Magnetism

Magnetism is a phenomenon that arises from the direction of energy flow under the condition that equilibrium with the energetic environment is maintained.

The basis of magnetism is the directed flow of energy, where the formula m ⋅ c = constant applies. There is no change in the energetic conditions; only the direction of the flow of a portion of energy passing through the body changes. There are two fundamental ways in which this phenomenon can arise: 

Permanent Magnet

This involves static alignment of energy that occurs in ferromagnetic materials. Figure 9 shows a model of such an aligner. Magnetizing a rotating ferromagnetic material causes the electron energy levels to be displaced in one direction. For simplicity, we can consider atoms as flat disks that are aligned in one direction.

Every object in the space of the cosmic tetrahedron acts as a passive obstacle to the flowing energy. This also applies to a magnet. A small portion of this flowing energy is directed in one direction due to the arrangement of atoms in the magnet. This phenomenon manifests as magnetism.

Figure 9 illustrates how energy interacts near two magnets that are oriented with the same poles facing each other (a term used in current hypotheses).

Electromagnet

term electromagnet is used in contemporary physical hypotheses. Another way of generating magnetism is based on an active component called electricity (see Chapter 10). A space is created around a conductor through which an electric current flows, directing the flow of energy. In this space, the relationship m⋅ c = constant applies (not within the conductor—see Chapter 10). This phenomenon is known in physics as electromagnetism.

The principle of directing energy is not an exclusive property of ferromagnetic materials. Every material, if it does not have the shape of a perfect sphere, exhibits this property. Various cases of paramagnetism and diamagnetism are not discussed in this text; they can be derived from the above. Although the force of magnetism may seem significant, it is a minute fraction of the energy that is directed. 

Note: Opinions on the nature of magnetism vary across different scientific disciplines. Some theories propose the existence of elementary particles with combined positive and negative polarity, while others consider magnetic force to be an inherent property of the magnet itself. There have even been attempts, such as in the former USSR, to divide elementary particles into positive and negative halves.

However, the idea that magnetic force is a product of the body itself is unacceptable to technical disciplines. After a few steps of systemic analysis, we encounter contradictions with objective natural laws, particularly the law of conservation of energy.

For example: A magnet can repel another magnet for a long time, even for billions of years, thus overcoming gravity. However, achieving this effect would require energy equivalent to the explosion of many hydrogen bombs. Such energy cannot be possessed by a magnet, and force without expending energy is considered unknown and inconceivable in systemic methods.