## Dispersed systems |

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Page 134

A correlation coefficient higher than 0.999 was obtained in every experiment.

Using the Higuchi [12] equation values of the effective

could be obtained. (1) where Q = cumulative amount of drug released (mg) A ...

A correlation coefficient higher than 0.999 was obtained in every experiment.

Using the Higuchi [12] equation values of the effective

**diffusion coefficients**, Dcould be obtained. (1) where Q = cumulative amount of drug released (mg) A ...

Page 135

Effective

hydrophilic domains at 21 °C as calculated with Eq. (3). ♢) creams with Brij96R (

EO9.3), the standard deviation is indicated; • ) creams with Brij 96R (EO8.5) likely

that the ...

Effective

**diffusion coefficients**of benzocaine vs the volume fraction of thehydrophilic domains at 21 °C as calculated with Eq. (3). ♢) creams with Brij96R (

EO9.3), the standard deviation is indicated; • ) creams with Brij 96R (EO8.5) likely

that the ...

Page 230

The

temperatures. Using the method of Rogers et al., (Eq. 6) one gets always the

highest values in comparison with the other evaluation methods. Further tests

with ...

The

**diffusion coefficients**for Ar for SBS67-films are liste in Table 1 for differenttemperatures. Using the method of Rogers et al., (Eq. 6) one gets always the

highest values in comparison with the other evaluation methods. Further tests

with ...

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### Contents

General | 1 |

The tfMaw in colloid and polymer science | 15 |

The theory of surface tension components and the equation of state approach | 26 |

Copyright | |

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accepted June acid adsorbed adsorption aggregates amine anionic aqueous solutions behavior bentonite benzocaine birefringence calculated capillary waves cationic cell chain Chem coagulation Colloid concentration constant contact angle copolymer correlation creams crystal growth crystalline curve decrease density dependence determined dielectric diffusion coefficient dispersion dodecyl effect electrolyte electron emulsions enthalpy equation equilibrium ESASS-comonomer ethoxylated ethylene oxide experimental fibers formation Fowkes function graft copolymer Graz hydrated hydrophilic hydrophobic increasing Interf Sci interface interfacial tension ions isotropic kinetics Krafft point Kratky lamellae latex latices layer liquid measurements melt membrane method micelles micro-emulsion microparacrystals mixture molecular molecules Neumann obtained parameters particle Phys Chem polarization Polym Sci polymer potential precipitation pressure ratio Rheology salt sample scattering sediment shear shear rate shown in Fig shows small-angle solubility solvent spectra structure surface tension surfactant Table temperature tion values viscosity x-ray Zeta zetapotential