Neuromorphic computers modeled after the human brain can now solve the complex equations behind physics simulations — something once thought possible only with energy-hungry supercomputers. The ...

While the world discusses the latest advances in generative AI, Alessandro Curioni’s team at IBM Research – Zurich, IBM’s European research center, is already working on a fundamental transformation ...

The currents of the oceans, the roiling surface of the sun, and the clouds of smoke billowing off a forest fire—all are ...

The team used an AI method known as equation discovery to develop a model to simulate the interactions between small eddies—circular, vortex-like currents—and large-scale ones. These interactions are ...

The irregular, swirling motion of fluids we call turbulence can be found everywhere, from stirring in a teacup to currents in ...

Dive into fluid dynamics with **“Quadratic Drag In Vertical Motion | Classical Mechanics Explained.”** In this video, we explore how quadratic air resistance affects objects moving vertically, ...

Dive into rotational dynamics with **“Physics Tutorial: Moment Of Inertia Of A Ring About An Axis.”** This video breaks down the concept of moment of inertia for a ring, explaining how mass ...

For planning animal conservation measures, it is vital to know where endangered species live and how they interact. Ecologists are successfully using tracking technology to learn about the movements ...

This puzzle is known as the problem of time, and it remains one of the most persistent obstacles to a unified theory of ...

An associate professor in the Department of Physics, Lomsadze uses powerful laser-based tools to capture ultrafast events in quantum materials, work that could shape the future of technology.

Google's Genie generates infinite interactive worlds from text. The secret? AI models compress reality's rules into ...