_{1}

^{*}

Because gravitation operates by a flow from the attracting object acting on the attracted object as shown in the prior papers
*Connecting Newton’s G With the Rest of Physics-Modern Newtonian Gravitation Resolving the Problem of “Big G’s” Value* and
*The Mechanics of Gravitation-What It Is; How It Operates*, it is now possible to partially deflect gravitation away from an object so that the gravitational attraction on the object is reduced. That effect makes it possible to extract energy from the gravitational field, which makes the generation of
*gravito-electric* power technologically feasible. Such plants would be similar to hydro-electric plants and would have their advantages of not needing fuel and not polluting the environment. Physically, the action of deflecting away gravitational attraction, which of course is directed toward the gravitation source, produces an equal but opposite reaction on the mechanism that produces the deflection of the gravitational action [the deflector], a reaction directed away from the gravitation source. The result is the combination of reducing the gravitational attractive acceleration of the object toward the gravitation source plus the introducing of a reactive acceleration on the object in the direction away from the gravitation source. Such a deflector, engineered to enable controlled adjustment of the amount and the direction of its action, could provide for a spacecraft both launch levitation and deep space travel acceleration. It could provide both levitation and horizontal motion for a flying vehicle over a planet surface. This technology, which uses readily abundantly available materials and techniques, is ready now for research and engineering refinement.

Because gravitation operates by a flow from the attracting object acting on the attracted object as shown in the prior papers Connecting Newton’s G With the Rest of Physics-Modern Newtonian Gravitation Resolving the Problem of “Big G’s” Value and The Mechanics of Gravitation-What It Is; How It Operates, it is now possible to partially deflect gravitation away from an object so that the gravitational attraction on the object is reduced. That effect makes it possible to extract energy from the gravitational field, which makes the generation of gravito-electric power technologically feasible. Such plants would be similar to hydro-electric plants and would have their advantages of not needing fuel and not polluting the environment.

Physically, the action of deflecting away gravitational attraction, which of course is directed toward the gravitation source, produces an equal but opposite reaction on the deflecting mechanism directed away from the gravitation source. The result is the combination of reducing the gravitational attractive acceleration of the object toward the gravitation source plus the introducing of a reactive acceleration on the object away from the gravitation source.

For example, an object experiencing a natural gravitational acceleration, A, reduced 80% by gravitation deflection to 0.2∙A, plus simultaneously experiencing the reaction to the 80% deflection in the amount 0.8∙A, experiences a net acceleration acting in the direction away from the gravitation source of 0.8∙A − 0.2∙A = 0.6∙A. Of course, the A is the Newtonian gravitational acceleration G∙M/d^{2} where M and d are the mass of and distance to the gravitating source, for example the Sun, the Earth, or Mars.

Such a deflector, engineered with controlled adjustment of the amount and the direction of its action, could provide for a spacecraft launch levitation and deep space travel acceleration. It could provide both levitation and horizontal motion for a flying vehicle over a planet surface.

Just as the sail-driven ships of past centuries experienced fuel-free travel by means of controlling the energy of the wind, this technology enables fuel-free travel through space by controlled manipulation of the energy of the gravitational field that permeates all of space. This technology, which uses readily abundantly available materials and techniques, is ready now for research and engineering refinement.

Light normally travels in a straight direction. But, when some effect slows a portion of the light wave front the direction of the light is deflected. In

A slowing of part of its wave front is the mechanism of all bending or deflecting of light. In an optical lens, as in

near the edges. The result is the curving of the light wave front.

“Gravitational lensing”, below

The same effect occurs on a much smaller scale in the diffraction of light at the two edges of a slit cut in a flat thin piece of opaque material as shown in

In both of these cases, gravitational lensing and slit diffraction, the direction of the wave front is changed because part of the wave front is slowed relative to the rest of it. In the case of gravitational lensing the part of the wave front nearer to the “massive lensing cosmic object” is slowed more. In the case of diffraction at a slit the part of the wave front nearer to the solid, opaque material in which the slit is cut is slowed more.

But, neither of the cases, gravitational lensing and slit diffraction, involves the wave front passing from traveling through one substance to another as in the first illustration, above. The wave front in the gravitational lensing case is traveling

only through cosmic space. The wave front in the slit diffraction case is traveling only through air. There is no substance change to produce the slowing. What is it that slows part of their wave fronts thus producing the deflection?

