulation that models Faraday’s Law. Learn how electromagnetic induction can be visualized and studied using simple programming techniques. #physics #faradayslaw ...

Part 2 of modeling Faraday’s Law using Python. This tutorial explores electromagnetic induction through code and simulation to better understand changing magnetic fields and induced currents. #physics ...

The hope for quantum computers is that the devices will be able to solve complex tasks such as predicting how chemicals react or cracking encrypted text. One of the main reasons that the machines are ...

Flying satellites in very low Earth orbits offers scientific and economic advantages. Gaining a better understanding of what happens when oxygen particles strike satellites could improve flight ...

State settings are stored in the state variable in main.rs. Many are togglable or only meant for internal use, but some are not. To enable particle merging, set min_merge_mass to a number. This mass ...

Abstract: This paper introduces PyWiSim, a Python-based simulation framework designed for wireless systems that falls somewhere between a link simulator and a system simulator. Link simulators model ...