Fundamental Differences Between Application of Basic Principles of Quantum Mechanics on Atomic and Higher Levels

TL;DR

This paper discusses the fundamental differences in applying quantum mechanics principles to atomic versus macroscopic systems, highlighting paradoxes and contradictions at the macroscopic level.

Contribution

It emphasizes the paradoxical implications of Bohr quantization when extended from atomic to macroscopic systems, challenging conventional understanding.

Findings

Quantum principles lead to paradoxes at macroscopic scales.

Contradictions between quantum mechanics and macroscopic realism.

Highlighting the need to reconsider quantum applications beyond atomic physics.

Abstract

Superconductivity is macroscopic quantum phenomenon. From force of habit most physicists pay no heed to a paradoxicality of this fact. Niels Bohr considered quantum mechanics as atomic physics and the paradoxical quantum principles may be admissible on this level. But they seem quite strange on the macroscopic level. In the last years some experts, A. J. Leggett and other, attract our attention to a contradiction between quantum mechanics and macroscopic realism. In this paper I try to draw reader's attention to some paradoxical consequences of the Bohr quantization on the macroscopic level.