In the case of gravitational lensing the answer is that the effect is caused by gravitation. There is no other physical effect available. But how does gravitation produce slowing of part of the incoming wave front so as to deflect it? Gravitation, at least as it is generally known and experienced, causes acceleration, not slowing.

Given two particles [e.g. electrons or protons] that have electric charges, the particles being separated and with the usual electric [Coulomb] force between them, if one of the charged particles is moved the change can produce no effect on the other charge until a time equal to the distance between them divided by the speed of light, c, has elapsed.

For that time delay to happen there must be something flowing from one charge to the other at speed c [a fundamental constant of the universe] and each charge must be the source of such a flow.

That electric effect is radially outward from each charge, therefore every charge must be propagating such a flow radially outward in all directions from itself, which flow must be the “electric field”.

When such a charge moves with varying velocity it propagates a pattern called electromagnetic field outward into space. Light is that pattern, that field traveling in space. Since light’s source is a charged particle that, whether the particle is moving or not, is continuously emitting its radially outward flow that carries the affect of its charge, then light’s electromagnetic field is a pattern of variations in that flow due to the charge’s varying velocity.

Given two masses, i.e. particles that have mass [e.g. electrons or protons], being separated and with the usual gravitational force [attraction] between them, if one of the masses is moved the change can produce no effect on the other mass until a time equal to the distance between them divided by the speed of light, c, has elapsed.

For that time delay to happen there must be something flowing from one mass to the other at speed c and each particle, each mass must be the source of such a flow.

That gravitational effect is radially outward from each mass, therefore every mass must be propagating such a flow radially outward in all directions from itself, which flow must be the “gravitational field”.

We therefore find that the fundamental particles of atoms, of matter, which have both electric charge and gravitational mass, must have something flowing outward continuously from them and:

・ Either the particles have two simultaneous, separate outward flows, one for the effects of electric charge and another for gravitation, or

・ They have one common universal outward flow that acts to produce all of the effects: electric and electromagnetic field [light] and gravitational field [gravity].

There is clearly no contest between the alternatives. It would be absurd for there to be two separate, but simultaneous, independent outward flows, for the two different purposes. And, the single outward Flow from particles, carrying both the electric and electromagnetic field and the gravitational field, means that gravitational field can have an affect on light, on electro-magnetic field because they both are the same medium-the universal outward Flow.

The “gravitational lensing” presented earlier above is experimentally observed gravitational field affecting light. [The outward flow from particles is fully developed in the section The Particle “Flow” of the earlier paper Connecting Newton’s G With the Rest of Physics-Modern Newtonian Gravitation Resolving the Problem of “Big G’s” Value of this collection “Comprehensive Gravitation”].

Because that universal outward Flow originates at each particle and flows radially outward in all directions its density or concentration decreases inversely as the square of distance from the source of the Flow. At a large distance from the source the wave front of a very small portion of the total spherical outward Flow is essentially flat-a “plane Flow”.

Two such universal Flows directly encountering each other “head on” [flowing exactly toward each other] interfere with each other, that is each slows the Flow of the other. The effect is proportional to the density or concentration of each Flow.

When two such Flows encounter each other but not directly “head on” then each Flow can be analyzed into two components: one directly opposed to the other’s Flow and one at right angles to that direction.

In “gravitational lensing” gravitational Flow produces deflection of the Flow that carries light. That deflected Flow is the same Flow that also simultaneously carries gravitation. Thus the gravitational Flow from one mass can also produce deflection of the gravitational Flow from another mass.

Therefore, a properly configured material structure can deflect gravitation away from its natural action, reducing the natural gravitation effect on objects that the gravitation would otherwise encounter and attract.

That same effect, on a vastly reduced scale, produces the deflection, the bending of the light direction that is seen in slit diffraction. In the diffraction effect the role of the “massive lensing cosmic object” is performed by the individual atoms making up the opaque thin material in which the slit is cut. That effect shows that the gravitational lensing process, involving immense cosmic masses, can be implemented on Earth on a much smaller scale practical for human use.

The speed of the flow and the slowing effect of interacting flows is fully developed in Section 5. The Speed of the Outward Flow of the paper The Mechanics of Gravitation―What It Is; How It Operates [

But, changing the “natural gravitation effect” means changing the gravitational potential energy of objects in the changed gravitational field. If the energy is changed where does the difference come from or go to?

