From Quantum Cognition to Conceptuality Interpretation II: Unraveling the Quantum Mysteries

TL;DR

This paper discusses the conceptuality interpretation of quantum mechanics, offering explanations for quantum phenomena and relativistic effects, and proposing a new perspective on evolution, aiming to unify quantum and relativistic insights.

Contribution

It introduces and elaborates on the conceptuality interpretation, providing novel explanations for quantum phenomena and their connection to relativistic effects and evolution.

Findings

Clarifies Heisenberg's uncertainty principle

Explains quantum entanglement and nonlocality

Links interpretation to relativistic time dilation

Abstract

An overview of the conceptuality interpretation of quantum mechanics is presented, along with an explanation of how it sheds light on key quantum and relativistic phenomena. In particular, we show how the interpretation clarifies Heisenberg's uncertainty principle, wave function-based and entanglement-based nonlocality, interference effects resulting from the superposition principle, delayed choice experiments, quantum measurements, the mechanism of quantization, the reason why entities can establish entanglement bonds, and the statistical behavior of indistinguishable entities. We further argue that the interpretation can also elucidate relativistic effects, focusing on time dilation. Finally, we suggest that it can provide a novel and challenging perspective on evolution. This article is the second in a two-part series devoted to exploring this promising approach to reality. The first part, which serves as a companion to this discussion, outlines the intellectual trajectory leading from the first applications of quantum notions to human cognition to the bold rethinking suggested by the conceptuality interpretation.