Electrons Emitting Electromagnetic Information (e.m.i)

Alberto Mesquita Filho

1. Abstract
2. Introduction
3. Static electromagnetic fields
4. Stationary electromagnetic fields
5. Electrons emitting electromagnetic radiation
6. The energy of electromagnetic radiations
7. The material component of electromagnetic radiations
8. Bibliography

7. The material component of electromagnetic radiations

The best known radiations are those produced when the electron suffers a changeable variation in time as the answer for an electromagnetic stimulus (non-uniform field). The typical example is the one observed by the electron when it tries to fit in one of “Bohr’s allowed orbits” which merely are the regions of the atom where the electron manages to fit its dynamic and electromagnetic properties to the demands of a stationary electromagnetic field such as the one presented in pictures 4, 5 and 6 and produced by one of the nuclear protons. In doing so, the electron emits (or absorbs) some particles (photons) as if it were trying to regulate and/or adapt its properties in a search for stability.

Photons, entropins and/or neutrinos are, therefore, Newton’s corpuscles, the materials constituents which complete the electromagnetic radiations charged with non-void energy. They reproduce in their own way, and on a more elementary level, the characteristics of the emitting electron. According to the emission’s direction in relationship to the electron’s spin, they behave as fermions (entropins and/or neutrinos) or bosons (photons) of modern physics.

 

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