Linear and Angular Velocity

Energy is composed of both matter energy and light energy. Matter energy is the energy of e = mc², and light energy is the energy of ρc, where ρ is momentum and ρc is momentum energy. If a particle is composed of matter only, then its energy is composed of matter energy only. If a particle is composed of light only, then its energy is composed of momentum energy only. Fractal mass is composed of both matter and light, and therefore fractal mass is composed of both matter and light energy. When the velocity of a particle is 0, then its mass is composed of matter only and its energy is equal to e = mc². When the velocity of a particle is equal to c, then its mass is composed of light only and its energy is equal to e = ρc. In relativistic terms, when the velocity of a particle reaches the speed of light, the momentum energy of light becomes infinite. Also, when the velocity of a particle is 0, the mass energy of matter becomes infinite. Therefore, in the temporal universe all mass is in the form of matter, and has infinite matter energy. In the spacial universe all mass is in the form of light, and has infinite light energy. In the fractal expanding and contracting universes, mass is in the form of matter and light, and share energy between matter and light energy. It is the linear velocity that controls energy. When linear velocity is 0, then all energy is in the form of matter energy. When linear velocity is equal to the speed of light, then all energy is in the form of light energy. When linear velocity is greater than 0 and less than the speed of light, then energy is shared between matter and light energy. When a particle's linear velocity is 0, the angular velocity is equal to the speed of light. When a particle's linear velocity is equal to the speed of light, the angular velocity is 0. This means that the speed of light is composed of the linear velocity of light and the angular velocity of matter. In the spacial universe all mass is in the form of light and travels with a linear velocity only. In the temporal universe all mass is in the form of matter and travels with an angular velocity only. In the fractal expanding and contracting universes mass is composed of both light and matter, and travels with both linear and angular velocity. A temporal universe is a universe where the fabric of space is parallel to the direction of universal expansion. All mass is in the form of matter. Energy is of the form e = mc². Linear velocity is 0 and angular velocity is equal to the speed of light. A spacial universe is a universe where the fabric of space is perpendicular to the direction of universal expansion. All mass is in the form of light. Energy is of the form e = ρc. Linear velocity is equal to the speed of light and angular velocity is 0. A fractal universe is a universe where the fabric of space is greater than parallel and less than perpendicular to the direction of universal expansion. Mass is in the form of matter and light. Energy is of the form e² = (mc²)² + (ρc)². Linear velocity and angular velocity are greater than 0 and less than the speed of light. In conclusion, it is linear velocity that controls energy and angular velocity that controls, what Aatucagg refers to as, "the probability space wave". When linear velocity is minimum, angular velocity is maximum, energy is in the form of matter energy and the probability space wave is 100 percent. These conditions relate to the temporal universe. When linear velocity is maximum, angular velocity is minimum, energy is in the form of light energy and the probability space wave is 0 percent. These conditions relate to the spacial universe. All other conditions of linear velocity, angular velocity, energy, and the probability space wave fall within the realm of the expanding and contracting fractal universes.

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Linear and Angular Velocity

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Linear and Angular Velocity