The Colloidal Domain: Where Physics, Chemistry, Biology, and Technology MeetThe Colloidal Domain, Second Edition is an indispensable professional resource for chemists and chemical engineers working in an array of industries, including petrochemicals, food, agricultural, ceramic, coatings, forestry, and paper products. It is also a superb educational tool for advanced undergraduate and graduate-level students of physical chemistry and chemical engineering. |
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Results 1-3 of 88
Page 49
... pressure- Ap dV , because of the pressure difference = volume work , dw across the film . The volume change is dV = 4π 3 { ( R + dR ) 3 − R3 } = 4πR2 dR ( 2.1.19 ) Balancing the work of increasing the surface with the pressure- volume ...
... pressure- Ap dV , because of the pressure difference = volume work , dw across the film . The volume change is dV = 4π 3 { ( R + dR ) 3 − R3 } = 4πR2 dR ( 2.1.19 ) Balancing the work of increasing the surface with the pressure- volume ...
Page 260
... pressure that is , the solvent chemical potential - changes the swelling of the lamellar liquid crystal . We can monitor structural changes by x - ray dif- fraction , and the measurements yield a relationship between os- motic pressure ...
... pressure that is , the solvent chemical potential - changes the swelling of the lamellar liquid crystal . We can monitor structural changes by x - ray dif- fraction , and the measurements yield a relationship between os- motic pressure ...
Page 483
... pressure difference associated with an eddy of size 1 , where a difference in velocity , Av , exists . Accord- ing to Bernoulli's equation , the difference in energy density p ( △ v ) 2/2 relates to the difference in pressure Ap . If ...
... pressure difference associated with an eddy of size 1 , where a difference in velocity , Av , exists . Accord- ing to Bernoulli's equation , the difference in energy density p ( △ v ) 2/2 relates to the difference in pressure Ap . If ...
Contents
Solutes and Solvents SelfAssembly | 1 |
Literature | 35 |
Related to Surface Tension and | 44 |
Copyright | |
15 other sections not shown
Common terms and phrases
acid adsorbed adsorption aggregation number amphiphilic aqueous behavior bilayer bulk calculate CHAPTER charge density charged surfaces chemical potential coagulation coefficient colloidal colloidal particles colloidal systems component concentration counterions curvature curve decreases depends determine diffusion dipole dispersion distance distribution DLVO theory double layer drop droplets effect electrical electrolyte electrostatic emulsion entropy equation equilibrium force formation free energy Hamaker constant head group hydrocarbon hydrocarbon chain increases interface ionic ions lamellar latex lipid liquid crystal measured membrane micellar micelles microemulsion molecular molecules monolayer monomer nucleation obtain occurs osmotic parameter phase diagram Poisson-Boltzmann equation polar polymer pressure properties protein radius repulsive result scattering separation shown in Figure shows solid solubility solvent spheres spherical stability structure surface charge surface potential surface tension surfactant surfactant film temperature term thermodynamic tion transition vesicles volume fraction Waals zero zeta potential