BEGIN:VCALENDAR VERSION:2.0 PRODID:-//CERN//INDICO//EN BEGIN:VEVENT SUMMARY:Taking into account the random component in the quantum representa tion of particles DTSTART;VALUE=DATE-TIME:20201005T164500Z DTEND;VALUE=DATE-TIME:20201005T170000Z DTSTAMP;VALUE=DATE-TIME:20260515T134933Z UID:indico-contribution-2148@cern.ch DESCRIPTION:Speakers: Victor Vorontsov (NRNU MEPhI)\nDynamic chaos is obse rved experimentally in macro objects\, but did not receive a proper explan ation. To take it into account in the quantum representation of the partic le motion\, an attempt was made to introduce a random component into the e quation of motion. Its magnitude depends on the intrinsic energy of the pa rticle\, equal to the resting energy. The total energy of the particle is equal to the sum of the deterministic and random energy. The deterministic energy of the particle is equal to the kinetic energy of the particle and the energy of the field in which it is located. The dynamics of the parti cle movement is considered in a quantum representation. A system of ordina ry differential equations in finite differences is obtained. The principle of minimal action is carried out without taking into account the random c omponent of the movement and without taking into account the second bounda ry condition. The division of motion into deterministic and random compone nts is also random. The calculation technique was tested on data depicting the movement of an electron in in a hydrogen atom around its nucleus in t he form of a proton. Estimates showed a satisfactory coincidence of calcul ated and experimental data. Quantum approximation was also used to infer a number of equations of physics. It includes the derivation of the equatio ns of classical mechanics describing translational and rotational movement s. Then\, in the same way\, the equations of classical electrodynamics bea ring the name Maxwell were deduced. This was followed by the conclusion of the equation of non-relativistic quantum mechanics\, called the Schroding er equation. Then the equation of relativistic quantum mechanics\, known a s the Klein Gordon equation\, was derived. Finally\, the same approach was used to infer the first onset of thermodynamics.\n\nhttps://indico.partic le.mephi.ru/event/35/contributions/2148/ LOCATION:Discord Poster Server URL:https://indico.particle.mephi.ru/event/35/contributions/2148/ END:VEVENT END:VCALENDAR