| The universe is an ocean of light in which solidified light | | | | the gold planet. And this additional mass or drag effect |
| and energy exist as stars and planets. We live in an | | | | of light creates a greater shading effect as the light |
| ocean of light and there is no top nor bottom of this | | | | travels through it. An aluminum hollow planet would |
| ocean. We live inside a gigantic fishbowl in an ocean of | | | | have far less of a drag on light energies as light |
| light which we call the universe. Mankind does not | | | | energies pass through it and so less mass and less |
| receive the primary effect of gravity from its planetary | | | | shading effect of light would be noted and observed. |
| mass nor the supposed molten core of our planet. | | | | The gravity of the sun is anti-gravity and repel matter |
| The sea of light in which we live bears down on our | | | | the closer you travel towards it from the outer cosmic |
| planet and the force of gravity or light pressures are | | | | ocean of light. It is reversed in that it sends out light |
| one and the same. Gravity is the force of light pushing | | | | which acts on matter to push it away from the Sun in |
| down upon the Earth and our atmosphere from | | | | all directions. So there is reverse gravity experienced |
| above. The weight or the mass of an object is | | | | with the Sun of a solar system in that all suns repel |
| created when light energy travels through an object | | | | matter with its light energy it sends out. This can be |
| and collides with the more solid molecules of solidified | | | | seen when comets past close to the Sun. The tails of |
| mass. These collisions of light with matter creates a | | | | comets always point away from the Sun as it passes |
| drag of resistance when light passes through matter. | | | | near it because the Suns energy pushes away matter |
| Some light is lost and becomes energy and some | | | | as it goes out into the cosmic light universe. |
| mass is converted and transmuted also. The weight of | | | | Stars are the source and fountains of light and energy |
| objects on all planets is constant due to the evenness | | | | flowing into the cosmic ocean of our physical light |
| of light pressures exerted from our Sun and from | | | | universe. And so stars are both the source of gravity |
| cosmic light radiations from the stars. This light | | | | and anti-gravity in the universe. Anti-gravity or repulsion |
| pressure is call gravity and will diminish slightly the | | | | is experienced in the pond of the local solar systems |
| farther from the local Sun you travel. | | | | especially closer to the sun and gravity is experienced |
| There are many variations of gravity. One, the simplest | | | | as a seeming attraction or force from above exerted |
| forms of gravity, would be gravity upon a planetary | | | | downward on the surfaces of planets within a solar |
| body with no atmosphere like the Moon. Two, would | | | | system. |
| be gravity on a planet with an atmosphere. This is | | | | Planets and humans and matter are all the same -- |
| more complex because the force to gravity first bears | | | | they are solidified light and energy surrounded by a |
| down on the atmosphere and it in turn bears down | | | | sea of cosmic and local light and energy. Many years |
| equally upon the planetary surfaces from above plus | | | | ago the proof that gravity is a pushing force from |
| the objects on its surface. It is atmospheres of planets | | | | above was proved by pendulum experiments in deep |
| which cause the differences in gravity of all planets. | | | | mining shafts in America. But no one seemed to |
| Three, would be gravity on a gaseous planet. Four, | | | | understand how the forces of gravity could possibly |
| would be the anti-gravity of a star. And there will be | | | | come from above. But it is easy when you understand |
| many more variations of gravity. Each of these forms | | | | and visualize that we live in a fishbowl universe of light |
| or calculations of gravity would be much different and | | | | which surrounds us and everything else nearly equally |
| variable. | | | | all of the time. This applies even inside planetary bodies |
| Planets with atmospheres must add the additional | | | | which are hollow. And most all planetary bodies in the |
| weight of the atmospheres on which the ocean of light | | | | universe are naturally hollow not solid. |
| equally bears down from above. Then the atmosphere | | | | Stars of different primary energy outputs such as |
| is weighted down and again evenly distributes the | | | | white, yellow, red, will probably have much different |
| forces of gravity upon the hard and semi-solid | | | | calculations for local gravity because all light of |
| surfaces of a planet. The mass of an object on a | | | | different wave lengths is probably not equal in strength |
| planet's surface is created by the density and quantity | | | | in its light and energy output. |
| of mass that the light energies impact. The spin of a | | | | The interaction of gravity between two objects in |
| planet imparts a small amount of anti-gravity effect on | | | | deep space between the stars would be extremely |
| objects from its centrifugal force. | | | | small. But the gravity effect between two object within |
| Our Sun is a great local generator of cosmic light and | | | | a solar system would be much more. The gravity |
| energy and so the ocean of cosmic light from the | | | | effect differences is only from the direct shading |
| universe meets another great force of cosmic light | | | | effect of light as it comes from the local sun. If one |
| and they collide and intermingle. Gravity or light energy | | | | object shades the light from a local sun from another |
| pressures are equalized locally and a system or the | | | | object then the force of gravity between them will be |
| pond of light we call our solar system is formed inside | | | | slightly less and they will be slightly attracted to each |
| the the cosmic ocean of light of the universe. This local | | | | other by the differences of gravity pressures from this |
| solar system of light and energy meets the greater | | | | shading effect. But if two objects are beside each |
| cosmic ocean of light and energy and equalizes to | | | | other within a solar system and there is no direct |
| form a near constant pressure of light upon all solid | | | | shading of light on either surface from the sun's |
| matter objects within it or nearby. This light pressure or | | | | energies then there will be no gravity pressure |
| gravity is nearly constant throughout the solar system | | | | variations and so the objects will remain separated |
| even on very large planets . A dense solid gold planet | | | | and stable. The density of matter of these objects |
| will have the same force of gravity on its surface as a | | | | would also be a variable if a direct shading effect |
| hollow sphere of aluminum of the exact same size. | | | | occurred between them. |
| The only variations of gravity on planets would be on | | | | All objects within a solar system create a shading |
| the planets with atmospheres. So a man who weighs | | | | effect of gravity upon their dark side which is away |
| 150 lbs on our Moon would weigh the same on all | | | | from the local sun. This shading effect of gravity is |
| planets that have no atmosphere no matter that the | | | | slight but a person who weighs 150 lbs on the sunny |
| planets are much larger or smaller. | | | | side of a planet would weigh slightly less -- 149 lbs on |
| Distance from the Sun would be the next great | | | | the dark side of the same planet. |
| variable to determine the relative push from above of | | | | The physical universe is an ocean of light energy in |
| gravity upon a planet. The farther from the Sun the | | | | which we live and gravity is the nearly constant |
| less gravity a planet will have on its surface. But the | | | | pressures of light within the universe upon objects |
| size of the planet will have no effect on its gravity. | | | | which is relatively constant and stable throughout the |
| Only the distance from the Sun the primary light | | | | universe. Only in the local ponds of light in a local solar |
| source is the variable. The farther and more dispersed | | | | system will the gravity or the pressures of cosmic light |
| light is as it travels away from the Sun or star the less | | | | be variable within the local pond of light. These slight |
| gravity will be felt. So a 300 lb man near the Sun might | | | | gravity variations will be due to the increased light |
| weigh 295 lbs on Mercury, 290 lbs on Venus, 285 lbs | | | | pressures of the local sun as it goes out to meet and |
| on the Earth and so on until you get to Pluto where he | | | | intermingle with the cosmic ocean of light. In this theory |
| might weigh only 275 lbs. on the planet. | | | | of gravity dark matter does not exist as all matter and |
| Light traveling through a solid gold planet creates a | | | | energy are accounted for in the universe.-- J.E. |
| drag effect which gives additional weight or mass to | | | | |