Chapter 5

Superforce At Work

The superforce. gathers matter by way of transparency. There is a relationship between the number of flux. lines that exit a bundle of matter to the number of lines that enter that same bundle. The ratio of outgoing to incoming is the transparency index. It is the opposite of opacity. If something is 100.00% opaque, it is 0.0000% transparent and vis-a-versa. If a body of matter is 0.0000% opaque, its transparency index is 1.0000. Indices of objects built of matter range from a transparency index of 0.0000 to 0.9999 with nine’s going on forever. A filum is solid; therefore has an index of 0.0000. A black hole will probably have an index of 0.0000 or as close as it can come to it.

The superforce that did not convert to matter remained behind for a purpose. It held composite energy at bay such that space. could exist between matter and super energy. Without that pressure, super energy would have closed in on the newly formed matter. Therefore, we can declare that space is comprised of the remaining superforce. Our Universe is pressurized. Space itself is pressurized. It applies pressure to every piece of matter because that tiny piece displaces the superforce, AKA, space. Pressurization causes expansion, and when our Universe reaches its maximum size, pressure will no longer exist and neither will gravity in any form.

There is further bad news to some: there can be no grand unification of fields if the superforce, known to others as gravity, did not separate as the other fields did.

The atmosphere applies pressure to every particle of matter. The ocean applies pressure to every particle as well. Buoyancy comes about because of a pressure differential. It applies to the atmosphere as well as water. A ball will rise to the surface of a swimming pool because a difference in pressure against the bottom of the ball versus the top forces it to do so. A hot air balloon rises toward the top of the atmosphere because the bottom has more pressure acting against it than the top. The superforce pushes two objects together because of differential pressure against opposing sides; in other words, the facing sides have less pressure than the opposing sides. The body’s transparency index brings about this differential pressure.

The superforce consists of flux in the form of vectors. They come from one edge of the universe and continue across to the opposite edge. They come from so far away their source is almost flat. It is to a certain degree. Vectors are parallel within 2.6 * 10^-15 degrees for a portion one light year across and parallel for an object the size of Jupiter’s orbit. And for every incoming, there is an outgoing. Bi-directional, they are.

From the image below, we see that there is an equal pressure surrounding the orb, but the body is made up of smaller objects. Vectors are so small they go through an atom’s nucleus with no problem at all. They continue until some smaller body down deep inside the larger object stops them. Many more make it all the way through and come out the other side unphased.

The globe cannot go anywhere because an equal number of flux vectors apply pressure on every square millimeter of the object. For every force pushing left, there is one pushing right. For every force pushing on the top, there is one pushing from the bottom. But what happens when something blocks the incoming vectors on one side? It moves—moves toward that less resistance.

Let’s take a smaller globe and experiment with it.

Us­ing the ob­ject on the left above, we’ll place a ma­gic hand block­ing the in­com­ing flux from one side.

Be­low, the dash­ed ar­rows and curves in­di­cate the o­rig­i­nal po­si­tion. By block­ing some of the in­bound flux on the right side, the globe has no choice but to move in the hand’s di­rec­tion. Of course the hand has the same force push­ing it to­wards the glo­be, but since it’s ma­gic, it stays put. If one is not care­ful, a per­son may in­ter­pret that the hand at­tract­ed the ob­ject by way of an i­mag­ined po­wer.

We can see from the demon­stra­tion that any dif­fer­ence in pres­sure causes move­ment. This is where trans­paren­cy comes into play. A by­pro­duct of trans­paren­cy is a sha­dow.

The image on the left above re­pre­sents flux vec­tors leav­ing a sphere. Some a­tom­ic struc­tures mak­ing up the body have stop­ped those vec­tors that do not get all the way through.

How­ever, look­ing at the globe head-on and compar­ing it to the in­com­ing flux sur­round­ing it, it is darker. That is the sha­dow, the shade left by the back­ground flux.

The image be­low is a ren­di­tion of how sup­er­flux ap­pears using spe­cial gog­gles. This could be any hea­vy plan­et such as Jup­it­er or Sat­urn. The flux in­dex on this ob­ject is a­round 90%. That means that only 10% of the vec­tors are stop­ped by a­tom­ic lev­el par­ti­cles mak­ing up the plan­et.

When the sun shines on a tree, it produces a shadow. Some of us used to rely on that shade to shelter us from the blazing sun in a cotton field. However, the sun’s rays come from ole Sol himself while the shadow of an object, be it a planet or a sledge hammer, illuminated by the superforce comes from every place, from every angle. For that reason, the next example will have a single slice cut through space and the object itself. It is a plane slicing through the area.

