Abstract
The method of preparation of highly diluted solutions, by iterative dilution accompanied by intense mechanical action is described. The results of high-frequency electrical conductivity and dielectric permittivity of L and D isomers of alanine and valine are presented. The absence of dielectric increment in all samples indicates the absence of mesoparticles with high dielectric permittivity in solutions. A non-monotonic, complex dependence of electrical conductivity on the number of N dilution iterations is recorded. This type of dependence persists at large N, when the concept of the solute concentration loses its meaning, which indicates changes in the composition of aqueous solutions under mechanical impact. Repeated measurements of samples stored in closed vials in closed cardboard boxes at room conditions revealed long-term evolutionary processes in aqueous solutions. The peculiarity of the evolution of the electrical conductivity of alanine and valine solutions, in comparison with the previously studied potentiated diclofenac solutions, consists in a decrease in electrical conductivity over time, which contradicts the additional dissolution of carbon dioxide from the atmosphere when opening vials and dissolving glass. There were no differences in the properties of L and D isomers of alanine and valine solutions.
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