DETERMINISTIC SYSTEMS WITH NATURAL QUANTIZATION

Subject of Research. The research of deterministic systems is a topical problem of natural science. The paper presents an approach for behavior study of the deterministic systems. The work is aimed at creation of the evolution equation for deterministic systems, which shows that part of the macroscopic processes complies with quantum logic. Method. A new algebraic approach is proposed based on non-commutative algebra. It is shown that for any deterministic system in case of setting its change for a short time period, it is possible to create a system of differential equations describing the evolution of a given system in time. Implemented apparatus of non-commutative multiplication is an alternative to the operator calculus for quantum mechanics. Main Results. An associative non-commutative ring is built describing the evolution of arbitrary deterministic system. The proposed algebra is an isomorphic Heisenberg algebra. It is shown that all elements of algebraic rings are functions of numerical variables unlike the mathematical apparatus of quantum mechanics and, therefore, it is possible to give them different physical meaning. Practical Relevance. An example of differential equation creation is considered describing the motion of a classical particle in the presence of random forces. The obtained equation describes the probability density of a classical particle location at an arbitrary point of time in phase space.