This is how the Universe can go together like Lego.
It's greatest advantage is the ability to correctly allow the positioning of the magnetic field lines.
The theory goes on to give explainations of such things as:
Gravity
Time Dilation Due to Veloc...
Gravitational waves, as ascertained from the recent observation of two neutron stars collapsing (due to radiation of gravitational waves requiring power; which, is removed from angular momentum resulting in orbital decay12,13), show to be in observance of the Shapiro effect as light was detected 10 seconds14 after the initial gravitational wave signal. Since there is a general permeation of gravity within the universe there is dilation; as, light arrived about the same time as gravitational waves the two would be found to both observe the Shapiro effect. The relevance is that, in the case of black holes, gravitational waves would have to originate outside of the event horizon.
So we have discussed how gravity dilatesspace. Now when a massive object is moved, there is a collapse of the dilationbehind it and an expansive dilation opening in front. When two massive objectsare in orbit, especially once their speed is close or larger than their absolutevelocity, the tail end of the dilation of space due to gravity's collapse isclose to the tail end in its relative orbit. This results in an increase incross sectional blue shifting of gravity out the tail end. Not to mention thatan accelerated massive object radiates gravitational waves, as an acceleratedcharge radiates electromagnetic radiation, to a degree15; hence, thegravitational wave power should be closely proportional to this amount. Theresult is a squishing of gravity in cross section that causes a polarization ofgravity as they 'bump' into each other – Figure 35. Thus, there is some gravityall oriented in the same direction along the plane of the two charge quanta(polarized). A spin of dilation collapse once per orbit allows for the orthagonallityof linear polarization observed receiving the gravitational waves (down z - twooscillations per orbit15) during each half orbit. The polarizedgravity causes normal local dilation of space, but in looking at the anatomy ofgravity there is a much larger magnetic interaction within the space fillingresultant. The polarized gravity then causes an expansion of the matter throughwhich it passes in the magnetic field lines. This expansion in one directiontakes with it the charge field strings, and there is compression in theorthogonal direction.
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Figure 35: Gravity interacting at an angle. In this instance gravity does not scatter, but polarizes. Note on the bottom it can be seen that if gravity lines up just right it can overlay upon itself without feeling the space filling effects.
If the gravitational waves were to have an internal oscillation as proposed: Two massive objects dropped toward one another from rest (no orbital velocity around the center of mass) would each have a circularly polarized gravitational wave coming out the opposite to the trajectory.
Though, it could be conceived that the nothingth dimension is elastic and the resulting perturbations in it travel act much as current theory would suggest in the gravitational medium15. Yet, it has been shown that a mechanical physical manifestation of charge field strings and magnetic field lines can explain photon creation (at least for a drop from a lower energy level to a higher energy level). This combined with the fact that if a charged particle radiates to a greater degree during acceleration15, there would have to be an electromagnetic radiation (photon) once the acceleration was complete to release the excess radiation. While, charge radiates (radial spacing) from a charged particle due to its magnetic interacting and causing repulsion. Gravity, On the other hand, radiates (radial release of gravity) at the speed of light solely due to angle of release and no longer can be influenced by the mass from which it came. Hence, although the correlation of gravity's excess radiation due to acceleration15 has been verified13, its mode of release is differing. This is due to the manipulation of the charge field under acceleration (i.e. it does not radiate (radial spacing) homogeneously spherically during acceleration); while, the gravitational field remains homogeneously spherical in its radiation (radial release of gravity).
