Course of lectures on physical constructivism

TL;DR

This paper introduces physical constructivism, emphasizing its importance for advancing exact methods in theoretical physics and complex systems, and discusses its applications in quantum theory and quantum computing.

Contribution

It presents the concept of physical constructivism, its role in physics, and practical heuristic methods for modeling quantum systems and quantum computers.

Findings

Constructive methods can enhance modeling of complex physical systems.

Physical constructivism offers new perspectives for quantum theory.

Potential applications in physics and programming are identified.

Abstract

In this course, I talk about the source of mathematical constructivism and its role in the future development of theoretical physics. I describe what physical constructivism is and why it is necessary for the penetration of exact methods of theoretical physics to the area of complex systems, which formally belong to the others natural disciplines. I describe the concrete heuristic for the creating of models of constructive quantum theory the method of collective behavior. I represent the constructive viewpoint on the quantum computer, which treats it as the model object of many particle quantum physics, and the practical recommendation concerning its building. Due to the known inertia of the educational system constructive methods in mathematics remains mostly unknown to the wide physical community, and I hope that this course will stimulate the interest to the new possibilities, which these methods open. These possibilities represent interest to natural scientists and for programmers as well.