It’s the same math that explains how, under the right conditions, the atmosphere above a barren plain can produce a roiling ...

A ball tossed into the air follows a path that classical physics can track with confidence. Shrink that ball down to the size ...

Applying a few simplifying assumptions and constructing a set of ordinary differential equations leads to a model that ...

Physicists have confirmed for the first time that chaotic growth in a 2D quantum system follows precise statistical rules, ...

In his doctoral thesis, Michael Roop develops numerical methods that allow finding physically reliable approximate solutions ...

A new study by researchers at the Massachusetts Institute of Technology (MIT) now bridges ...

The extent of human-made climate change may make it tricky for us to notice its reversal at first, explain our readers ...

By manipulating ultrafast quantum particles under extreme conditions, researchers have begun to probe growth dynamics in unprecedented detail. Why do patterns emerge as surfaces grow, whether in ...

Big names from the worlds of film, technology, music and sports gathered on Saturday in Santa Monica, California for the ...

Crystals, bacterial colonies, flame fronts: the growth of surfaces was first described in the 1980s by the ...

Abstract: This article proposes the dynamic event-triggered and self-triggered protocols to achieve the prescribed-time consensus of a class of nonlinear multi-agent systems with a trade-off ...

Special Prize for Pioneer of Theory of Strong Nuclear Force Breakthrough Prize in Life Sciences Awarded to Jean Bennett, Katherine A. High and Albert Maguire; Stuart H. Orkin and Swee Lay Thein; Rosa ...