Researchers have found that attractive and repulsive interactions between particles are both essential to form structural order that controls the dynamics of glass-forming liquids. This knowledge ...

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.

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.

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

To create these particles, the researchers used a high-velocity rotary cutting tool to slice the liquid metal into minute droplets and then suspend them in an acetic acid/diethylene glycol mixture.

Particles go through a series of movements and arrangements. The more compact the arrangement is, the more solid it is. The kinetic particle theory describes this.

Glass particles in liquid could lead to hologram displays. MIT and Harvard researchers have taken the first step on a road toward creating displays that can bend light in different directions.

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. To investigate flow, ...

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 ...