NET KINETIC ENERGY DIFFERENTIAL GUIDANCE AND PROPULSION SYSTEM FOR SATELLITES AND SPACE VEHICLES
The masses of the Moon and Earth are essentially constant during orbit. The net kinetic energy force of matter from space, per square centimeter, hitting the areas opposite their mutual "matter shadows" is essentially constant during orbit. The areas opposite their mutual "matter shadows" change just like their mutual "matter shadows" change, depending on the point in orbit and the distance between their mutual centers. At any point in orbit, the Earth and Moon automatically move into a dynamic net kinetic energy force balance, where the areas receiving net kinetic energy force are just the right size to provide the necessary net kinetic energy force to accelerate the Moon mass and Earth mass toward each other to maintain their mutual orbits.
The tangential speeds of the Moon and Earth in their orbits are not substantially changed due to the action of the net balance of kinetic energy force acting on their mutual "matter shadows". When the distance between their mutual centers increases as it does during orbit, the net balance of kinetic energy force decreases. When the distance between their mutual centers decreases as it does in orbit, the net balance of kinetic energy force increases. The greater distance between their mutual centers increases the time the net balance of kinetic energy force acts during a given arc of orbit. The smaller distance between their mutual centers deceases the time the net balance of kinetic energy force acts during a given arc of orbit. The Earth-Moon orbit is a delicate balancing act of the area the net kinetic energy force is acting on and the time this net kinetic energy force is acting during a given arc of the orbit.
Mathematically, according to the OCTM Theory of Matter, two spherical masses of matter orbiting each other, are accelerated toward each other with a net kinetic energy force of gravity proportional to their masses and inversely proportional to the square of the distance between them, where the net kinetic energy force of gravity travels at the speed of particles of matter from space, (speed of light).
The far side of the Moon points away from the center of the Earth. Based on certain measurements over the past two hundred years, most Scientists agree the center of the Moon has, on balance, moved away from the center of the Earth.
Mathematically, except during eclipses, the traditional attractive force of gravity theory and the balance of net kinetic energy force of gravity of the OCTM Theory of Matter give almost the same results. Without eclipses, both predict the Moon will move closer to the Earth over a long period of time, just as a satellite's orbit slowly decays and falls into the atmosphere. However, when eclipses are factored in, the OCTM theory predicts that on balance the masses of the Moon will move away from the Earth, as has been demonstrated through experimental observation.
The net kinetic energy force of gravity of the OCTM Theory of Matter explains mathematically how the Moon's most massive side can remain locked in orbit essentially pointing away from the center of the Earth, and how the Moon can very, very slowly move away from the Earth, when eclipses are involved.
When a Solar eclipse occurs, the normal "net kinetic energy Sun matter shadow" on the Earth is partially blocked by the "net kinetic energy Moon matter shadow" on the Earth. When this occurs, more total net kinetic energy force from space is pushing on the Earth from the direction of the Sun and Moon. As long as this Solar eclipse continues, this additional net kinetic energy force pushes the Earth away from the Sun and Moon more than would have been the case if the Solar eclipse had not occurred.
When a Lunar eclipse occurs, the normal "net kinetic energy Sun matter shadow" on the Moon is partially blocked by the "net kinetic energy Earth matter shadow" on the Moon. When this occurs, more total net kinetic energy force from space is pushing on the Moon from the direction of the Sun and Earth. As long as this Lunar eclipse continues, this additional net kinetic energy force pushes the Moon away from the Sun and Earth more than would have been the case if the Lunar eclipse had not occurred.
During both Solar and Lunar eclipses the distance between the Earth and the Moon is being increased by a slight amount. As predicted by the OCTM Theory of Matter, by actual measurements over the past 200 hundred years, the center of the Moon has slowly moved away from the center of the Earth.
The Moon is currently locked in orbit with it's "far side" always essentially pointing away from Earth. As predicted by the OCTM Theory of Matter, the Moon is locked in orbit with it's more massive side essentially pointing away from the center of the Earth.
The Earth rate of rotation about it's North-South axis is very slowly decreasing. As predicted by the OCTM Theory of Matter, the Earth is absorbing some of the particles from space and gradually increasing it's total combined Mass. By Newton's laws of motion, the Earth's rate of rotation must slow down when it's mass is increased by the absorption of the particles of matter from space in the balanced net kinetic energy force of the PUSH of Gravity.
The OCTM Theory of Matter brings the force of gravity into agreement with Einstein's famous equation, E=mc^2. The OCTM Theory of Matter is in agreement with the experimental results of presently known experiments on solids, liquids, gases, light and the other electromagnetic spectrum particles of matter. The simplicity of the OCTM Theory of Matter is elegant
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