Rotation of Mass

The rotation of mass, which is bound energy, converts mass into light, which is free energy. The direction of time that contains light is always perpendicular to the 3 dimensions of space that contain matter. But a mass rotates as its velocity increases, so that, a mass completely at rest has a direction of time perpendicular to a mass traveling at the speed of light. Since, time is always perpendicular to space, then mass must have rotated through 90 degrees. The time vector of a mass never changes its orientation with respect to the light and matter components of the mass. The time vector for a mass at rest points completely into the 4th dimension of time. The time component of the mass is completely oriented into the 4th dimension of time and the matter component of the mass is completely oriented into the 3 dimensions of the universe. If the mass is accelerated to the speed of light, then the mass will rotate through 90 degrees relative to the surface of the universe, so that its light will align with the 3 dimensions of space and its matter will align with the 4th dimension of time. Mass traveling at the speed of light will have a time vector completely aligned in the direction of travel. What is a spacial dimension for a mass at rest will be a temporal dimension for a mass moving at the speed of light. For example, if 2 observers are standing at rest then both will experience the same orientation of time and space. If one observer is accelerated, then that observer's mass will rotate so that time and space for both observers is no longer oriented in the same direction. After the being accelerated, both observers will now experience the other as having a certain amount of time replacing space. Therefore, each observer will experience the other as having a certain amount of light replacing matter. If the acceleration reaches the speed of light, then each observer will experience the other as having light replacing all matter. This is because time and space are relative to each observer and therefore, each observer experiences a different time and space depending of the acceleration of their mass. When both observers were at rest, time shared the same temporal dimension, but for the observer now traveling at the speed of light, this dimension has become a spacial dimension. Relative to the observer at rest, the other observer is traveling at the speed of light through a spacial dimension, but for the observer traveling at the speed of light, this dimension has now become the temporal dimension of time. This means that we exist in 4 spacial dimensions, but the one spacial dimension that contains our movement will become to us the 4th dimension of time. Observers at rest relative to each other will view each others masses as the bound energy of matter. Observers moving relative to each other will view each others masses as a composition of the bound energy of matter and the free energy of light, depending on the relative velocity of each observer. Observers moving at light speed relative to each other will view each others masses as the free energy of light. Two observers at rest share the same orientation of mass, resulting in an angular difference between their masses of 0 degrees. As one observer accelerates relative to the other, then the angular difference between their masses will increase. If one observer accelerates to the speed of light relative to the other, then the angular difference between their masses will be 90 degrees. When the angular difference between the observer's masses reaches 90 degrees neither observer will experience each other as spacial mass, which is matter, instead both will experience each other as temporal mass, which is light. The mass that composes the body of the accelerated observer has rotated by 90 degrees to the mass that composes the body of the observer at rest. When both observers were at rest, the misalignment is at a minimum angle of 0 degrees and each observer views each other's energy in its bound form as matter. When the other observer obtains the speed of light, time and space transpose the spacial dimension in the direction of travel with the temporal dimension relative to the observer at rest. When the other observer is traveling at the speed of light, the misalignment is at a maximum angle of 90 degrees and each observer views the other's energy in its free form as light.
To understand how light converts to matter or matter converts to light, think of a coin. Let the edge of the coin represent matter, which is spacial mass in its bound energy form and the top and bottom of the coin represent light, which is temporal mass in its free energy form. When viewed from the side, only the edge of the coin can be seen and when viewed from above or below, only the top or bottom of the coin can be seen. To view the coin from the top or bottom when initially viewed from the side, requires moving the viewing angle through 90 degrees. Matter is like the side of the coin, and light is like the top and bottom of the coin. The temporal alignment between matter and light is at an angle of 90 degrees just as the alignment between the side and the top and bottom of the coin is at an angle of 90 degrees. Mass sharing the same temporal alignment as ourselves will appear to us as the bound energy of matter. Mass partially sharing the same temporal alignment as ourselves will appear to us as both the bound energy of matter and the free energy of light. Mass not sharing any of the same temporal alignment as ourselves will appear to us as the free energy of light. If we label mass contained within the dimension of space as spacial mass and if we label mass contained within the dimension of time as temporal mass, then Einstein's equation e=mc² becomes energy= (total mass)c², so that, energy = sqrt[(spacial mass)² + (temporal mass)²]c².

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Rotation of Mass

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Rotation of Mass