Quantum levitation and superconductivity, as they say in Odessa, two big differences
  Quantum levitation and superconductivity, as they say in Odessa, two big differences   A. Ampere's hypothesis about the nature of magnetism, based on the fact that the atoms of all substances that revolve around the nucleus of the atom, generate microcurrents causing magnetism, are incorrect. Magnetism is determined by gravitons - magnetic dipoles, from which the entire material world is composed. Gravitons, attracted to each other by different poles, form magnetic, electromagnetic and gravitational fields. Gravitons, attracted to each other by different poles, form the bodies of atoms and molecules. According to our hypothesis, electrons rotating around the nucleus of an atom are concentrated in two northern poles, called the negative electric potential. Perpendicular to the ring in which electrons move, the nucleus of the atom generates two south poles, which are called positive electric potentials. This difference in magnetic potentials determines the magnetism of the substance, which determines the possibility of attaching atoms to molecules. By the way, this construction of atoms was confirmed by experience established in 1952 by German physicists O. Stern and V. Gerlach, although they could not explain the result of the experiment. Atoms and molecules can be added to magnetic clusters with weak (diamagnetics, paramagnets) and strong (ferromagnet) magnetization. But, in our opinion, quantum levitation is determined not so much by the magnetism of atoms, molecules and ions of a levitating sample as by the magnetism of gravitons that form the gravitational field of a sample. Apparently, it is this diamagnetic effect that arises when, at an extremely low temperature, the levitating sample displaces the external magnetic field of a permanent magnet by its internal graviton field. Gravitone is a mini-vortex of ether, and, apparently, the extremely low temperature of this vortex raises it to a higher level of energy. Thus, the levitation of diamagnets in the field ... Read more

Эта публикация была размещена на Либмонстре в другой стране и показалась интересной редакторам.

Полная версия: http://libmonster.uk/m/articles/view/Quantum-levitation-and-superconductivity-as-they-say-in-Odessa-two-big-differences
Таджикистан Онлайн · 1253 days ago 0 1314
Professional Authors' Comments:
Order by: 
Per page: 
  • There are no comments yet
Guest comments

Who Like this
Likes · Dislikes
0 votes
Таджикистан Онлайн
Душанбе, Tajikistan
26.06.2018 (1253 days ago)
Permanent link to this publication:


© library.tj

Libmonster, International Network:

Actual publications:

Libmonster Partners

Actual publications:


Latest BOOKS:

Actual publications:

LIBRARY.TJ is a Tajik open digital library, repository of author's heritage and archive

Register & start to create your original collection of articles, books, research, biographies, photographs, files. It's convenient and free. Click here to register as an author. Share with the world your works!
Quantum levitation and superconductivity, as they say in Odessa, two big differences

Watch out for new publications: News only: Chat for Authors:

About · News · For Advertisers · Donate to Libmonster

Digital Library of Tajikistan ® All rights reserved.
2018-2021, LIBRARY.TJ is a part of Libmonster, international library network (open map)


US-Great Britain Sweden Serbia
Russia Belarus Ukraine Kazakhstan Moldova Tajikistan Estonia Russia-2 Belarus-2

Create and store your author's collection at Libmonster: articles, books, studies. Libmonster will spread your heritage all over the world (through a network of branches, partner libraries, search engines, social networks). You will be able to share a link to your profile with colleagues, students, readers and other interested parties, in order to acquaint them with your copyright heritage. After registration at your disposal - more than 100 tools for creating your own author's collection. It is free: it was, it is and always will be.

Download app for smartphones