4. Matter Gravitational and Electrical aspects
Radial Activity and Graded Activity
Subatomic particles, gravitational and electrical oneness (§4.1)
The fabric of matter: subatomic particles (§4.1.1)
Under a microscope, objects appear as mosaics of molecules; at smaller scales, molecules appear as packs of atoms; and at smaller scales yet, atoms are merry-go-rounds of subatomic particles, namely, protons, neutrons and electrons, represented by a question mark on the illustration.
matter at atomic scale
matter at atomic scale
Protons and neutrons are always found tightly bound to each other in the nucleus of the atom while the electrons are always on the periphery; nucleus and electrons are performing a never ending dance, the essence of the atom.
Bring the mouse-pointer over the figure.
Considering in addition the subjacent motions of Earth, the motion complexity at the center of a subatomic particle of the coin is mind-boggling.
The proton on figure 4.1.1, which is represented with a question mark, is occurring in gravimotion under motion-occurrences, as explained next with a higher magnification yet.
The fabric of subatomic particles: motion (§4.1.2)
While
pure-activity’s
Subject §3.1 recollection:
Animated molecules
Maxwellian motion is happening, specific and symmetrical formations of motion-quanta as shown on figure 4.1.2 will surely occur and that is a certainty, meaning that it does certainly not occur by chance.
Subatomic particle
Subatomic particle origin
Four MQs, within pure-activity, will end up radially oriented as the 4 motion quanta labeled 1, 2, 3, 4 of the figure 4.1.2.
Such a configuration, which could as well start on 3 or 5 MQs better suited to a 3 dimensional particle, first locks into a stable situation, then grows in size by addition of MQs and MOs; an accumulation of motion-occurrences that has 2 characteristics appears; first such a population of MOs is inclined toward a center and is given the name of radial-activity; then that crowd of MOs is denser than pure activity and that aspect is given the name graded-activity.
The process, once initiated is self-feeding, self-controlling, and self-ending in what is called a proton; because well defined, the proton final size is determined by the number of MQs accumulated, a number determined by the radial thrust, yet also determined by the pure-activity density; protons and pure-activity mingle in symbiosis.

The radial-activity construct is identified to the proton gravitational entity, while the graded-activity coincides to its electrical-entity.
Gravitational and electrical oneness of matter (§4.1.3)
The first thing I want to mention is that both gravitation and electrical aspects of matter are occurring together under the same combination of MQs.
The very gravitational substance and very electrical substance of matter make one in the reality of matter.
And that also implies that the core of matter occurs as motion!

Even though they have very different effects, radial-activity (the gravitational aspect) and graded-activity (the electrical aspect) of a subatomic particle are, in gravimotion, fused together through their very compounded oneness.
I personally rank this as a discovery and one of my best! (comment added November 2 2013)
Because mass is unaffected by electric fields, did you ever ask yourself how in physics experiments at CERN for instance, the mass of a proton finds itself accelerated while the particle is submitted to an electrical field?
The truth of the matter is that we take for granted the fact that mass and electric charge, within a subatomic particle, move together! That is so evident, that the question doesn’t even come to the mind until one reads about gravimotion's above interpretation.
I have asked a physicist that specific question: why is the mass of a proton moving under the influence of electromagnetic field? I have been answered a proton is a charged particle and is accelerated by electromagnetic fields, obviously providing no explanation to my question!

Furthermore, and as shown in the remaining of this treatise:
§4.1.3.1 Radial activity, in gravimotion both physics’ mass and its surrounding gravitation.
§4.1.3.2 Similarly graded activity replaces both physics electric charge and electric field!
Why do fundamental particles have different masses? (§4.1.4)
I never thought about that question until that Physicist, who is nice enough to converse with me once in a while, told me that was a big mystery of science.
Because according to §4.1.3.1 just above, the particle's mass in gravimotion is abolished in favor of the particle's radial-activity, the mass of any specific fundamental particle (as considered in physics science) could depend on the number of MO's that clutch at each other initially, the phenomenon that in gravimotion is at the origin of any particle matter (§4.1.2).
Motion's 2 extreme occurrences (§4.1.5)
Amazingly this radial-actitvity build up (figure 4.1.2) amounts to turn the fastest motion that is motion-quanta (MQ) into a brutal stop.
Motions in gravimotion We have already concluded (§1.9.3 ) that any motion is a derivative of faster motions, or combination of motion-quanta. Radial-activity is a drastic illustration of that.
And because the MQ build up figure 4.1.2 is symmetrical in all directions it is represented as an MO (motion occurrence) in shape of a sphere.
Now we have encountered the 2 extremes of motion-occurrence (MO). Any motion is comprised between the fastest motion that is the motion-quantum and the slowest of it all that is radial-activity.
The mechanism of gravimotion developed in a subsequent section (§4.4), describes any motion of matter that occurs necessarily in between these 2 extremes.
Proton, electron pair (§4.1.6)
While at it, note that due to the particle radial-activity / pure-activity symbiosis, the amount of matter in the universe does no longer control the fate of the universe! In gravimotion, the present motion (physics’ space) instead controls the amount of matter at present (in the universe)!
A proton construct requires the displacements of MQs out of their original niches, which means extra motion which also means they become complex motion-occurrences (a construct made of motion-quanta).
And when locked in a proton type configuration, all motion occurrences are nevertheless wiggling around; radial and graded type activities occurring only as averages.

