Titlebook: Brownian Motion; Elements of Colloid Albert P. Philipse Textbook 2018 Springer Nature Switzerland AG 2018 Understanding colloidal suspenti

只看該作者 · 發(fā)表于 2025-3-23 19:49:05

https://doi.org/10.1007/978-981-19-2037-0Brownian motion is a sequence of random steps in positions or orientations of colloidal particles. Such a diffusive sequence can be described by a diffusion equation that quantifies how particle positions and orientations evolve in time.

只看該作者 · 發(fā)表于 2025-3-24 00:23:55

Hing Chao,Daniel Jaquet,Loretta KimFlow problems in colloidal systems either concern flow in channels or flow around submerged particles.

只看該作者 · 發(fā)表于 2025-3-24 05:44:40

Martial Law in India, Pakistan and CeylonThe inherent thermal motion of Brownian particles brings about both diffusion and osmotic pressure, phenomena that for non-interacting particles are quantified by, respectively, Einstein’s diffusion coefficient and Van ’t Hoff’s law.

只看該作者 · 發(fā)表于 2025-3-24 09:29:24

A Tale of Ten Time Scales,The three assumptions underlying kinetic theory mentioned at the start of Chap.?. not only relate to kinetics of a molecular gas, or a colloidal mist of droplets in air, but equally apply to colloids that perform Brownian motion in a solvent.

只看該作者 · 發(fā)表于 2025-3-24 13:04:22

,Continuity, Gradients and Fick’s Diffusion Laws,Brownian motion is a sequence of random steps in positions or orientations of colloidal particles. Such a diffusive sequence can be described by a diffusion equation that quantifies how particle positions and orientations evolve in time.

只看該作者 · 發(fā)表于 2025-3-24 18:34:04

只看該作者 · 發(fā)表于 2025-3-24 20:00:27

,Brownian Particles and Van ’t Hoff’s Law,The inherent thermal motion of Brownian particles brings about both diffusion and osmotic pressure, phenomena that for non-interacting particles are quantified by, respectively, Einstein’s diffusion coefficient and Van ’t Hoff’s law.

只看該作者 · 發(fā)表于 2025-3-25 00:48:03

Hing Chao,Daniel Jaquet,Loretta Kimey remain suspended in the water, providing it with a whitish haze. This observation is rather astonishing because the total glass weight has not changed, and since the minuscule glass colloids have the same mass density as the initial marble, one would expect them to sink in water as well. With an

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