Chapter 7

Center of Transparency

There is another mysterious action superflux performs. How does it put the heaviest globs of matter down deep within an object and always at its center? The answer is that flux creates a funnel or pipe to insure the approaching objects follow a direct route to the center of the target. It will take a few images to show this process, the first of which is below.

CT 1 displays only the vectors that make it all the way through the earth. Inspecting the top and bottom of the image, we see the flux penetrating the crust. Notice how those flux lines are closer together than the ones at the center passing through the solid iron core and its molten outer layer. Two things affect the transparency. at the crust: the less density of the crust, and the distance the flux travels through it. The distance flux travels through a globe is determined by a cord cutting the sphere, or in this case, the disk. The cord’s length begins at zero, at 0°, and continues until it is equal to the diameter of the object.

An increase in the cord’s length means more material will block the flux by way of increasing chances for each vector to contact some atomic structure. Fewer vectors make it through the middle of the earth than those coming tangential to the crust. That is, those that are horizontal to the outer layers are more likely to make it through. Since flux is thicker on those edges opposing anything inbound, an object must veer off towards the less resisting center of the earth.

Replacing our flux goggles with proper filters, we have a profile view as a body approaches the earth. Lighter areas mean more resisting flux while darker areas at the center mean less. It’s like a funnel; an incoming object must follow the darker shadow.

Say the young earth is a half million years old. It is molten, thousands of degrees in temperature. Some estimate the early temperature between 6,000 and 8,000 degrees F. Anyway, it is liquid rock along with other ingredients. Then, here comes a megaton asteroid of iron. At position alfa, it meets a higher resistance that forces it to the dark side. It overshoots, and at position beta, the same resistance drives it back into the center of the channel. At gamma, it finally comes to rest in the young earth’s center of matter. At that location, all forces are coming at it equally, and it remains there through today along with thousands of other iron meteorites. Other vectors reinforce the tunnel effect which will become apparent when we discuss bending light rays.

Bending Light Rays

Traveling along a desert highway on a clear night is a terrific example of point source objects. The stars appear to travel along with you and the vehicle regardless of speed. Those same stars appear identical in a vehicle 100 miles up the road, ignoring Earth’s curvature and terrain of course. What is really happening is that your eye is detecting different beams as you move along the road. You are passing through its superforce vectors the same way the object in the image above is passing through the single star’s vectors.

The shadow is an absence of one or more vectors. Any time there is less of something, another thing takes its place. The density of perpendicular flux is greater than the density of the shadow allowing the greater force to rule. Only flux can affect flux, and the result is filling of the semi-void with redirection of vectors.

Of course, large objects such a galaxies are not single point sources. They are a group of point sources. Superforce vectors find their way through our Universe by the serpentine action brought on by transparency voids.

Since mass is an effect of transparency, one can see how easily it is to misunderstand that mass is the driving force behind this phenomenon. We need a correlation between transparency and mass.