Abstract
In an attempt to reconcile General Relativity and Quantum Mechanics, Particle Theory is a concept that may try to address this issue. This theory explains the effects accurately calculated by General Relativity in an alternate and real, physical way, and is therefore an alternative to GR. The theory states that indivisible atomic particles are instead divided into even smaller particles (called “EM particles”) held together by a central potential, the speed of light being the limit to their velocities. The “shedding” of these particles are responsible for the static and magnetic fields we observe. This also creates a “screening” effect that, for an atomic particle at rest, blocks about half of what this theory defines as the “true gravitational potential”, which is just twice the Newtonian value (mediated by what this theory defines as “gravity particles”). When an atomic system of particles starts moving in a certain direction, the act of shedding and the internal movement decreases as the particles orient themselves in the direction of the velocity, which reduces the screening effect, where we start to observe the relativistic effects of General (and Special) Relativity.
Highlights
TO Particle Theory (PT) MECHANICSThe entanglement of the gravity particles cause a vibration, which leads to shedding of these particles off the surface of the EM particles
The freed gravity particles make up the central potential that keep the EM particles bounded in an atomic system of particles, and any residual gravity particles that escape or shed at the surface account for the gravitational force
When an atomic system of particles starts moving in a certain direction, lets say the z-axis, and given that the limit to the velocities of the EM particles is always the speed of light, the internal motion perpendicular to the z-axis of the system decreases, which reduces the shedding of EM particles as well as the frequency of their oscillations, reducing the screening effect and making the system more susceptible to the true gravitational potential
Summary
The entanglement of the gravity particles cause a vibration, which leads to shedding of these particles off the surface of the EM particles. When a field of EM+ particles (from a point source) comes into contact with an atomic system of EM- particles, such as an electron, for example, they merge on the surface of the electron and prevents that side of the electron to shed EM particles momentarily. The reusing aspect implies that the shedding process and as such the decay rate is much less especially for an isolated atom [1] This means that an isolated electron, for instance, will shed at a rate less than what is required by Coulomb's law.
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