SoftMatterLecture
Lecture 19
25
Electro-osmosis
Index
Course Info
Course Information
Instructors
Resources
Exercises and Exam
Lecture 1
1
Introduction
2
Thermodynamics and Statistical Physics Revisited
Lecture 2
3
Statistical Physics Definitions
Lecture 3
4
Equipartition
5
Chemical Potential
Lecture 4
6
Osmotic Pressure
7
Gibbs Distribution
Lecture 5
8
Phase Transitions
Lecture 6
9
Kinetics of Liquid–Liquid Unmixing
Lecture 7
10
Solid–Liquid Phase Transitions
11
Forces and Interactions in Soft Matter
Lecture 8
12
Forces and Interactions in Soft Matter
Lecture 9
13
Electric Double Layer
Lecture 10
14
van der Waals Interactions
Lecture 11
15
van der Waals Interactions
16
van der Waals Interaction
Lecture 12
17
van der Waals Interaction
Lecture 13
18
Depletion Forces
Lecture 14
19
Depletion Forces
20
Flows and Transport in Liquids
Lecture 16
21
Brownian Motion
Lecture 17
22
Hydrodynamics
Lecture 18
23
Reynolds Number
24
Boundary Hydrodynamics
Lecture 19
25
Electro-osmosis
26
Polymers
Lecture 20
27
Ideal Polymer Models
Lecture 22
28
Real Polymers
Lecture 23
29
Scattering Techniques for Polymer Conformation
30
Viscoelasticity
Lecture 24
31
Viscoelasticity
Lecture 25
32
Dynamics of Polymers
Lecture 26
33
Semidilute Polymer Solutions
Lecture 27
34
Liquid Crystals
Lecture X
35
Forces and Interactions in Soft Matter
36
Flows and Transport in Liquids
37
6_Membranes_Colloids_Liquid_Crystals.html
Lecture 19
25
Electro-osmosis
25
Electro-osmosis
Code
24
Boundary Hydrodynamics
26
Polymers
Source Code
---
title:
Electro-osmosis
jupyter:
python3
---