Electrogenesis

Electrogenesis is the process of formation of electric current in conductors under the influence of various factors, such as changes in temperature, pressure, magnetic field, etc. This process is widely used in various fields including electrical power, electronics, medicine and others.

Electrogenesis occurs as a result of the movement of charged particles in a conductor, such as electrons or ions. When conditions such as temperature or pressure change, these particles begin to move faster or slower, causing the electrical potential in the conductor to change. This change in potential causes an electric current to occur.

One example of electrogenesis is the thermoelectric effect, which occurs when a conductor is heated. In this case, the movement of electrons in the conductor is accelerated by temperature, which leads to the appearance of an electric current. Similarly, when pressure changes in a conductor, ions can move under the influence of pressure, which also causes the appearance of an electric current.

The word "electrogenesis" first appeared among professional nuclear physicists, and therefore it describes a concept related to quantum physics. Science has established that many particles can exist in a certain state without simultaneously belonging to either of the other two supposed states. That is, they exist in a state with mixed characteristics, being, as it were, neutral. They were called superpositions.

When it comes to a specific fermion, this state does not make sense. If all the electrons began to be in a mixed state at the same time, the result would be a complete loss of any distinction between them. All particles will suddenly find themselves on the other side of the dimensional barrier, occupying the same basis vector. And this will lead to the fact that the position of the electron in space will cease to be something definite.

If we accept the position that the birth of new particles always refers to a constant increase in their number and mass, depending on how much the energy of the resonator that creates fields at the sites of particle birth increases, then any fusion reaction will become controlled and guaranteed. A state with a mixed type of superposition in this situation will appear whenever there is a new supply of heat or pressure resulting from the actions of the nucleus. Thus, all black holes formed as a result of supernova explosions will consist of positrons and antineutrinos. This energy indicator is much higher than the most advanced power plants in the world.