Abstract
This work is the part of a study of the low-frequency acoustic effects on redox chemical reactions. We have investigated the effect of low-frequency axial vibrations on a model system consisting of two biochemically active components: the monomeric form of the dye methylene blue and ascorbic acid. The model system allows to study the effect of the field of low-frequency vibrations on the mutual redox process and to reveal the features of such effects. As a result of the study, the effect of inhibition of the model system in the field of low-frequency acoustic vibrations was discovered. The effect was quantified. The kinetic curves of the sound chemical process were obtained.
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