The Mechanics of Gravitation—What It Is; How It Operates

From a start of only the limitation on the speed of light, the necessity of conservation, and the impossibility of an infinity in material reality, the present paper presents a comprehensive development of the mechanics, the operation of gravitation. Experience shows that everything has a cause and that those causes are themselves the results of precedent causes, and ad infinitum. Defining and comprehending the causality or mechanism operating to produce any observed behavior is essential to understanding or explaining the behavior. The behavior of gravitation is well known, described by Newton’s Law of Gravitation. But what gravitational mass is, how gravitational behavior comes about, what in material reality produces the effects of gravitation, is little understood. The extant hypotheses include Einstein’s General Relativity’s bending of space, efforts to develop “quantum gravitation”, and attempts to detect “gravitons”. None of those addresses the cause, the mechanism of gravitation. As demonstrated in the present and its prior papers, gravitation is an outward flow from gravitating masses. That means that by manipulating that flow gravitation can be controlled. The procedure for obtaining such control and the design for several various applications are presented in the paper Gravitational and Anti-gravitational Applications which is available in this journal.

None of those addresses the cause, the mechanism of gravitation.
Experience shows that everything has a cause and that those causes are themselves the results of precedent causes, and ad infinitum. Defining and comprehending the causality or mechanism operating to produce any observed behavior is essential to understanding or explaining the behavior.
From a start of only the limitation on the speed of light, the necessity of conservation, and the impossibility of an infinity in material reality, the present paper presents a comprehensive development of the mechanics, the operation of gravitation The Einstein model of gravitation is that of his General Theory of Relativity.
That theory describes the behavior of gravitation and the effects that it produces.
But, it does not address the cause, the mechanism, of that behavior and effects.
The closest that General Relativity comes to the cause or mechanism of gravitation is the contending that gravitational mass "curves" or distorts "space", the distortion leading to the various effects of gravitation. However, no cause or mechanism for the contended distortion of space is offered nor is an explanation of what that "space" or space-time is and how it is subject to being curved or distorted.
The comprehensive explanation of the cause and mechanism of gravitation as derived from the origin of the universe, the Modern Newtonian Model of Gravitation, is not a replacement for, nor contradiction of, the useful aspects of General Relativity but a supplementing of it with an alternative model which unlike General Relativity leads to resolution of the problem of "Big G" and to partial control of gravitation and applications of it.
The development of the Modern Newtonian Model of Gravitation consists of the following steps. Each step results in new "hard" facts generated directly from prior "hard" facts. The development does not contain nor rely on opinions.
Consequently, while it is deemed a "model" it is an exact factual description of what it treats.
Step 1-How the universe's particles of matter came into existence.
Step 2-How they came to be propagating an outward flow.
Step 3-The reservoir supply for the substance of the outward flow.
Step 4-The speed of the outward flow.
Step 5-A particle's flow encountering another particle slows its outward flow.
Step 6-The outward flow has momentum.
Step 7-Gravitation is the momentum reaction to outward flow slowing. As with Descartes, because we are here thinking about this, then apparently the two oscillations did not promptly mutually annihilate, which means that they were so unstable that they even more promptly exploded into the myriad matter particles of our universe. That myriad particles can themselves only be like their parents, oscillations of the forms ±[1 − cos(2πft)].

How the Universe's Particles of Matter Came into Existence
Each oscillation is three-dimensional because three dimensions is the minimum number that can involve space part of which is not its own boundary. Therefore the oscillations are spherical.
Every oscillation that we know in nature exhibits, and the very theory of oscillations in the abstract requires, that the oscillation consist of two aspects of the substance which is oscillating [e.g. pendulum position and velocity, electric potential and current] storing and exchanging back and forth the energy of the oscillation. With one aspect varying in oscillatory fashion then when that aspect decreases there must be some "place" for its energy to go, a place in which it is stored until it reappears in that aspect when it increases again. It cannot completely disappear or be lost because the oscillation would die. That "place" is the oscillation's second aspect and it obviously must vary in a manner related to the first aspect's variation, but with its energy storage in opposite phase. The matter of the universe is myriad particles, each a spherical oscillation.

