The Independent Wavelength of Gravity

Don't need - could use the DeBroglie Wavelength stuff somewhere else.

In regards to both light and matter, energy is composed of spacial and temporal energy. Light is temporal mass and therefore radiates temporal energy. Matter is spacial mass and therefore radiates spacial energy. This means a photon is a quantum of temporal energy since a photon radiates as light. This also means that a quantum of gravity is a quantum of spacial energy since a quantum of gravity radiates as a gravity wave. So as the energy of light goes up the energy of gravity goes down and visa verse. From Special Relativity we know that energy, mass, and velocity are all proportional. This means that if temporal energy increases then temporal mass and velocity must also increase. If spacial energy increases then spacial mass and velocity must also increase. When temporal energy, mass, and velocity increase then spacial energy, mass, and velocity decrease by a proportional amount. When spacial energy, mass, and velocity increase then temporal energy, mass, and velocity decrease by a proportional amount. In this way, total energy, mass, and velocity are constant and only the components of energy, mass, and velocity vary between temporal and spacial amounts. This explains why the temporal energy, mass, and velocity of light increase at further distances from the nucleus of the atom and spacial energy, mass, and velocity of gravity increases at closer distances to the nucleus of the atom. To picture what is happening, at further distances from the nucleus of the atom the mass of the electron is becoming more perpendicular to the surface of space, which is the orientation of light. At closer distances to the nucleus of the atom the mass of the electron is becoming more parallel to the surface of space, which is the orientation of matter. The total mass of the electron in any orbit is constant, but the component parts of temporal and spacial mass vary from orbit to orbit. This same reasoning can be applied to the energy and velocity of the electrons in each orbit. The speed of light is a constant and the wavelength of light is variable. The wavelength of gravity is a constant and the speed of gravity is variable. In regards to light, the DeBroglie Wavelength shows that the wavelength is inversely proportional to temporal energy for a constant velocity. Since temporal energy increases as electrons move away from the nucleus of the atom, then the wavelength of the radiated photon decreases as electrons move away from the nucleus of the atom. This means longer radiated wavelengths for photons are found near the nucleus of the atom and shorter radiated wavelengths for photons are found further from the nucleus of the atom. In regards to gravity, the velocity is proportional to spacial energy for a constant wavelength. But light can have many wavelengths, so in order for a quantum of gravity to cancel the wavelengths of light, then a quantum of gravity must be independent of wavelength. Therefore a quantum of gravity must travel as a particle. Since spacial energy increases as electrons move closer to the nucleus of the atom, then the velocity of the radiated quantum of gravity increases as the electrons move closer to the nucleus of the atom. This means faster moving quantums of gravity are found near the nucleus of the atom and slower moving quantums of gravity are found further from the nucleus of the atom. It is the inner orbits of the atom that inhibits the ability of the universe to expand and creates darkness. It is the middle orbits of the atom that allow the universe to expand at near the speed of light and create particles of light. It is the outer orbits of the atom that allow light to travel faster than the universe is expanding and create waves of light particles. Gravity controls space and space controls light, therefore gravity controls light.