As the winds blow across the vast oceans they create a symphony of waves, whose pitch may range from ripples to rogues. Eventually all waves will break, crashing wildly on the shore or fading away ...

Ripples, like ones produced by raindrops falling in a puddle, are also called capillary waves. Studied since antiquity, they have garnered considerable interest in modern science due to their ability ...

Capillary waves represent the intrinsic, thermally induced fluctuations at the boundary between liquid and vapour phases. These microscopic undulations, which are influenced by both surface tension ...

You'll never look at a drop of water the same way. By measuring a water droplet with a resolution comparable with the scale of a single atom, scientists have determined that the droplet interface ...

THE extensive measurements 1 on the retardation of evaporation by monolayers conducted during the past decade at Columbia University have been restricted to static conditions to eliminate the erratic ...

In a new collaborative study published in the Proceedings of the National Academy of Sciences (PNAS), a team of researchers from the University of Washington, SUNY at Buffalo and the University of New ...

Steady two-dimensional surface capillary–gravity waves in irrotational motion are considered on constant depth. By exploiting the holomorphic properties in the physical plane and introducing some ...

HYDRODYNAMICS: The equation of motion -- The equation of continuity -- The wave equation for a progressive wave with a rigid profile traveling at constant phase speed -- Solution of the wave equation ...

Clinking your glass of beer often leaves its contents sloshing back and forth. Soon, though, the motion stops, your drink settles, and you can sip without getting foam on your nose. The foam helps ...

Water waves are well-known to be dispersive at the linearization level. Considering the fully nonlinear systems, we prove for reasonably smooth solutions the optimal Strichartz estimates for pure ...