The potential energy for an object of mass, m, at a height, h, in a gravitational field is truly potential. It is the kinetic energy that the mass would acquire from being accelerated in the gravitational field if it were to fall. The greater the mass, m, the greater is the kinetic energy, 1/2∙m∙v^{2}. The greater the distance, h, through which the mass would fall the greater the time of the acceleration, the greater the velocity, v, achieved, the greater the kinetic energy, 1/2∙m∙v^{2}.

While at rest at height h [as on a shelf] the total mass of the object is the same as its rest mass. The object has no actual “potential energy”. It is merely in a situation where it could acquire energy, acquire it by falling in the gravitational field. Falling, the mass of the object increases as its velocity increases, reflecting its gradually acquired kinetic energy.

Since, until it falls, the object does not have the energy that it will acquire when it falls in the gravitational field the energy that it acquires must come from the gravitational field.

The energy of gravitational field is in its Flow radially outward from all gravitational masses. The Flow is a flow of the potential for energy, realized at any encounter with another gravitational mass.

- That Flow creates potential energy, creates the situation where kinetic energy could be acquired, at any gravitational mass that it encounters.

- It does so continuously, replenished and replenishing by the on going continuous outward Flow.

- It does so continuously, regardless of the number or amount of masses encountered and regardless of their distance from the source of the Flow.

- At each encountered mass the amount of the Flow varies with the magnitude of its source mass and varies inversely as the square of the distance from it.

But, for there to be a continuous Flow outward from each mass particle, each must be a supply, a reservoir, of that medium which is flowing. The original supply of the Flow medium, of gravitational potential energy, came into existence at the beginning of the universe.

If that immense reservoir of energy could be tapped by tapping some of its appearance in its outward Flow, which is the gravitational field, it could be a vast supply of energy cheaply, cleanly, and permanently without [for practical human/Earth purposes] being used up.

Since the “Big Bang” the outward Flow has been gradually depleting the original supply. That process, an original quantity gradually depleted by flow away of some of the original quantity is an exponential decay and the rate of the decay is its time constant. For the decay of the universal Flow, appearing among other places in the outward Flow from every gravitating mass, the time constant is about τ = 3.57532・1017 sec (≈11.3373・109 years).

The reservoir supply for the flow is fully developed in the section The Particle “Flow” of the earlier paper Connecting Newton’s G With the Rest of Physics ? Modern Newtonian Gravitation Resolving the Problem of “Big G’s” Value of this collection “Comprehensive Gravitation”.

The general vertically upward outward Flow of gravitational energy can be tapped by deflecting part of a local region’s gravitational Flow away from its normal vertical direction.

Multiple such slits parallel to each other would spread the deflection left and right in the figure. Additional multiple such slits at right angles to the first ones would spread the deflection over a significant area.

The edges of the slit in the above

The Flow from each of the cubic crystal’s atoms is radially outward. Therefore its concentration falls off as the square of distance from the atom. The amount of slowing of an incoming gravitational Flow, and therefore the amount of its resulting deflection, depends on the relative concentrations of the atoms’ Flow and the overall gravitational Flow.

In the case of diffraction of the Flow of light at a slit the concentration of the Flow from the atoms of the slit material is comparable to the concentration in the horizontal Flow of the light, because it originates from a local source, not from the Earth’s immense gravitation.

But for the Flow from the atoms of the slit to deflect the much more concentrated vertically upward Flow of Earth’s gravitation the Flow from the atoms of the slit must also be much more concentrated. The only way to achieve that more concentrated Flow is a configuration in which the Flow of Earth’s gravitation is forced to pass much closer to the atoms of the slit so that, per the inverse square variation in the atoms’ Flow, it will pass through a concentration of the slit atom’s Flow comparable to the concentration in the Earth’s gravitational Flow.

The spacing between the edges of the diffracting slit is about 5 × 10^{−6} meters. The spacing of the atoms at the corners of the “cubes” in a Silicon cubic crystal is 5.4 × 10^{−10} meters. An inter-atomic spacing of less than 3 × 10^{−19} meters, much closer than the natural spacing in the Silicon cubic crystal, is required to obtain deflection of a major portion of the incoming Earth’s gravitational Flow. [

Such a close atomic spacing cannot be obtained by directly arranging for, or finding a material that has, such a close atomic spacing. However, that close an atomic spacing can be effectively produced relative to just the vertical Flow of gravitation by slightly tilting the Silicon cubic crystal’s cubic structure relative to the vertical.

