Dynamical methods of investigations in application to the Schroedinger particle

TL;DR

This paper proposes analyzing quantum systems as classical dynamic systems, bypassing quantum principles, to improve investigation methods and address issues like incompatibility with relativity and potential inaccuracies.

Contribution

It introduces dynamic methods that ignore quantum principles, offering a more effective approach to studying quantum systems and challenging the Copenhagen interpretation.

Findings

Dynamic methods are more adequate than traditional quantum methods.

The Copenhagen interpretation is incompatible with quantum mechanics formalism.

Applying quantum principles can sometimes lead to incorrect results.

Abstract

Quantum systems are dynamic systems restricted by the principles of quantum mechanics (linearity of dynamic equations, linear transformation of the wave function etc.). One suggests to investigate the quantum systems simply as dynamic systems, ignoring the quantum principles and constraints imposed by them. Such dynamic methods of investigation appear to be more adequate and effective, than the conventional quantum methods of investigation. Using these methods, which ignore the quantum principles, one can overcome the principal problem of quantum field theory: join of nonrelativistic quantum principles with the relativity principles. Investigation of dynamic system, described by the Schroedinger equation, admits one to prove that the Copenhagen interpretation is incompatible with quantum mechanics formalism. Besides, it is shown that sometimes the application of quantum principles leads to incorrect results.