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How can you have a hole in nothing?
AETHER AND
BLACK HOLES The Twichell Theory of Gravitation states there are two types of black holes. There is the traditional type, and there is the new type that I just described that may exist inside planets and stars, and the centers of galaxies as well. The new type is on the “inside” of an astronomical object, where it is black simply because the aether cannot reach the core. And because the absorption of aether creates the mass phenomenon, these inner black holes are massless. There may even be a third type of black hole associated with the gravitational collapse that precedes the supernova. But here I discuss what I consider to be the traditional type of black hole, where it is black on the outside. Regarding the “traditional” black hole - academic scientists have been bending over backwards for years trying to understand them. These scientists struggle to understand black holes because they are using the empty space model. How can you have a hole in nothing? So the hypocrisy is laughable when academic scientists attempt to explain a hole in empty space. But with the aether gravity full space model the black hole is easy to explain. To begin, we first need a gravitational source with a very long lifetime - one that has grown so massive that it is able to create the black hole. Then applying our full space model we can know that the Schwarzchild radius is simply the point where the aether particles get stretched so far apart that they can no longer transmit their vibration unto the next
aether particle. And since space is stretched more along an equatorial plane we should expect the blackness to extend further along this plane as well. Now because that was so easy, I will go one step further and hypothesize about the physics of the vibration between aether particles, so that we can know more about what is going on at the Schwarzchild radius. For is it really as simple as the aether particles no longer touching? For what does touching mean if there is no friction to transfer spin? And how can there be friction if the aether particle is the smallest particle? There must be particles even smaller than aether particles. I call them sub-aether particles. I call them sub-aether particles. So in the upcoming volume of my manuscript tentatively entitled Sub-Aether Physics I plan to describe magnetic vortices in the sub-aether that interconnect the particles of aether. This is really just an extension of my current theory that proton aether vortices connect atoms. So at the Schwarzchild radius what I am hypothesizing is that the sub-aether vortices that connect the aether particles get stretched to the point where they break. This line of thinking leads me to predict additional nested Schwarzchild radii inside of the Schwarzchild radius - one for each sub-layer of space below the aether layer. So what I am stating is that black holes could be nested just like everything else. Black may be a relative term based upon one’s location and ability to detect vibrations in the controlling layer of space.