The following

By appropriate tilting of the cubic structure each of its 5.4 × 10^{−10} meters inter-atomic spaces is effectively sub-divided into 1010 “sub-spaces” each of them 5.4 × 10^{−20} meters long and with an atom in each. A 4.5 mm shim on a 30 cm diameter Silicon cubic crystal ingot produces such an effect, producing a tilt tangent = 0.015 for a tilt angle = 0.86˚ that produces the objective effective sub-division of the crystals’ natural inter-atomic spacing, a sub-division that acts only on vertical Flow, as of gravitation.

Pure, monolithic, Silicon cubic crystals up to 30 cm in diameter are grown for making the “chips” used in many electronic devices. The gravitation deflector requires a large, thick piece of Silicon cubic crystal rather than the thin wafers sawed from the “mother” crystal for “chip” making.

Per the detailed analysis in the references, The Silicon cubic crystal ingot for the deflector is to be as follows:

・ 30 cm in diameter,

・ 50 cm or more thick,

・ with the orientation of the cubic structure marked for proper placement of tilt-generating shims, and

・ with the bottom face of the cylinder sawed and polished flat at a single cubic structure plane of atoms.

Mean free path [MFP] is the average straight line distance a moving particle travels between encounters with another particle. For atoms in solid matter the mean free path is

For the Earth the atoms per unit volume is on the order of 5 × 1028 per cubic meter. In the cubic crystal deflector the atomic spacing produced by the tilt is about 10 - 20 meters. Each therefore has cross sectional space available to it of that of a circle of that diameter so that for this purpose the atom’s cross section area is

For targets as fine as those in the cubic crystal deflector, the mean free path in the Earth’s outer layers is, therefore

The mean free path in the 50 cm thick minutely tilted Silicon cubic crystal ingot for intercepting Earth’s natural vertically outward gravitation is 1/2 the 50 cm thickness of the ingot. Thus the gravitation deflector is about 1010 times more effective than the natural Earth at intercepting Earth’s natural gravitation. However, that effectiveness is only for vertical rays of Flow. The Silicon crystal’s mean free path for non-vertical Flow-Flow already once deflected within the crystal―is that of Earth, 2.5 × 109 meters, which takes the once-deflected Flow out of the crystal.

The overall deflector consists of:

- A support having a verified perfectly horizontal upper surface for the cubic crystal deflector bottom face to rest upon;

- The Silicon cubic crystal ingot specified above; and

- Precision shims 4.5 mm thick for producing the tilt of the cubic crystal ingot, the shims located at the mid-point of two adjacent sides of the horizontal plane of the cubic structure as in

For an array of ingots for a larger area than a single ingot can provide, the individual ingots can be machined to fit snugly together. That could be done by machining them to a square cross section or, better, to a hexagonal one.

While the net gravitational field is vertically upward, i.e. radially outward from the Earth’s surface, local gravitation is radially outward from each particle of matter. As in

- The net effect of all of the rays’ horizontal components is their cancellation to zero.

- The net effect of all of the rays’ vertical components is Earth-radially-out- ward gravitation.

One can consider all of the net gravitational effect on objects as being due to the vertical component of all of the myriad rays of gravitational field Flow at a wide variety of angles to the horizontal. This “components aspect” is valid because of the “components aspect” appearance in the “Gravitational Lensing” effect on cosmic light.

The various rays of the Flow propagation from the individual particles of the gravitating body [for example the Earth] are from each individual particle of it to the selected point [above the gravitating body] on which their action is being evaluated. That is the point P in the above

The Earth’s gravitational action along a ray of Flow takes place from the Earth’s surface to deep within the Earth. The inverse square effect, that the strength of a Flow source is reduced as the square of the increase in the radial distance of it from the object acted upon, is exactly offset by that the number of such sources acting [per “ray” so to speak] increases as the square [non-inverse] of that same radial distance. That is, the volume, hence the number, of Flow sources for a ray of propagation at the object is contained in a conical volume, symmetrically around the ray with its apex at the object acted upon.