Proton-electrron
Proton electron in pure activity
Another phenomenon is mirroring the proton build up and its final structural constitution; the 4 MQs 1, 2, 3, 4 in their getting together left a negative motion imprint, behind them within pure-activity; that negative imprint which is the mirror image of their gathering motion, ends up elsewhere as a depletion instead, which is the converse of the structure made of the four MQs 1, 2, 3, 4, the additional mirror structure coinciding to an electron.
Just as the proton is formatted through coalescing motion, the electron is formatted through receding motion. And a model of a pair proton / electron, within pure-activity can be represented as shown on figure 4.1.3 on the right. The radial activity, at the origin of the particle figure 4.1.2 is not represented, only gradient of motion-occurrences are considered here. One must furthermore imagine that there are many more motion-quanta and motion-occurrences than represented.
The background, occurring as the present mo(ve)ments, is totally occupied. Even within the depleted volume of the electron, there are no voids and no "empty" volumes.
A heap and a depletion of MOs that is high and low MOs concentrations have been created out of each other.
They have the following characteristics:
  1. A pair electron proton is born; a high concentration of MOs with respect to pure-activity for the proton and a low concentration for the electron. The orientation of a proton’s MOs is compounded toward the center; those of an electron toward the outside.
  2. Emerging out and constantly interacting with pure-activity, both protons and electrons are integral part of it; the whole is in symbiosis of equilibrium and harmony.
  3. Radial-activity and graded activity particle’s oneness replaces all of physics matter ingredients that are mass, electric charge, gravitational field and electrical field.
  4. Because a specific electron has been born out of a specific proton involving specific interrelated motions that interrelated motions constitute an ID specific to that pair. Unless the 2 meet again, in specific motions converse to their appearance, the pair has no chance to recombine and to dissolve back into pure-activity. Such a specific proton electron pair, identified as being able to dissolve back into pure-activity is given the name twin pair.
  5. On the other hand a proton electron pair chosen at random is declared to be incompatible, and the terms incompatible pair will be used for most proton electron pairs encountered.
  6. Because twin pairs only may dissolve back into pure-activity, incompatible pairs are what maintain the integrity (no disintegration) of subatomic particles when confronted in atoms and molecules.
  7. Motion occurrences, that are combination of MQs, are always slower than any MQ (
    §1.6
    Extract from:
    Motion quantum introduction (§1.6)
    ...
    There is only one type of quantum in gravimotion, it is a motion-quantum.
    The motion-quantum has a huge motion-thrust;
    there is no small motion quantum as quanta may be in physics.
    ...
    And gravimotion's MQ, while having only one value that of light, cannot be divided.
    Slower motions are occurring in nature through combinations of MQs; and combinations of MQs never end up in faster motions than that of a single MQ.
    ); the more compounded a motion occurrence the slower its overall combination.
    Any piece of matter, no matter how small or big, occurs under (is a construct of) motion quanta (figure 4.1.2).
    As such the MQs combination 1, 2, 3, 4, is an extreme example of how an association of MQs creates slower motion! In this case 4 MQs (radial activity or gravitation) create a stand still!
  8. Pure activity (space) is neutral electrically; a fact evidenced by contrast with particles graded activity. Because issued out of each other, the existence of protons electrons pairs does not modify the overall structure of pure-activity (space). There are no voids in pure-activity.
  9. From above descriptions nothing distinguishes the body of a subatomic particle from its surrounding own gravitational and electrical field.
    The gradient of the heap of MOs that makes a subatomic particle is smooth; there is no specific boundaries appearing betwwen the center or top of the heap and the edges.
    In a subatomic particle, our human concepts of mass, electric charge, gravitational and electrical fields make one.
    Only molecules, ions and atoms that are made of a combination of subatomic particles (protons and electrons) have a specific extern boundary, which distinguishes their body from their own self engendered surrounding fields.