Basketball shoes on a gym floor, bicycle brakes in need of a tune-up, or the squeal of tires are everyday examples of squeaking sounds. Such sounds have long been attributed to stick-slip friction, or ...

With nothing but paper, tape, and a marble as a test vehicle, engineering students at Tyler ISD’s Career and Technology ...

In everyday life, designing spaces that both let air flow and absorb sound can be a tricky balancing act. Usually, materials ...

Researchers at the University of Tuebingen, working with an international team, have developed an artificial intelligence that designs entirely new, sometimes unusual, experiments in quantum physics ...

Newton Golf Company (NASDAQ: NWTG), a technology-forward golf equipment innovator applying physics-driven engineering to golf performance, has been invited to present at the Centurion One Capital 9th ...

The Institute for International Studies at Murray State University has announced the signing of a new dual degree agreement with Universidad EIA in Medellín, Colombia, marking a significant milestone ...

CU Boulder researchers have designed microscopic “racetracks” that trap and amplify light with exceptional efficiency. By using smooth curves inspired by highway engineering, they reduced energy loss ...

AI agents can handle physics-based modeling complexity while engineers focus on design judgment and tradeoffs.

Harvard engineers think they've found the reason basketball shoes squeak, and it's due to pockets of friction between the rubber and the court.

Speed in hardware design today is the result of aligning design, manufacturing, and supply chains from day one.

Andy finds himself in the quandary of needing to cover DesignCon in the Bay Area and to cover Engineers Week and thus is forced to resort to desperate measures...AI.

AI is accelerating the commoditization of specialized expertise. The sustainable competitive advantage is connecting it ...