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The solution w of the linear approximation superimposed on the exact solution forA

The solution with H 1.7974, same space group and topological type as the Schwarz minimal surface.

The solution-casting process.

The solution-diffusion transport model in pervaporation. a Solution of compounds from the feed phase into the membrane surface, b Diffusion across the membrane barrier, c Desorption from the membrane permeate side into the permeate phase

The Solutions to the Schrddinger Equation for a Particle in a One-Dimensional Box. The energy eigenfunctions.

The solutiori to the XOR problem using a hidden layer of neurons. The numbers appearing by the links are the synaptic weight values the numbers in the circles are the required thresholds r. Note that the solution shown here is not unique. Can the reader find another set of synaptic weights and thresholds that give rise to the same answer

The solvated free energy profiles calculated for the IrHjfPNPf-catalyzed hydrogenation of COj.

The solvation and response fiinetions, S, respectively, for solvation of a spherical ion in a model for the solvent 1,2-methoxy ethoxy ethane, HtCH OCH LCH,. Full line

The solvation and response functions, S, respectively, for solvation of a spherical ion in a model for the solvent 1,2-methoxy ethoxy ethane,

The solvation and response functions, S, respectively, for solvation of a spherical ion in a model for the solvent 1,2-methoxy ethoxy ethane, HlCHjOCHjljCHj. Full line

The solvation and response functions, S2CH3. Full line

The solvation energy, . Dotted line, p 0 solid line, p-0.019 dashed line, p 0.25 dashed-dotted line, p 8. From Ref. 11a .

The solvation enthalpy of an HR in the reference solvent solvent parameters as in

The solvation entropy of in HR and in the cluster model .

The solvation force of ethanol between mica surface. The inset shows the fiill scale of the experimental data. With pennission from .

The solvation force of ethanol between mica surface. The inset shows the full scale of the experimental data. With permission from .

The solvation Gibbs energy of an HR in solvent, for different values of the energy parameters. The parameters in this illustration are

The solvation heat capacity of HB in the cluster model and in the HR solvent .

The solvation of an inorganic cation in water.

The solvation partial molar heat capacity of an HR in the primitive parameters as in

The solvation process of two fragments A and B. This is a straightforward generalization of the process of solvation of a solute s as depicted in figure 7.2.

The solvation TCF and its single-solvent-molecule, Css, the negative of thepair component, is shown.

The solvation TCF and its single-solvent-molecule, Cssft and solvent-pair Csp, the negative of thepair component, is shown.

The solvation TCF, C a, and the approximate solvation TCF obtained by raising to the power

The solvation TCF, C t , its normalized single-solvent molecule component, Css. The results for Cl53 in acetonitrile and CO2 are shown in the left and right panels respectively.



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