Quantum Gravity and String Theory

   

Mystery Particle Spotted at 28 Gev! Discovery Would Require Physics so Weird that Nobody Has Even Thought of It.

Authors: Michael John Sarnowski

In Sphere Theory, the universe is a sphere made of spheres. Most of these spheres are packed in a cuboctahedron structure, but there are inclusion and dislocation defects. As part of the theory the high mass particles come from combinations of the layers of the cuboctahedron structures. Especially the first few layers of a cuboctahedron structure. The new 28 GeV particle conforms to this model. It is shown, in this model to come from the 3rd layer of the cuboctahedron with 92 spheres. Also included in this paper are the other high mass particles, all of which conform to a cuboctahedron structure layers for their mass. Due to the propagation of light, gravity, charge, magnetism etc., and their quantized values, it has been hypothesized that, the universe should be filled with some type of almost homogeneous structure. It was shown in “Discrete Calculations of Charge and Gravity with Planck Spinning Spheres and Kaluza Spinning Spheres”( 1) that charge and gravity could be modeled by a sphere with a Compton wavelength radius of the neutron. If the neutron Compton wavelength is important to the propagation of charge and gravity then it is proposed that it also must be connected to some structure of the volume in which these forces are transmitted. “Underlying Cuboctahedron Packing of Planck Spinning Spheres Structure of the Hubble Universe” establishes a strong correlation, on multiple levels, between the larger mass quarks and bosons, and a cuboctahedron –Vector Equilibrium structure using the mass of the neutron and the combining of the layers of a cuboctahedron packing of spheres. The layers of a cuboctahedron follow a consistent progression for the quantity of spheres that can be packed in a layer. The masses of the w boson, z boson, bottom quark, top quark and the Higgs can be directly correlated to the first few layers of a cuboctahedron structure, and in a mirror manner described in this paper.

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[v1] 2018-11-06 04:52:52

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