How objects find each other

The ob­ject on the left above is a­lone and bil­lions of miles from its near­est neigh­bor. Once again, ob­serv­ing the im­age we see that the flux lines are paral­lel. And they come from eve­ry po­si­tion of our Un­i­verse’s out­er edge. In oth­er words, eve­ry square bit of sur­face mat­ter has the su­per­for­ce ap­plied to it at var­i­ous an­gles as well as ev­ery point in­side. Since eve­ry pro­ton, eve­ry neu­tron, and eve­ry elec­tron mak­ing up the ob­ject dis­pla­ces the sup­er­force, each re­ceives a vec­tored for­ce. For the mo­ment, we are in­te­rest­ed in on­ly one plane from one di­rec­tion. We are look­ing at a slice of that plane in­clud­ing the slice of mat­ter it dis­sects.

Again, we state all things are transparent to this flux. It can range from 00.0000% through 99.9999% transparent. Of course, 00.0000% transparency would be a black hole, and anything 100% would not be matter. It would be some form of energy. Atoms are 99.9 percent space so there is plenty of room for flux to get through without touching anything. If a neutrino can fly through the earth without touching anything, superflux has no problems sailing through as well. Even the earth is transparent to a very large degree.

Flux vectors are one step up from a line, and looking head-on, they are one step up from a point. If one zooms in on a flux vector., it will never become larger. A point has no diameter; a line has no thickness. A flux vector does have thickness that is just greater than a line.

This concept is important because it is what allows all objects to close in on one another. The flux transparency shadow between two objects produces less force leaving an unbalanced pressure tending toward the two. It is this unbalance that brings the objects together. In no way are they sucked or drawn together.

If another object wanders anywhere within this shadow, the vectors will be less dense; therefore, less pressure is applied to the visitor’s surface. And since less force is applied on that surface, the visitor will move toward the object. For this purpose, the object is a small planet. In addition to the planet’s shadow, the visitor will have one of its own. The two act in sync and move toward each other. If the planet’s body has more material per cubic meter, its shadow will be darker providing a lower resistance opposing the smaller object. By deduction, the visitor is lighter and the little asteroid will fly toward the planet. The image below shows two such objects of equal size.

Now, it doesn’t mat­ter whe­ther or not the ob­ject is a mol­e­cule of hy­dro­gen or a stone of gran­ite. The prin­ci­ple is the same. The su­per­force acts on an atom the same way it acts on a huge mol­e­cule. Build­ing small mol­e­cules into ever lar­ger ones is how the earth, sun, and moon were made. Not shown on the pre­vi­ous il­lus­tra­tion is the more comp­li­cat­ed in­ter­ac­tion of more than two ob­jects. They all com­bine to be­come a much lar­ger unit. Then that unit comb­ines with thou­sands of oth­ers and on and on ad in­fi­ni­tum.

As mentioned before, as long as an object is alone, billions of miles from its neighbors, all forces are equal which results in no movement without external influence. But when a small transparency shadow strikes another object, even as small as a pinpoint, there is always less force on the shadow’s hemisphere resulting in movement toward the smaller pressure.

Warning: Without context or known history of the objects, it is impossible to determine whether they are circling one another or on a collision course. A single snapshot of the previous illustration cannot determine that, the more snapshots, the more accurate the information. The purest of all is a moving picture. The single snapshot above could be of two large objects orbiting each other at a high rate of speed. It doesn’t matter how fast they are revolving, the shadow is always the same. The only difference is that when in orbit, a radical change in momentum is involved, but the differential forces are the same.

Understanding the flux shadow is of great importance; therefore, we are addressing it in several ways.

There’s an old saying, “When you’re a hammer, everything’s a nail.” Well the same goes for flux, “When you’re flux, everything’s a sieve.” Flux sees the earth’s crust as a sieve, the mantle as a sponge, and the core as super-hot steel wool. The superforce would probably describe the earth as a ball of steel wool wrapped in gauze wrapped in screen wire.

Vectors that exit the earth’s crust create a tidal effect when something comes between the earth and inbound flux from the distant edge of our Universe. Using a little imagination, one can see what happens to water molecules when a body blocks the vectors that are pushing them toward the center of the earth. Since there is less pressure driving the water towards the center, the outbound vectors have less force to overcome and lift that portion of water towards the blocking object, in this case, the moon.

The moon acts as the magic hand and causes all atomic structures to move in its direction. Rocks and other solid objects are subjected to the same forces but do not flow as easily as liquid, so off toward the moon H₂O goes. The solids move in that same direction, but that movement is only a few millimeters. The term solid refers to its everyday meaning because as far as flux goes, nothing is solid except filums and black holes.

Shadow Goes Global

The image above represents a sphere in outer space. Even at a great distance, it will influence other objects, smaller or larger. It could be so far away it’s only a dot in the sky, but that dot will affect other heavenly bodies.

Another picture of the global shadow and we’re off to another subject.

The lower image shows how each shadow has another just like it at its 6 o’clock. The image identifies only two pair of the large and unidentifiable number. We could probably apply the term googolplex here, or better yet, any of the invented numbers greater than that.