Brookhaven National Laboratory have developed a novel artificial intelligence (AI)-based method to dramatically tame the ...

Quantum chaos describes chaotic classical dynamical systems in terms of quantum theory, but simulations of these systems are limited by computational resources. However, one team seems to have found a ...

Abstract: Simulating realistic LiDAR intensity is essential for autonomous driving, particularly under snow conditions, where current methods fail to capture complex LiDAR-to-atmosphere interactions.

Solar panels and wind turbines increasingly dot the landscape, but the future of clean energy may well depend on how smoothly ...

When a student first learns how a simple equation can explain the motion of planets or the behaviour of light, it sparks more ...

Struggling to debug your physics simulations in Python? This video uncovers common mistakes that cause errors in physics code and shows how to identify and fix them efficiently. Perfect for students, ...

Visualize the magnetic field generated by a current-carrying loop using Python simulation. This video demonstrates how electric current creates magnetic field lines, making core electromagnetism ...

When NASA’s Dragonfly begins full rotorcraft integration and testing in early 2026, the mission team will tap into a trove of ...

Using robotic fins, researchers have learned how stingrays are able to swim with impressive control. These insights could ...

Abstract: Existing real-time simulation methods for cascaded power electronic systems face significant challenges. Physics-driven approaches often suffer from limited applicability when critical ...