Spacial and Temporal Mass

Momentum is equal to the mass of an object multiplied by the velocity. Aatucagg expands the meaning of mass to include both matter and light. Spacial mass is a measure of how much matter a body contains, and temporal mass is a measure of how much light a body contains. Base on this concept, Aatucagg expresses momentum as being equal to the spacial mass of an object multiplied by the velocity. Aatucagg believes that spacial mass behaves more like a particle when under the influence of a spacially massive object. This is because matter is surrounded by warped space. Any less spacially massive object passing near the more spacially massive object will experience a decrease in the angle between space and itself the nearer it approaches the more spacially massive object. A lessening in the angle between space and mass results in the object exibiting more of a particle nature, since the perticle nature is made of matter, and mass becomes more like matter the more parallel it is oriented to the surface of space. Aatucagg believes that mass behaves more like a wave when not under the influence of a more spacially massive object. This is because space is unwarped far away from matter. Any object far away from a more spacially massive objects will experience an increase in the angle between space and itself the futher it receeds from any spacially massive object. An increase in the angle between space and mass results in the object exibiting more of a wave nature, since the wave nature is made of light, and mass becomes more like light the more perpendicular it is oriented to the surface of space. This can be demonstrated in the 2 slit experiment. An election behaves more like a particle at the light sorce, since it is near a more spacially massive object and is oriented more closely to the surface of space. As the electron moves away from the light source into open space it behaves more a wave, since it receeding from the spacial mass of the light source and is oriented less closely to the surface of space. As the electron approaches the spacial mass of the plate with the slits, its orientation becomes more parallel to the surface of space, making it behave more like a particle. As the electron leaves the plate with the slits and enters open space, its orientation becomes more perpendicular to the surface of space, making it behave more like a wave. Finally, when the electron approaches the spacial mass of the wall behind the slits it orientation becomes more parallel to the surface of space, making it behave more like a particle. When the electron strikes the wall behind the plate its orientation will be most parallel to the surface of space, making it behave most like a particle. Some proof of this theory does exist. For example, when the electron is monitored, its behaves like that of a particle. Aatucagg believes this is because the method used to monitor the electron creates enough external spacial mass to cause the electron to become more oriented to the surface of space and behave like a particle. Another example of mass becoming more like the waveform of light is the the unexpected decrease in the speed of spacecraft as they leave our solar system. The Pioneer 10 and 11 spacecrafts both show a mysterious unexpected decrease in speed. Aatucagg believes this reduced speed is the result of a lose in the spacecraft's matter. This is because as the spacecraft move futher from the spacial mass of the sun and deeper into space, the angle between the mass of the spacecraft and the fabric of earth is increasing. The more perpendicular the spacecraft becomes oriented to the surface of space, the more it displays the wave nature of light and the less its displays the particle nature of matter. According to the Lorentz transform, as the relativistic spacial mass of the spacecraft decreases, due to the unwarping of space, the velocity of the spacecraft should slow down. Aatucagg believes that the conversion of the spacial mass of matter to the temporal mass of light by the unwarping of space explains the decrease in the velocity of the spacecrafs.

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Spacial and Temporal Mass