MODELING THE DISTRIBUTION OF NANOPARTICLES IN A DISPERSED LIQUID TO ENHANCE THE EFFECT OF PHYSIOTHERAPY

The article gives an investigation of the behavior of nanoscale components under the influence of an electric current. The use of nanoscale systems is a promising direction in medicine, it allows to conduct targeted delivery of medicinal substance, prevents its destruction along the way to the affected area and helps to provide prolonged action. The work analyzes the motion of particles in an electric current when they are delivered to the affected area. The value of electrokinetic potential and electrophoretic mobility are considered. An analysis of the distribution of nanoparticles in a dispersed liquid under the action of an electric field was made, a vector plot and a gradient field of nanoparticle distribution in a liquid under electric shock, as well as modeling of the vector dipole moment function in electrophoresis with spherical nanoparticles were constructed. And also in the article the modeling of the processes arising during the procedure of physiotherapy is carried out, it is established that the nanoparticles are arranged in an orderly manner in accordance with the lines of the electric field strength vectors during electrophoresis. electrophoretic mobility and activity are considered when using therapeutic nanoparticles in electrolyte solution. It is revealed that the electrophoretic speed of the particles considered decreases in comparison with the speed of movement of sufficiently large particles, but is compensated by an increase in the velocity of fluid motion.

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