Each Matter Particle's Central Core
Each of the myriad original matter particle's spherical oscillations had to be of some determined size, some volume. That develops as follows.
Newton's law of gravitation expressed in terms of m source and m acted-on and with both sides of the equation divided by m acted-on is, of course, stating that gravitation is a property of a body's mass.
However, mass and energy are equivalent, so that a mass, m, is proportional to a frequency, f, that is characteristic of that mass. That is 2 2 or so that the m source of Equation (1) has a corresponding equivalent frequency, f source . That being the case, the gravitational acceleration, a grav , can be expressed in terms of that frequency as the change, Δv, in the velocity, v, of the attracted mass per time period, T source , of the oscillation at the corresponding frequency, f source , as It can then be reasoned setting Equation (3) = Equation (1) as follows.
Equation (5), below, is obtained by using the fact that frequency is proportional to mass so that with f p and m p as the proton frequency and mass then Rearranging and canceling m source on both sides of the equation, Then substituting, per Equation (2), The Planck Length, l P , is defined as Substituting G as a function of the Planck Length from Equation (8) into G as it is in Equation (7), the following is obtained.
This result states that: • the velocity change due to gravitation, Δv, • per cycle of the attracting mass's equivalent frequency, f source , • which quantity, Δv·f source , is the gravitational acceleration, a grav , • is a specific fraction of the speed of light, c, namely the ratio of: • 2π times the Planck Length squared, 2 2π P l ⋅ , to • the squared separation distance of the masses, d 2 .
That squared ratio is, of course, the usual inverse square behavior. This also means that at distance 2π P d l = ⋅ from the center of the source, attracting mass, the acceleration, Δv, per cycle of that attracting mass's equiva-lent frequency, f source , is equal to the full speed of light, c, the most that it is possible to be. In other words, at that [quite close] distance from the source mass the maximum possible gravitational acceleration occurs. That is the significance, the physical meaning, of l P or, rather, of 2π P l ⋅ . The physical significance of 2π P l ⋅ is that it sets a limit on the minimum separation distance in gravitational interactions and it implies that a "core" of that radius is at the center of fundamental particles having rest mass. That is, Equation (9) clearly implies that it is not possible for a particle having rest mass to be approached closer than that distance.
Having noted at the beginning of this section 2a: "Each of the myriad original matter particle's spherical oscillations had to be of some determined size, some volume" it has now been derived that that volume is a sphere of radius 2π P l ⋅ .

The Outward Flow from Each Matter Particle's Core
But, the particles' [1 − cos(2πft)] spherical oscillation in its core volume of radius 2π P l ⋅ is not in a container. There is nothing there except the oscillating substance of the oscillation.
Therefore, what "contains" that core's supply of oscillating substance or why doesn't it all just quickly "slosh" out and be gone? The answer is that it is trying to do just that, to "slosh" out, as hard as it can. It cannot help propagating out-

The Reservoir Supply for the Substance of the Outward Flow
For such a flow to persist and to have persisted the billions of years since the "Big Bang" there must be a supply of that outward flowing substance in every matter particle. And, that "supply" must be an extremely concentrated reservoir of that which flows outward [concentrated relative to the outward flow]. The radius 2π P l ⋅ spherical core of each matter particle is the reservoir supplying the billions of years of outward flow propagation from each particle That the core is impenetrable per Equation (9)

The Speed of the Outward Flow
The outward flow has to be of the same form as the spherical oscillation that generated it, [1 − cos(2πft)]. It travels outward under the same influence or control as does light: that which we call the permeability and dielectric of free space, μ 0 and ε 0 and, consequently, the speed of light. The μ 0 and ε 0 , like electric inductance and capacitance, support the two aspects of the oscillation between which the energy exchanges back and forth.
But, when the original oscillation came into existence it did so in absolute nothing. There was no "free space" with μ 0 and ε 0 . There was nothing but the original oscillation. And, after the immediate explosion into all of the particles of the universe, each of those particles was propagating its outward flow into nothing, emptiness. where did the μ 0 and ε 0 come from? The only thing they could have come from was the original oscillation. There is no other possible source because everything else was absolute nothing, "the zero of existence". The μ 0 and ε 0 are inherent in the substance of the oscillation, which means, μ 0 and ε 0 are also inherent in the outward propagation. Each particle's outward flow contains its μ 0 and ε 0 .

A Particle's Flow Encountering another Particle Slows Its Outward Flow
In a universe of the myriad particles resulting from the Big Bang, each of those particles propagating its own outward flow radially in all directions, there are many instances of the flow from one particle [the "source" particle] encountering, running into, the outward-flow-propagating-center of another particle [the "encountered" particle]. Such "source" particle flows are inverse square reduced in magnitude the farther that their wave front has traveled from its "source". wise both in exactly the same proportion as its μ 0 and ε 0 . The ratio of the flow amount to its μ 0 and of its flow potential to its ε 0 remains constant, and so likewise the speed, radially outward, of its propagation, c.
Upon encountering another particle that arriving flow's (scalar not vector) (much inverse square reduced) μ 0 and ε 0 combine with the (full magnitude) μ 0 and ε 0 in the new outgoing propagation of the encountered center, the μ 0 sum and the ε 0 sum each being larger values. The result is that that "encountered" particle's new outward flow is slowed relative to its natural otherwise speed. That

