PROTON AND NEUTRON CLUSTER FORMATION

This is a summary of what we have been discussing. One proton cloud and one electron cloud interference wavepoint generate a hydrogen atom.

Protons are very stable and scientists have not been able to dislodge a quark from the proton (as yet). The proton is very stable because the three quarks have inward and outward forces balanced. (See page 15)

The neutron consists of three quarks that have been “compressed” in the core of stars. Great plasma flows, consisting of protons that are free, combine their interference wavepoint production to compress a proton into a neutron. The interference waves from surrounding protons move the quons of each quark in the proton closer together and speed up the rotational velocity of random quarks as they are compressed. Once in the neutron configuration, the three quarks remain compressed as long as they are in close proximity to protons.
In the case of deuterium, there is barely enough wave energy generated by the proton to keep the neutron stable in its compressed state and rapid rotation.

Helium 3 has one neutron and two protons. It is stable except in the high-energy environments, such as star cores, where it takes part in the proton – proton chain reaction fusing deuterium and hydrogen, thus producing helium 3 and gamma rays. This reaction continues, producing helium 4.

(Turn to page 20)