However, because the net gravitational effect is produced only by the vertical component of each ray of Flow propagation, the effectiveness of each ray is proportional to the Cosine of the angle between that ray and the perfectly vertical as the angle θ in

The actual total gravitational action includes all rays from θ = 0 through to θ = 90˚. That range would require an infinitely large deflector to act on all such rays, that is the deflector would have to be a disk of infinite radius. For lesser values of the maximum θ addressed, the portion of the total gravitation sources included is the integral of Cosθ∙dθ from θ = 0 to θ = Chosen Lesser Value. The integral of the cosine is the sine. Example lesser portions of the total gravitational action addressed as θ varies are presented in the

The gravitational deflector as a disk beneath the Object to be levitated must extend horizontally far enough to intercept and deflect the Chosen Lesser Value of angle θ rays of gravitational wave Flow that are able to act on the Object of the deflection as depicted in

For the perfectly vertically traveling rays of gravitation waves the required vertical distance that must be traveled within the cubic crystal is the previously presented 50 cm and 0 horizontal distance is traversed in so doing. But a ray at angle θ, in order to traverse the required 50 cm vertically, must traverse horizontally 50∙Tan[θ] cm, at the same time. For θ more than 45˚ that can become quite large and the deflector likewise.

Because the deflector disk must extend over a large area to deflect most of the

θ | Sinθ = Fraction of Total Maximum Gravitational Action |
---|---|

0˚ | 0.000 |

30˚ | 0.500 |

45˚ | 0.707 |

60˚ | 0.866 |

gravitation, an alternative, and better, solution to the problem of rays of gravitation arriving over the range from θ = 0 to θ = 90˚ is to wrap the deflector up the sides of the Object to be levitated

In this configuration the deflector takes up little more space than the Object levitated. However, the non-perfectly vertical traveling rays must still travel within the cubic crystal the horizontal distance 50∙Tan[θ] cm. That requires that the horizontal thickness of the vertical sides of the cup-shaped deflector must be of that 50∙Tan[θ] cm thickness.

Because the value of Sin θ and, therefore, the fraction of the total gravitational action, increases relatively little above θ = 60˚ whereas the value of Tan[θ] increases quite rapidly, from 1.7 to ∞ above θ = 60˚ that θ = 60˚ is the appropriate value to which to design. The thickness of the “walls” of the “cup” would then be 50∙Tan[60˚] = 85 cm. The deflector would be only slightly larger than the Object levitated.

The Deflector consists of an array of Silicon cubic crystals. The crystals forming the disk-shaped “base” of the “cup” need to be about 0.5 m in height to achieve their maximum deflection effectiveness. Those forming the “sides” of the cup can be the same kind of 0.5 m crystals stacked and aligned vertically.

The crystals can effectively be grown in diameters up to about 30 cm, however those cylindrical pieces must then be machined down to of hexagonal cross section so that a number of them can fit together with negligible open space between. The hexagonal cross section area would be about A = 0.06 m^{2}.

For an Object to be acted upon by the deflector, the object of height, h, and diameter, d, meters the deflector would have the following parameters for θ = 60˚. [The number of crystals must be the integer next higher than the exact calculated number.]

Some examples of these data are presented in the

d | h | Cup Disk Base | Cup Sides | Total Crystals | |||
---|---|---|---|---|---|---|---|

Area | Crystals | Nr of Layers | Area | Crystals | |||

1 | 1 | 0.785 | 14 | 2 | 4.94 | 99 | 212 |

10 | 10 | 78.5 | 1310 | 20 | 28.97 | 580 | 12910 |

Note: “d” and “h” are defined just above Equation (4).

The individual crystals making up the deflector cannot be grown exactly identical to each other. In each of them the orientation of the long axis of the cubic crystal structure may vary minutely from each of the others. That is, it is not certain that each crystal’s base is purely a single plane of atoms of the cubic structure and thus is exactly perpendicular to the long axis of the crystal.

To find the optimum tilt and orientation for a single crystal the tilt must be varied over the range of possibilities while the effect of gravitation from exactly below it is observed on a balance scale. But most of the effect of gravitation on a single crystal is not from exactly below it.

The solution to that problem is to conduct the optimization atop a structure, that relying on the inverse square effect, effectively isolates the crystal from most of the gravitation from surrounding sources except that exactly below it-a high pedestal having a cross section comparable to that of the crystal, as in

To conduct that calibration on thousands of crystals should not be necessary if a method can be developed to exactly measure the long axis orientation in any given crystal. The process can then determine the optimum orientation of the crystal tilt relative to the actual long axis of a few cubic crystals being calibrated. That same crystal tilt relative to the actual long axis can then be applied to each of the other crystals.

