Quantum Physics for Beginners: The Quantum Theory Bible : Discover the Deepest Secrets of the Law of Attraction and Q Mechanics Related to the Birth of the Universe by Kaufmann Loew T

Quantum Physics for Beginners: The Quantum Theory Bible : Discover the Deepest Secrets of the Law of Attraction and Q Mechanics Related to the Birth of the Universe by Kaufmann Loew T

Author:Kaufmann, Loew T. [Kaufmann, Loew T.]
Language: eng
Format: epub, pdf
Published: 2020-09-22T16:00:00+00:00


Evolution of Elementary Particles

The author believes that the universe was first created not as elements of the larger nucleus but as elementary and sub elementary particles. An electron and a proton attracted each other, forming the primitive hydrogen atom. At a stage, hydrogen atoms fused through a fusion reaction, forming heavier elements.

Contrary to the big bang theory, what happened at the time of the big bang 13.7 billion years ago, or maybe earlier; rather than the whole universe came into being, only two particles of opposite and equal momenta exited the speed-of-light reference frame along the axis of motion of the sonic reference frame. Their exit was in opposite directions such that one particle was in the direction of motion of the reference frame while the other was in the opposite direction. The equal and opposite momenta ensure that no disturbance (recoil) occurring at the point of exit. Because the sonic reference frame is inertial from the perspective of this reference frame, mass, time, and length measures are finite as calculated from inside this sonic frame. All laws of physics are official inside this sonic system, including laws of conservation of energy and momentum. The exit of the two particles from the sonic system is implemented according to the laws of conventional mechanics as considered from the inside of that reference frame.

The Laws Of Energy And Momentum Are Conserved At The Moment Of Exit.

An observer hypothetically situated at an observation post at rest to observe, monitor, and measure the sequence of events of the two particles’ as they exit from the sonic reference frame, up to their final destinations. The hypothetical situation at rest is assumed because the very first particles’ exit occurs in zero space. Before the particles’ exit, the at-rest observer will not be able to detect the two particles when they are in the speed-of-light reference frame. Conferring to the theory of special relativity, an observer at rest detects the sonic reference frame and its contents as a point in space with zero volume and infinite mass. As the two particles exit the speed-of-light reference frame, the observation post now detects and finds that the forward and reverse particles have a speed faster and slower than the speed of light, respectively. This is because both particles left the speed-of-light reference frame in opposite directions: one in the forward (faster) direction and the other in the reverse direction (slower). Both particles are now visible to the observation post at rest because both have real velocities propagating in the same space, as explained earlier.

After the two particles exit from the sonic reference outline, they apply a push to pull in one another, trying to connect to come back to their ground state, which is the speed of light. Since the two particles presently are in the subsonic and supersonic reference outlines, they can't reemerge the speed-of-light boundary. Their taboo reemergence is because their masses increment as they approach the speed of light once more. The weighty masses need truly impressive vitality to arrive at the sonic speed which they need.



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