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Dispersion forces among nonpolar particles. A, When atoms are far apart, an instantaneous dipole in one atom doesn t influence another.

Dispersion forces among nonpolar particles. j 7 0S9 NC

Dispersion forces among nonpolar particles. The dispersion force is responsible for the condensed states of noble gases and nonpolar molecules. A, Separated Ar atoms are nonpolar. B, An instantaneous dipole in one atom induces a dipole in its neighbor. These partial charges attract the atoms together. C, This process takes place among atoms throughout the sample.

Dispersion forces as aresult of dipolar interactions between the virtually excited dipole moments of solute and solvent.

Dispersion from different forms of connecting tubes.

Dispersion in a laminar flow channel reactor with inert walls

Dispersion in a laminar flow channel reactor with inert walls and with catalytically active walls.

Dispersion in a tubular reactor.

Dispersion in a tubular reactor. From O. Levenspiel, Chemical Reaction Engineering, 2nd ed. Copyright 1972 John Wiley Sons, Inc.

Dispersion in coiled tubes according to Speberg s model . .

Dispersion in packed beds

Dispersion in straight, coiled, and knitted tubes as function of the linear flow velocity F

Dispersion index as a function of degree of polymerization for a polycondensation with monomer ratio I and no termination. For higher

Dispersion index as a function of monomer conversion for polymerizations with continuous initiation and bimolecular termination and no chain transfer, for three reactor types. The initial ratio of propagation and initiation rates is 10. For higher values of this ratio the differences between the curves increase.

Dispersion index as a function of monomer conversion, for polymerizations with instantaneous initiation, no termination and no chain transfer values of this ratio the folds in the curves coincide with the vertical axis.

Dispersion indicator relative the point of its introduction as a result of diffusion in the absence of filtration.

Dispersion laws for orientational vibrations of inclined quadrupoles .

Dispersion map for the a-process of both single thin films and stacked thin films of P2CS. For stacked thin films of 18-nm thick P2CS layers, the temperature dependence of at various annealing times 0-160 h are plotted. The results for single thin films with thicknesses of 20 and 120 nm are also plotted

Dispersion mechanism for polymer blending in a single screw extruder.

Dispersion methods

Dispersion mode Lorentzian signal. The position of a dispersion mode signal is where the line crosses its baseline the halfwidth is the horizontal distance between the maximum and the minimum of the signal curve. Compare this signal with the absorption mode Lorentzian signal in

Dispersion model in accordance with relaxation theory admittance model.

Dispersion model. Conversion of first-order reaction as function of the Peclet number.

Dispersion number vs. Dean number.

Dispersion of 5 Pigment Orange 43 in a toluene-based gravure printing vehicle with a paint shaker. Effect of the dispersion time and the dispersion temperature on the depth of shade .



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