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. |
From inside the book
Results 1-3 of 19
Page 7
... polymer - polymer and polymer - solvent forces must also be taken into account . If the segments of the polymer chain tend to stick to one another then a tighter than random coil , and possibly precipitation , will result ; whereas a ...
... polymer - polymer and polymer - solvent forces must also be taken into account . If the segments of the polymer chain tend to stick to one another then a tighter than random coil , and possibly precipitation , will result ; whereas a ...
Page 13
... polymer 4. Termination . This can take place in several ways , such as reaction of the activated chain with an impurity , an additive or other activated chains , or by disproportionation between two activated chains . A rise in ...
... polymer 4. Termination . This can take place in several ways , such as reaction of the activated chain with an impurity , an additive or other activated chains , or by disproportionation between two activated chains . A rise in ...
Page 202
... polymers , to flow into new positions relative to one another is within a few decades of 1 second . Polymer molecules are in a continual state of flexing and twisting owing to their thermal energy . The configurations of the polymer ...
... polymers , to flow into new positions relative to one another is within a few decades of 1 second . Polymer molecules are in a continual state of flexing and twisting owing to their thermal energy . The configurations of the polymer ...
Contents
THE COLLOIDAL STATE | 1 |
KINETIC PROPERTIES | 16 |
OPTICAL PROPERTIES | 41 |
Copyright | |
10 other sections not shown
Other editions - View all
Common terms and phrases
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