Introduction to Colloid and Surface ChemistryThe colloidal state; Kinetic properties; Optical properties; Liquid-gas and liquid- liquid interfaces; The solid-gas interface; Charged interfaces; Colloid stability; Rheology; Emulsions and foams. |
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Page 160
... conductance The distribution of ions in the diffuse part of the double layer gives rise to a conductivity in this region which is in excess of that in the bulk electrolyte medium . Surface conductance will affect the distri- bution of ...
... conductance The distribution of ions in the diffuse part of the double layer gives rise to a conductivity in this region which is in excess of that in the bulk electrolyte medium . Surface conductance will affect the distri- bution of ...
Page 161
... surface conductance inside the shear plane , especially if the particle surface is porous , has been suggested to account for this discrepancy.97 , 104 There is , therefore , some uncertainty regarding the influence of surface conductance ...
... surface conductance inside the shear plane , especially if the particle surface is porous , has been suggested to account for this discrepancy.97 , 104 There is , therefore , some uncertainty regarding the influence of surface conductance ...
Page 166
... surface conductance . Combination of Equations ( 7.27 ) and ( 7.29 ) gives a general relationship between electro - osmosis and streaming potential which , again by a more general derivation , 115 can be shown to apply independent of ...
... surface conductance . Combination of Equations ( 7.27 ) and ( 7.29 ) gives a general relationship between electro - osmosis and streaming potential which , again by a more general derivation , 115 can be shown to apply independent of ...
Contents
THE COLLOIDAL STATE | 1 |
KINETIC PROPERTIES | 16 |
OPTICAL PROPERTIES | 41 |
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acid addition adsorbed adsorption agents amount applied approximately aqueous attraction average become boundary calculated capillary cell charge coefficient colloidal concentration conductance constant contact angle containing curve decrease depends detergent determined diffusion dispersion distance double layer droplets effect electric electrokinetic electrolyte electron electrophoretic emulsion energy equation equilibrium example experimental expression factor field Figure film flocculation flow foam forces give given greater heat hydrocarbon important increase interface involved ions isotherms less light liquid lower material measurements mechanical medium method micelles mobile molecules monolayer motion nature observed orientated particles phase physical polymer positive potential pressure properties protein ratio reduced relative respect result sample scattered sedimentation separated shape shear solid solution solvent spherical spread stability structure studying surface tension take place technique temperature tend theory thickness tion usually various viscosity volume