Heat and humidity fueled a dazzling lightning show across the Washington and Baltimore region on Wednesday night.

The world's largest and most powerful particle accelerator may be producing the world's tiniest droplets of liquid, right under scientists' noses. Researchers are digging into this subatomic enigma.

Researchers have produced novel micro-sized particles filled with liquid metal that retains its liquid state at room temperature and are able to meld with each other.

The researchers found the correlation between the structure and motion of particles within simulated glass-forming liquids, on the level of individual particles and larger-scale particle assemblies.

Flowing particles in liquids act as a filter to suppress long-wavelength waves but allow short-wavelength ones to be supported, according to physicists.

In liquids, the particles are touching but are free to move around each other like balls in a ball pool. In a gas, the particles aren’t touching at all, but are flying around randomly.

Until now, there was an absence of exploration into how the flow of liquids affect the charges of the particles in the liquid, surfaces and surfactants.

The liquid droplets keep their shape because some of the iron-oxide particles bind with surfactants — substances that reduce the surface tension of a liquid.

Patchy colloidal systems consist of particles with attractive patches on them. If the bonds between particles are allowed to be flexible, a colloidal liquid state may be observed as the system ...

The team suspended glass particles in a fluid and found that, when warmed up, its ability to scatter light increased a thousand times.

Flowing liquids are a major part of industry and occurs inside our very own bodies. Investigating how flow effects the charges of the particles in liquid, and therefore its aggregation and dispersion ...