Researchers at TU Wien have developed numerical models to simulate the movement of fluids in porous materials.

In this thrilling video, we delve into the world of Minecraft, pitting the mighty Iron Golem against mesmerizing 3D satisfying fluid and cloth simulations. Watch as the legendary Iron Golem interacts ...

Google Quantum AI’s new research revisits a 1960s idea for unforgeable “quantum money,” exploring how physics, not code, ...

A microscopic helium wave flume uncovers unprecedented nonlinear wave behaviours, including soliton fission and backward ...

This engineering exam, which is a gateway to some of the premium engineering colleges such as IITs, NITs and more, cover ...

Fluid Flow for Blender simulates water, sand, and lava directly in the viewport, using Geometry Nodes. No baking required.

For more than 50 years, scientists have dreamed of seeing the hidden patterns that govern the motion of nonlinear waves—the ...

University of Queensland researchers have created a microscopic "ocean" on a silicon chip to miniaturize the study of wave ...

A water-powered nanogenerator uses droplet formation to convert flowing water into electricity, providing a clean, ...

University of Queensland researchers have made a microscopic ‘ocean’ on a silicon chip to miniaturise the study of wave ...

Abstract: Flow visualization through motion estimation using time-sequenced images plays a significant role in analyzing and understanding complex flow phenomena, and it is widely used in meteorology, ...

Abstract: In this paper, we proposed a novel motion model with Helmholtz decomposition for complex fluid flows in a filtering-based optical flow framework, where the optimization of the regularization ...