SoftMatterLecture
  1. Lecture X
  2. 37  6_Membranes_Colloids_Liquid_Crystals.html
  • 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
  1. Lecture X
  2. 37  6_Membranes_Colloids_Liquid_Crystals.html

36  Flows and Transport in Liquids
Source Code
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