Apr 16
Melting Can Propel Icebergs
Icebergs have long served as a metaphor for not knowing what's going on beneath the surface. Studies like today's are a reminder of why that is. (Image and research credit: M. Berhanu et al.; via APS)
seen from Romania
seen from China
seen from Canada
seen from United States
seen from Australia
seen from Canada
seen from Canada
seen from Australia
seen from Türkiye
seen from Australia
seen from United States
seen from Yemen
seen from India
seen from China
seen from Greece
seen from Japan
seen from Canada
seen from China
seen from Canada
seen from Norway
Melting Can Propel Icebergs
Icebergs have long served as a metaphor for not knowing what's going on beneath the surface. Studies like today's are a reminder of why that is. (Image and research credit: M. Berhanu et al.; via APS)
Ice Discs Surf on Herringbones
Inspired by the roaming rocks of Death Valley, researchers went looking for ways to make ice discs self-propel. Leidenfrost droplets can self-propel on herringbone-etched surfaces, so the team used them here, as well. (Image and research credit: J. Tapochik et al.; via Ars Technica)
Skittering Drops
Drip some ethanol on a hot surface, and you'd expect it to spread into a thin layer and evaporate. But that doesn't always happen, and a recent study looks at why. (Image and research credit: P. Kant et al.; via APS Physics) Read the full article
Many droplets can self-propel, often through the Leidenfrost effect and evaporation. But now researchers have observed freezing droplets that self-propel, too. (Image credit: SpaceX; research credit: C. Stan et al.; via APS Physics)
Taking A Turn
Water droplets immersed in a mixture of oil and surfactants will move about, propelled by the Marangoni effect. Surfactant molecules congregate along the interface between the water and oil, but they do not do so uniformly. (Image credits: top - P. Godfrey, others - S. Suda et al.; research credit: S. Suda et al.; via APS Physics) Read the full article
Sliding Along
Robust, self-cleaning surfaces are a holy grail for many engineers, but they're tough to achieve. One necessary ingredient for a self-cleaning surface is the ability to shed water, which is why superhydrophobic coatings and surface treatments are popular. Here, researchers prompt their droplets to move at speeds up to 16 cm/s by dropping them onto a thin layer of heated oil. (Image and research credit: V. Leon and K. Varanasi; via APS Physics) Read the full article
Collective Motion in Grains
Flocks of birds and schools of fish swarm in complicated collective motions, but groups of non-living components can move collectively, too. In this Lutetium Project video, we learn about grains that, when vibrated, self-propel and form complex collective motions similar to those seen in groups of living organisms. (Video and image credit: The Lutetium Project; research credit: G. Briand et al.) Read the full article
Leidenfrost drops surf on a layer of their own vapor, created by the high temperature of a nearby surface relative to their boiling point. These Leidenfrost drops can self-propel and skitter and skate across a surface, but they’re not the only droplets that do this. In this video, researchers show how a drop of carbonated water on a superhydrophobic (water-repelling) surface also avoids contact. As long as the drop has carbon dioxide to expel, it will maintain a gap relative to the surface and can even surf over a ratcheted surface the way that their Leidenfrost cousins do. (Image and video credit: D. Panchanathan et al., source)