Several years ago, scientists discovered that a single microscopic particle could rock back and forth on its own under a ...

The integration of shape morphing and electric-field propulsion in microscale particles offers a breakthrough for adaptive ...

Scientists didn’t understand why independently oscillating microscopic particles suddenly begin moving in perfect sync when grouped together. Researchers showed that fluid-driven hydrodynamic ...

In its first moments, the infant universe was a trillion-degree-hot soup of quarks and gluons. These elementary particles ...

Engineers at Northwestern University have unveiled the behavior of single microscopic particles when they unite.

A new computational analysis supports the idea that photons (a.k.a. particles of light) colliding with heavy ions can create a fluid of 'strongly interacting' particles. In a new paper, they show that ...

Compressible micropolar fluid dynamics is an advanced field that extends classical fluid mechanics by incorporating microstructural effects. This framework accounts for both the conventional ...

#OctopusEffects, #aftereffects I shot a short video, then used Particular with the Physics of Fluids to make the cup dissolve into particles. Here is a detailed video on how to do it. Video without vo ...

To melt a solid, heat it. To freeze a liquid, cool it. It's simple—except when it isn't, because quantum mechanics can flip even the intuitive logic of melting and freezing on its head. Physicists ...