The long axis orientation problem could also be solved by insuring that the base of each crystal is a single plane of atoms of the cubic structure.

The manner of the deflection is curving of the path of rays of gravitational Flow as they pass close to atoms of the deflector with the direction to which curved

depending on the relative positions of the ray and an atom and the amount of the curving depending on how close the ray passes to the atom. Because of the range of those variables and their various combinations the “deflection” is essentially a “scattering” in various amounts in various directions, all scattering being away from the perfectly vertical upward which the deflector is designed to solely deflect.

The “scattering” is illustrated two-dimensionally in

The physical example of the “scattering” is the diffraction pattern of light diffracted by a slit. ^{−6} meter wide with incoming light of wavelength 4.13 × 10^{−7} meter. The peaks and valleys of the pattern, the interference pattern, are a phenomenon of the light imprint on the Flow that carries it. The envelope of the pattern is the relative amounts of the underlying Flow carrying the light.

For that reason, while the interference pattern varies according to the wavelength of the light involved, the form of the envelope of that pattern is always the same.

The Flow concentration produced by the two slit edges falls off with distance from the edge inversely as the square of distance from its atoms. The Cauchy- Lorentz Distribution is an inverse square function of its variable. Its Density Function can represent the relative Flow intensity pattern produced by the diffraction process by representing the envelope of the diffraction pattern. In

The deflection angle, Φ, [

Minimum # | Φ˚ | Minimum # | Φ˚ |
---|---|---|---|

1 | 4.39 | 8 | 37.72 |

2 | 8.80 | 9 | 43.50 |

3 | 13.26 | 10 | 49.89 |

4 | 17.81 | 11 | 57.28 |

5 | 22.48 | 12 | 66.60 |

6 | 27.36 | 13 | 83.86 |

7 | 32.37 | 14 | Sin(Φ) > 1.0 |

particular point on the diffraction pattern. That is Φ is the angle of deflection of the rays directed to that particular point and of intensity per the Cauchy-Lorentz Distribution at that point.

The interest here is not in the location of the light interference maxima and minima, but rather in the deflection angles the diffraction imposes on the Flow. However, calculation of the deflection angles to the minima provides a good indication of the amount of Flow deflection over the overall diffraction pattern.

^{−6} meter wide slit with incoming light of wavelength 4.13 × 10^{−7} meter. [The minimums are counted outward from the center peak of the diffraction interference pattern].

The table demonstrates that the deflection of the Flow is at least in amounts up to 90˚. That deflection may well extend to angles beyond 90˚, but there is no way of determining that from the diffraction pattern. However, while the light of the diffraction pattern cannot be deflected beyond 90˚ in any case because the light cannot penetrate the material containing the slit, the Flow readily penetrates and permeates all of material reality.

The tilt of the cubic crystal structure divides the slit into 1010 sub regions the first and last of which are at the slit’s edge and produce the maximum deflection. The tilt so arranges that ultimately all of the vertical components of the incoming vertical Flow must pass through one of those “at the edge of the slit” regions and must experience maximum deflection.

The overall average effect is equivalent to every ray’s vertical component curving at least 90˚ because the crystal tilt causes every ray to pass extremely close to an atom at some point in the crystal, as the extreme rays in the

There does not appear to be any way to analyze, calculate, or evaluate in advance the overall deflection that is achieved other than by actual experiment. With the overall average effect equivalent to every ray’s vertical component curving 90˚, i.e. to the horizontal, the overall total net effect of the vertical components after deflection is zero. Then the overall amount of deflection is 100% of the natural un-deflected gravitation reducing the gravitation to essentially zero.

Gravito-electric power generation is similar to hydro-electric power generation in which the energy of water falling in Earth’s gravitational field powers water-

turbines that drive electric generators.

In gravito-electric power, depicted schematically in the

Water turbines like those used in hydro-electric plants can be placed in the gravito-electric continuous water flow to drive electric generators as in hydro- electric plants.

Everything in nature is balanced. Nature exhibits a general law of conservation that goes far beyond conservation of energy. For example:

- All positive charge is ultimately, somewhere, balanced by an equal amount of negative charge.

- Gravitational attraction takes place by a mass acting on another mass. The attractive force acting on each is the same in magnitude and opposite in direction; the forces balance.

- The “Big Bang” produced equal amounts of matter and anti-matter.

