Physicists have unveiled a new way to simulate a mysterious form of dark matter that can collide with itself but not with ...

New research shows that advances in technology could help make future supercomputers far more energy efficient. Neuromorphic computers are modeled after the structure of the human brain, and researche ...

A $1 million prize awaits anyone who can show where the math of fluid flow breaks down. With specially trained AI systems, ...

Abstract: The development of Connected and Autonomous Vehicles (CAVs) brings numerous potential benefits to the transportation system. However, during their widespread adoption, there will inevitably ...

Spaceflight is becoming safer, more frequent, and more sustainable thanks to the largest computational fluid flow simulation ever ran on Earth. Inspired by SpaceX’s Super Heavy booster, a team led by ...

Fluid-Implicit-Particle or FLIP is a method for simulating particle interactions in fluid dynamics, commonly used in visual effects for its speed. [Nick] adapted this technique into an impressive FLIP ...

Modeling high-speed fluid flows, such as those in supersonic or hypersonic regimes, poses unique challenges due to the rapid changes associated with shock waves and expansion fans. Unlike low-speed ...

Water makes up around 60% of the human body. More than half of this water is inside the cells that make up organs and tissues, and much of the remaining water flows in the spaces between cells. MIT ...

Understanding how fluids move through complex porous rocks in three dimensions remains a challenge, especially when considering permeability, porosity and tortuosity. Traditional lab testing is often ...

Article subjects are automatically applied from the ACS Subject Taxonomy and describe the scientific concepts and themes of the article. This study systematically investigates the pore structure ...