⇚ На страницу книги

Читать The main scientific question of our time, what is «mass»? Series: Physics of a highly developed civilization

Шрифт
Интервал

The Introduction

In this book, we will follow the evolution of the concept of "mass", which is absolutely necessary at the moment, since this fundamental concept of physics has undergone an undesirable evolution in favor of the prevailing theories of the twentieth century. The concept of "mass" in the macrocosm has lost its material content and has become a calculated physical quantity. In the microcosm, the concept of "mass" has received full materiality, but not the same as in classical mechanics. According to these two transformations in concepts, the concept of "mass" was torn into "macro" mass and "micro" mass, which undermines the material unity of the world and leads to paradoxes. It turns out that the mass of a body is not equal to the sum of the masses of elementary particles of this body, "macro" mass, and "micro" mass in modern science have completely different physical meaning and physical properties. This nonsense is one of the paradoxes that led the science of physics to the fundamental and comprehensive crisis of theoretical physics. It seems that our right hand (quantum mechanics) does not know what the left hand (relativists) is doing at all; in science this is very bad. Recently, there has been a third direction of struggle with the classical concept of mass, and some theorists plan to banish this concept from physics altogether. The return to physics of the classical understanding of mass, refined and supplemented with information by a highly developed civilization, is now a task of paramount importance.

1. The Transformation of the concept of mass for the sake of theories

Perhaps there is no single physical concept that has suffered the most from the prevailing theories in physics, as the concept of "mass". At the present time, in our orthodox physics, everything that can be hung on our long-suffering mass has been hung on it. We now have mass responsible for inertia, for gravity, and for energy. Everywhere you look; we have mass, just mass and nothing but mass. That this is not the case, we have already found out earlier, when we considered the issues of gravity in the first issue of the physics of a highly developed civilization series "The Paradigm of gravity of Extraterrestrial civilizations" [1]. So the mass of the test body, consisting only of substance has nothing to do with gravity, for a round of the gravity of the test body is not responsible for its mass, but positive (light) matter, which is part of the elementary particles of this test body, which just has no mass. Thus, to bring final clarity to this question of the masses is extremely necessary. And it is unlikely that we would be able to do it ourselves without the information of a highly developed civilization.

Mass as a scientific term was introduced by Newton as a measure of the amount of substance, before that, naturalists operated with the concept of weight. In the work "Mathematical principles of natural philosophy" (1687) Newton first defined the "amount of matter" in a physical body as the product of its density and volume. He further indicated that he would use the term mass in the same sense. Finally, Newton introduced mass into the laws of physics: first into Newton's second law (through the amount of motion), and then into the law of gravity, from which it immediately follows that weight is proportional to mass. Newton clearly pointed out this proportionality and even tested it on experience with all possible accuracy in those years: "Mass is determined by the weight of the body, because it is proportional to the weight, which I found by experiments on pendulums produced in the most accurate way" (these experiments Newton described in detail in volume III of his "Principles")