Abstract
A unifying model and theory that covers dark matter, dark energy, gravity, space and negative energy by means of observation, citation, and deduction, revealing a fundamental definition for both space and gravity, support of dark energy theory, explanation of dark matter, revealing additional structure and properties of baryonic atoms, sheds new light on baryogenesis, and revises estimates of the longevity of the universe. Other matters discussed are aerospace, anti-gravity, artificial gravity, gravitational waves, wormholes, interstellar space travel, cold fusion, cold fission, health and wellbeing, the earth’s atmosphere and global warming.
Highlights
Dark Matter is the term used for the prevailing theory of the 1980’s
Dark Matter has similar laws of physics, but space and gravity are weak to Dark Matter, something like what you would expect with a Shadow Universe. [1]
The neutron-proton atoms and the proton-dark atoms represent two distinct dimensions, and their union represents a balance of polar opposites between hot and cold, light and dark, ordinary matter and Dark Matter, positive energy and negative energy, hot fusion and Cold Fusion, hot fission and cold fission, radiation and anti-radiation, gravity and anti-gravity (Dark Energy), and space, with the latter being the proton-dark atoms and anti-space being the neutron-proton atom
Summary
Dark Matter is the term used for the prevailing theory of the 1980’s. Scientists needed a way of explaining how stars in galaxies rotated in a unified manner, unlike solar systems, where the closest planets orbited their star quicker than the outer planets. The Dark Universe consists of weak and strong interactions between space, gravity, matter and energy. Ordinary hydrogen (proton) is by far the most common atom in the universe and makes up about 99.985% of all naturally occurring hydrogen atoms It is the only stable element known to man that doesn’t have a neutron in its nucleus. Dan Sharpe: The Grand Unification of Dark Matters: The Dark Universe Revealed radioactive, often a byproduct of nuclear reactions This deuterium-tritium pair has great potential for generation large-scale fusion power plants to supply the world’s energy needs, all from ocean water. The universe consists largely of hydrogen, but modern telescopes are only able to observe exited hydrogen atoms, using a color spectrum filter, such as those atoms around an exploding star, in a gas cloud, or after receiving energy wavelengths or photons from a nearby source. The European Space agency’s Planck Probe has completed its census of the universe and its showing more matter and less energy, by as much as 4% of what was expected, which puts Dark Matter at 26.8%, ordinary matter at 4.9%, with a 4% drop in the amount of Dark Energy. [5]
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