The Probability of The Space Wave

Light is perpendicular to the surface of space and therefore has no matter. A particle traveling at the speed of light travels perpendicular to the surface of space and therefore has no matter. Since the particle has no matter the movement of the particle does not affect the space it is moving through. Matter is parallel to the surface of space. A particle traveling at speeds less than that of the speed of light will travel with some portion of its mass in the form of matter. Since the particle has matter the movement of the particle does affect the space it is moving through. The movement of matter through space causes space to build up in front of the particle in the direction of travel. Like a wave building up in front of a boat as it travels through the water, or a wave building up in front of a plane as it travels through the air. As a particle consisting of matter travels through space, space is being compressed in front of the particle in the direction of travel. The more matter and velocity ascribed to the particle the more compressed will be the compression of space in the direction of travel. Aatucagg refers to the compressed space in the direction of travel of a particle with matter as a "Space Wave". When space is not compressed, then a single point in space corresponds to a single point in time. When time and space share a single point then no probability exists for that point in space. When space is compressed, then multiple points in space correspond to a single point in time. When time and space do not share a single point then probability exists for those points in space. The movement of matter through the 4th dimension creates time, because the 4th dimension is a spacial dimension we can not see or experience. The expanding universe is a fractal universe that is expanding with decreasing velocity towards a spacial universe. In the expanding universe, space and time share an increasing one to one correspondence, and since space is moving slower and slower, time is being created less and less. Therefore, the expanding universe has time and all events are taking less time to happen. The spacial universe is a spherical universe that has reached maximum expansion and is no longer moving. In the spacial universe space and time share a one to one correspondence, but since space is no longer moving, time can not be created. Therefore, the spacial universe has no time and all events happen in a single instant. The contracting universe is a fractal universe that is contracting with increasing velocity towards a temporal universe. In the contracting universe, space and time share a decreasing one to one correspondence, and since space is moving faster and faster, time is being created more and more. Therefore, the contracting universe has time and all events are taking more time to happen. The temporal universe is a linear universe that has reached minimum expansion and is moving at a maximum angular velocity. In the temporal universe all space share a single point of time, and since space is moving, time is being created. Therefore, the temporal universe has infinite time and all events take forever to happen. Probability exists if matter occupies more than one point of space for a single point of time. In other words, matter can be in more than one place at a time. In our universe, on a large scale we appear to move from one point of space to another in a continuous predictable manner, but on an atomic scale, we actually move from one point of space to another in a discrete unpredictable manner. Movements of matter become less and less unpredictable for the expanding fractal universe and become completely predictable for the spacial universe. Movements of matter become more and more unpredictable for the contracting fractal universe and become completely unpredictable for the temporal universe. Since a space wave creates compressed space in front of the particle in the direction of travel, then probability exists for points in space that are part of the space wave. Aatucagg believes that it is the probability of the space wave that gives rise to the Heisenberg uncertainty principle. The Heisenberg uncertainty principle states that locating a particle in a small region of space makes the momentum of the particle uncertain; and conversely, that measuring the momentum of a particle precisely makes the position uncertain. Since position and momentum are a consequence of matter and velocity and the probability of the space wave is a consequence of matter and velocity, then the Heisenberg uncertainty principle must be a consequence of the probability of the space wave. Specifically, it is the fact that the space wave creates multilple points of space to be shared with a single point of time that gives rise to the Heisenberg uncertainty principle. Relative to the observer it appears that the particle is in multiple places at one time, which makes knowing its position and momentum impossible until the particle actually passes through that region of space containing the space wave. This is because one point in time corresponds to multiple points in space within the space wave. There is no way to know for certain which point in space will eventually correspond to which point in time, until the space wave actually collapses as the particle passes through that region of space. Once the particle passes through the region of space where the space wave exists, the space wave will collapse for that region of space and each point of space will once again share one point of time, leaving only one point in space occupied by the particle for that point in time. It should be noted that a probability of 0 percent corresponds to a minimum entropy, since light exists without matter in this spacial alignment and information requires both light and matter. A probability of 50 percent corresponds to a maximum entropy, since light and matter both exist equally in this spacial alignment. A probability of 100 percent corresponds to a minimum entropy, since matter exists without light in this spacial alignment and information requires both light and matter.

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Probability Space Wave

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The Probability of The Space Wave