Scientists develop fluorescent dye-loaded nanosized, irregularly-shaped microplastics to track their movement in real time.

Accurately modeling irregularly-shaped particles isn’t easy, but a new study found a way to improve a century-old idea.

Engineers at Northwestern University have unveiled the behavior of single microscopic particles when they unite. The findings reveal an enigmatic, perfectly synchronized dance. The research team ...

pt. I. General principles.--pt. II. Dynamics of rigid bodies.--pt. III. Theory of the potential, dynamics of deformable bodies ...

Molecular Dynamics Simulations are grounded in classical mechanics, particularly Newton’s laws of motion, to predict how particles move within a system. The force acting on each atom is calculated ...

NYU scientists are using light to precisely control how tiny particles organize themselves into crystals. Their research, ...

What is the Stokes-Einstein Equation? The Stokes-Einstein equation is a fundamental relation in physics that describes the diffusion of spherical particles through a fluid with low Reynolds number. It ...

Quantum physics paints a strange picture of the world, one filled with spooky connections, unsettling uncertainties and—perhaps oddest of all—particles that spontaneously spring into being from the ...

Dipangkar Dutta receives funding from US Dept. of Energy and NSF. A clever mathematical tool known as virtual particles unlocks the strange and mysterious inner workings of subatomic particles. What ...