Introduction to Colloids6part1
Let's dive into the details surrounding Colloids6part1. Lecture 6 of colloidal materials. motion of colloidal particles. Gravity, bouyancy, drag force. Reynolds number, Stokes equation.
Colloids6part1 Comprehensive Overview
Lecture 6 part 2 of colloidal materials. Stokes equation. terminal velocity. Osmotic pressure. Einstein's theory of Brownian motion. Date & Time: 17 February 2017 to 19 February 2017 VENUE: Ramanujan Lecture Hall, ICTS, Bengaluru This is an annual ... An Openware undergraduate module on colloidal materials (CH3E7) consisting of 18 lectures taught by dr.ir. Stefan A. F. Bon ...
Emulsion polymerization: particle growth. Swelling of latex particles, monomer transport, diffusion controlled emulsion ...
Summary & Highlights for Colloids6part1
- lecture 10. colloidal materials. introduction to pair potentials. The Mie potential. Lennard Jones potential. AFM.
- A 3-micron particle is trapped with an infrared laser beam, and oscillated through a liquid medium. This technique has practical ...
- minemulsions, Ostwald ripening, miniemulsion polymerization. A complete set of lecture slides in pdf format can be downloaded ...
- Use Reynolds Number scaling to find the drag force expected on a 30 m prototype in air by testing a 1 m model in water.
- http://lankelectures.blogspot.com/ Shankar Lanke.
That wraps up our extensive overview of Colloids6part1.