The Outward Flow Has Momentum
The oscillating substance of each of the myriad particles has, is, causes its mass.
There is no other place or thing to be the mass of those particles. Therefore the propagating outward flow has momentum, the inherent effect of the product of mass, inherent in the substance of the flow, and the flow's velocity.
In the absence of other effects the outward flow is naturally radially outward. While the outward flow effectively transmits pulses of momentum outward in its [1 − cos(2πft)] oscillation, the core source of that flow is experiencing radially inward equal but opposite pulses of momentum in accordance with Newton's third law of motion. In effect the core source is under reaction compression. Because that effect is radially uniform it produces no net affect on the particle.

Gravitation Is the Momentum Reaction to Outward Flow Slowing
The incoming flow from a distant "source" particle having the effect of slowing the speed of the "encountered" particle's outward propagated flow causes that "encountered" particle's outward flow to have less momentum than if it were not slowed, again momentum being the product of mass and velocity. Therefore the Newton's Third Law reaction to that reduced outward flow momentum, reaction back on the "encountered" particle, is smaller than otherwise. That effect takes place on the side of the "encountered particle" facing toward the "source" particle from which the slowing-causing flow came.
But, on the opposite side of the "encountered" particle no such slowing of its outward propagated flow is present so that the outward flow has the full natural momentum and the Newton's Third Law reaction on the particle on that side is the full natural amount. Consequently, the "encountered" particle experiencing its usual full momentum reaction back on itself on its side opposite that facing the incoming flow from the "source" but experiencing reduced reaction back on itself on its side facing the incoming flow from the "source", experiences a net momentum reaction toward the "source" particle from which the slowingcausing flow came.
Thus the particle experiences [1 − cos(2πft)] pulses of momentum increase toward the "source" gravitationally attracting particle which constitute the gravitational acceleration.

Summary and Conclusion
The Universe's matter came into existence in the only possible form that avoids an impossible infinite rate of change and satisfies the requirement of conserva-tion: a pair of oscillations of the form ±[1 − cos(2πft)]. Witnessed by we here addressing the issue, those did not mutually annihilate so, being unstable, they exploded into the myriad particles of the universe.
Those myriad particles must, inevitably, propagate similar oscillatory outward flow and have been doing so for billions of years.
Their outward flow is at 0 0 1 Speed µ ε = ⋅ because the μ 0 and ε 0 are inherent in its flow.
That particle's outward flow encountering another particle slows the encountered's outward flow on the side encountered because the μ 0 and ε 0 of the incoming flow add to the μ 0 and ε 0 of the encountered particle's outward flow so that the encountered's speed of outward flow there is slowed.
That reduces the encountered particle's outward flow momentum there and its reaction back on that side of the encountered particle while on the encountered particle's opposite side the flow and reaction momentum remain the same.
The result is momentum increments accelerating the encountered particle toward the source of the slowing-causing flow, which is gravitational acceleration.

Other
The foregoing effects are all due to the oscillatory frequency of the momentum-carrying flow and to its being the only source of μ 0 and ε 0 , those all together producing the gravitational effects. But, what about the amplitude of the particles' oscillations and their propagated flows? The details of that are beyond the scope of this paper which is about gravitation.
However, the role of amplitude can be summarized as follows.
1) The ± polarities of the ±[1 − cos(2πft)] oscillations are the ± charges of the various particles of the universe.
2) The [1 − cos(2πft)]oscillation propagated wave amplitude delivers pulses of momentum onto any other particles' cores that it encounters.
3) If the source's wave polarity is the same as the encountered wave polarity then the increments of momentum delivered to the encountered particle result in increments of acceleration of it away from, the source of the waves, which is Coulomb repulsion between like charges. 4) If the two particles involved are of opposite polarity then the increments of momentum delivered by the source wave act to cancel or nullify corresponding amounts of increments of momentum in the outgoing pulses of momentum in the propagated flow of the encountered particle. That correspondingly reduces the encountered particle's experienced reaction back onto itself. The encountered particle experiencing reduced reaction on its side facing the source particle and full reaction on the opposite side experiences net increments of acceleration toward the source particle, which is Coulomb opposite charge repulsion.
That constitutes a simple summary of the behavior of Coulomb's Law. For a full development see the paper Inertial Mass, Its Mechanics-What It Is; How It