- For every force there is an equal-but-opposite reaction force;

- Every North magnetic pole is matched by an equal strength South magnetic pole.

As with that balance, there is a reaction on the deflection-causing gravitation deflector, a reaction to its deflecting action, a balancing reaction.

The gravitational field Flow is an unlimited capacity to produce acceleration. That is what the outward propagating gravitational field Flow does; it accelerates any and every encountered particle of mass no matter how many and no matter where located. But, the amount of gravitational acceleration does not depend on the mass that is accelerated; rather, it is in an amount dependent only on the mass, M, of the gravitational Flow source and the distance, d, from that source to the accelerated mass, which two parameters determine the gravitational field strength at the accelerated mass.

That Flow is what the gravitational deflector deflects.

The associated “force” is that acceleration multiplied by the mass that is accelerated, which can be whatever mass it happens to be. Thus for gravitation the “force” is inconsequential. No “force” is actually there except in our mental concept of the action. It is the acceleration that is the action.

The reaction on the deflector is an “equal but opposite” acceleration of the deflector mechanism away from the source of the before deflection gravitational field Flow; that is, it acts in the opposite direction from the direction, toward the source, of the acceleration that undeflected gravitation produces. The deflector experiences that reaction acceleration regardless of the mass of the deflector and no matter what additional mass may be attached to it, which attached mass is accelerated with the deflector.

That is because, again, gravitational field Flow accelerates any and every encountered particle of mass no matter how many and no matter where located, in amount independent of the mass accelerated, the amount dependent only on the gravitational field strength at the encountered mass per Equation (5).

The direction of the reaction-produced acceleration [repulsion] is the opposite of the direction [attraction] of the before deflection Flow-produced acceleration. The magnitude of the reaction acceleration is the same as the magnitude of the deflection, for which see below.

The ultimate result of the deflection action is the combination of reducing the gravitational attractive acceleration of the deflector [and whatever is attached to it] toward the gravitation source plus the introducing of a reactive repulsive acceleration of the deflector [and whatever is attached to it] in the direction away from the gravitation source.

One cannot simply rely on that everything in nature is balanced to account for so dramatic an effect as the repulsive acceleration reaction to the deflection of gravitation-an actual anti-gravity. However, the mechanism producing the effect is simple and natural.

First, natural gravitational acceleration is caused by the Flow that encounters a particle flow source producing an increase in the ambient Flow concentration on the encountered side of the encountered particle. That has the effect of reducing the encountered particle’s Flow propagation in the direction of that increased Flow concentration.

As presented in The Origin and Its Meaning [

Second, in the case of the deflector, the components of the incoming vertical gravitational field Flow that are curved away from the vertical by the deflector’s atom’s own Flow are by virtue of that deflection directed over the side of the atom opposite that facing the source of the gravitation as depicted schematically in

That increases the Flow concentration on that side of the atom. Just as with natural gravitation, that has the effect of reducing the encountered particle’s propagation in the vertically upward direction that of the increased Flow concentration. That is, the presence on one side of a Flow source particle of ambient medium Flow, the Flow not departing, that is not directed outward away from the particle as is the case for particles’ natural propagation, produces the same effect as does natural gravitation, the effect being the same whether the non-de- parting Flow is incoming natural gravitation or deflected gravitational Flow passing over.

“Vertical” refers to the direction directly away from the gravitating source. The various individual scattered ray deflections all are a combination of a horizontal component and a vertical component, each in various amounts for various rays. The horizontal components cancel out to null. The vertical components total effect differs from the incoming pre-deflection rays total effect and that difference is the overall amount, or magnitude, of effective deflection.

If every ray’s vertical component were curved exactly 90˚, i.e. to the horizontal, the total effect of the vertical components after deflection would be zero. Then the overall amount of deflection would be 100% of the natural un-deflected gravitation and the reaction would be acceleration equal in magnitude to the natural un-deflected gravitation but directed away from the source.

The deflection process occurs throughout the length of each deflector crystal. Some rays of gravitational Flow are deflected by the first row of atoms of the deflector. Others are deflected by the second row, others the third, and so on. The total deflection is essentially spread linearly uniformly over all of the length of the deflecting crystal.

