Quantum Mechanics |
Max Planck - 1858 - 1947 |
Quantum Mechanics is easy to explain in The Logical Universe but, very hard if you use only mathematics. All you have to do is visualize and logically put together a few facts. (a) Spin energy is linked with Universal Particles. (b) A pulling - pushing - expansion - contraction force, is linked with the pole force of magnetism, which in turn is linked to gravity and anti-gravity. (c) Fundamental Dark Matter Space is composed of extremely small rotating spherical matter, which in turn produces space and distance. (d) The Proton is primarily a closed cw energy system. (e) The Electron is primarily a closed ccw energy system. Now we can explane the quantum part. (stepping energy).
Quantum Torus Fields - These fields start at the poles of spinning structure's. Torus Fields are pole to pole to pole strings of swirling Dark Matter Particles and have either cw or ccw energy, depending on the spin of the originating body. As the spinning strings increase in length, quantity and density, they become entangled and are thicker. (twine like). They will curve inward because of the parent body's magnetism, thus creating a looping type structure. There are multiple spinning twine like strings because of interacting Dark Matter particles. These are the magnetic Quantum Torus Fields. They are called quantum because there are many, and have a magnetic step between the bonded strings.
Quantum Ring Fields - A spinning structure or body, Proton or Atomic Nucleus, that creates circular
magnetic ring fields,
that graduate outward from a central nucleus. These fields are made of
Universal Particles that are magnetically involved. There are multiple
graduating rings in each plane, that get weaker in magnetic strength as
you move outward from the core. Each of the ring fields in a single
plane has both spin and magnetic flow energy. These fields are in stacked planes that gradually get smaller but strengthen as you approach the
spinning nucleus, and weaken with fewer fields as you approach the body's north or
south pole.
In-between the outer stacked ring fields is where you find the orbiting electron. (b) Now it gets interesting. when atoms bond together it is the
intermixing of each of the atoms stacked ring fields that make the bond. (like
merging two combs together) When this happens the orbiting electrons can share
orbits with other atoms and change the now combined magnetic
characteristics of the newly created structure. (c)
The atoms can link together in the ring plane even when some of them are
upside-down. This in turn effects the development of community pole Torus Fields. (d)
We are not done yet. In the case of the Proton, if the quantum field system
encounters more energy, it will add particles to its outer ring fields. This
causes the inner fields to compact. These fields have changed their density, and
the Electrons now have more restriction. To maintain their motion they must jump
into a different corridor with less resistance (a quantum leap). This in turn,
causes a disturbance in the vibration of the whole atomic structure. That's right,
this is how spectral lines come into existence. Electron re-location works both
ways. When the Proton or Atom increases quantum ring fields, they jump outwards.
When it loses energy, they jump inward (absorption lines, emission lines).
(e) Magnetic Ring Fields also apply to
larger body's, like Planets Atmospheres, Saturn's Ring Fields, Galaxy's and
Black Stars.
Elements have different Quantum Ring and Torus Fields than the Proton. This is because in an atomic nucleus, there are multiple bonded Protons and Neutrons. As the nucleus spins, because of proton neutron count, it has a unique magnetic push and pull on outer fields. This sets the blueprint for Quantum Ring field development. * Now the kicker. Neutrons usually don't have substantial Ring fields because of lower or no spin energy, but, if the Neutron is spinning, it can generate a different version of these fields. (see Neutron Star).
See I told you it wasn't hard to understand. Maybe a little complex but not bad for logic. As for mathematics, it's a nightmare.