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Magnetic fields

A magnetic field consists of 2 composite parts.

1 A radiation field.
2 Spin of particles.

The universe's main system points to the fact that the magnetic field consists of particle spind and radiation.

Until now, I assess that the radiation is in a spectrum area with a very large wavelength and is found in the radiation area that has not been mapped so far.

The radiation moves in a closed circuit. The most probable thing is that the atom's base nuclei are absorbed in the south pole and the energy is moved through the base nuclei and emitted again in the north pole.

If a change in the spin of the particles occurs, there will also be a change in the wavelength. That is, the wavelength is adapted to the spin and energy of the particles.

I should note this here: that radiation is a high velocity particle and we have here another example of the particle properties of the radiation.

Figure 951 shows a particle rotating about its own shaft.
We have here a variant of the velocity of the kinetic mass, with the inner part standing still and the outer part having a velocity maintained by the mass of the nucleus. It is comparable to the deflection of the moon in the Earth's field of attraction

You should be aware that the rotation does not create any polarization of the magnetic field but creates the deflection path of the radiation at a certain wavelength.


You should read my section on radiation.

The radiation is in the low-energy area with a large wavelength.

I see no problems with magnetic fields compared to the system I work with.

There are some interesting things to do with polarization and the core work of the inner work that are interesting to look at.

The Universe.

Classic big bang.

Mass formation.

Atom structure.

Atom binding.

Molecular binding.

Particle radiation

Magnetic fields.

Mass attraction.


Micro physics



Ultima update : 01 July 2020
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