For the example of every ray’s vertical component curved exactly 90˚, i.e. to the horizontal, that would happen linearly uniformly along the crystal length. The result would be that the natural gravitational attraction on the deflector itself would be reduced to 50% of normal. At the same time the reaction repulsion magnitude would be 100% of the natural gravitational attraction because of the overall 100% deflection. The combined effect would be a net repulsive acceleration of magnitude 50% of the natural pre-deflection attraction.

A spacecraft gravitation deflector drive would be a deflector in cup form, mounted on the rear of the spacecraft and extending the spacecraft’s full length to the nose, as in

This configuration would satisfy a number of functions. The deflector would provide [all without use of fuel]:

- Launching of the spacecraft vertically upward at an upward acceleration of approximately one-half of local natural gravitation, for Earth an acceleration of about 16.1 ft/s^{2};

- Landing and re-launching of the spacecraft at any gravitating body such as the Moon or Mars;

- Deep space transit propulsion between gravitating bodies;

- Protection from deep space radiation and cosmic ray particles by virtue of the 1/2 to almost 1 meter thickness of the Silicon deflector;

- A gravity environment within the spacecraft of zero natural gravitation plus an artificial gravitation due to the acceleration of the ship in whatever amount that it is at any particular time [taking “down” as toward the deflector end of the ship].

The engineered arrangements for varying the amount of deflection so as to vary the acceleration would be means of controlled changing of the orientation of selected portions of the Silicon cubic crystals so that they fail to provide the comprehensive deflection of all incoming vertical rays of Flow. The engineered arrangements for varying the direction or orientation of the spacecraft would be a 3-axis system of angular momentum wheels

For a spaceship in free space the gravitational Flow environment is different from on Earth. In the case of only one gravitation source near enough to be of any important effect and that sole source at a considerable distance from the spaceship, the gravitational Flow from that source to the spaceship is essentially all parallel rays. Departing such a source after launch from it requires simply aiming the stern of the ship toward that source. Controlled landing on it requires simply aiming the stern of the ship toward that source and controlling the acceleration by varying the deflection.

In general, however, in deep inter-planetary space gravitation is present albeit fairly weekly because of inverse square reduction of intensity, and it is present in

various amounts with attraction toward various differently located sources. As with the sailing navigation using the wind as in earlier centuries, spaceship travel within the Solar System may require techniques analogous to: sail craft’s tacking on various headings, “crabbing” into partial “cross wind” as aircraft do, and in general going “where the winds permit”. In the spacecraft case the “winds” are the various direction gravitational Flows available from which to generate acceleration and to which the spacecraft is subject to attraction.

Solar System navigation is further complicated by the destination’s continuous motion. The navigation must be toward where the destination will be upon spacecraft arrival at it as compared to where the destination currently is.

For inter-stellar navigation there is the possibility of near light speed travel. The deflector could provide continuous, fuel-less acceleration to the spacecraft throughout its trip. The continuous acceleration would accelerate the craft during the first part and, with the craft re-oriented using the 3-axis system of angular momentum wheels, decelerate the craft for approach to the destination.

Because the acceleration is independent of the mass of the spacecraft it could be quite large and able to carry everything needed for an extended trip and for survival at the destination. The relatively narrow form of the spacecraft is chosen in

A gravitation deflector flying vehicle would be a deflector in cup form, underneath the payload compartment of the vehicle as in

The flying vehicle differs from the form for a spacecraft in:

- not needing to provide protection from dangerous radiation,

- needing only modest acceleration capability vertically upward beyond sufficient to maintain its constant altitude levitation,

- needing means to generate horizontal acceleration while maintaining vertical levitation.

This deflector configuration [all without use of fuel]:

- Provides controlled vehicle levitation for take-off, landing, and travel,

- Provides controlled horizontal propulsive acceleration and “braking”,

- But there is the problem of sufficient gravity for the passengers.

The vertical acting deflectors cannot provide artificial gravity by virtue of vertical acceleration because the vertical acceleration is controlled to only maintain levitation at a given altitude except for take-off and landing. However, maintaining levitation requires significantly less than 100% vertical deflection. If, for example, levitation required only 50% vertical deflection then the gravitation within the vehicle would be the remaining undeflected 50% of natural gravitation.

The present task, then, is research and development to better optimize the designs so that practical implementation can begin.

See the references, below, for the detailed development of mass, field, the Flow, gravitation, deflection, the exponential decay and the time constant.

This paper is an essential integral part of a set of papers treating Comprehensive Gravitation. The papers of the set are listed in references [

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