Spacial Stress and Temporal Strain

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Aatucagg believes that spacial stress and temporal strain can be applied to light, gravity, history, and knowledge. Spacial Stress is a measure of the amount of information that light and gravity from an event are able to radiate to the observer. Temporal strain is a measure of the amount of memory created from history and knowledge of an event by the observer. Spacial stress is a 3 dimensional phenomenon, while temporal strain is a 1 dimensional phenomenon. When an event occurs, it will be of a 3 dimensional nature since the universe that contains the event is 3 dimensional. When an event is witnessed, its retention will be of a 1 dimensional nature since the observer that retains the event has a 1 dimensional timeline. The universe is composed of a space/time fabric. Space is composed of 3 dimensions and time is composed of 1 dimension. Events occur in 3 dimensional space as light and gravity and are converted to 1 dimensional timeline as history and knowledge by the mass of the observer. Events that produce more light than gravity will generally produce more history than knowledge. Events that produce less light than gravity will generally produce less history than knowledge. Events that produce the same amount of light and gravity will generally produce the same amount of history and knowledge. Deja vu occurs when history and knowledge are produced in the same amount. Since most events produce more history or less history than knowledge, then deja vu is a rare occurrence. Most of us might experience deja vu 3 or 4 times a year out of all the history and knowledge collected for that year. When light travels faster than gravity, then light travels as a wave of particles. The speed of light is a constant, so any variations in energy must manifest itself as a change in wavelength. High energy photons from the outer orbits of the atom produce the shortest wavelengths and low energy photons from the inner orbits of the atom produce the longest wavelengths. When light travels faster than gravity, then it is the wavelength of light that controls how much information is created. The energy of light will produce history that cycles between expansion and compression as the 2 dimensional electromagnetic wave of light is converted to the 1 dimensional timeline of history. High frequency light will produce history that expands and contracts quickly. Low frequency light will produce history that expands and contracts slowly. The faster history is able to expand and contract the more history there will be available for knowledge to convert to memory. Therefore, high energy light creates more information than low energy light for a fixed velocity of knowledge. This configuration yields the maximum amount of conscious information available for any given event.
When light travels at the same speed as gravity, then light travels as a particle with a gravity wavelength. Since the speed of light is constant and travels with the gravity wave, then history for this event is created in a homogeneous manner along the timeline . Light traveling as a particle does not have a wavelength, so the wavelength must be associated with the gravity wave. Do not confuse the gravity wave with the quantum of gravity that produced the gravity wave. The quantum of gravity is directed into the 4th dimension and is beyond our ability to experience or measure it. It is the wave in space left behind by the quantum of gravity that we are able to experience and measure. This wave in space caused by the quantum of gravity passing through space and into the 4th dimension is what we refer to as a gravity wave. Therefore, a gravity wave is an artifact of quantum gravity but not quantum gravity itself. It is the wavelength associated with this gravity wave that controls the amount of knowledge produced by an event. High energy quantums of gravity from the inner orbits of the atom produce the shortest wavelengths and low energy quantums of gravity from the outer orbits of the atom produce the longest wavelengths. When light travels at the same speed as gravity, then it is the wavelength of the gravity wave that controls how much information is created. The energy of gravity waves will produce knowledge whose velocity through time is dependant upon the wavelength of the gravity wave. High frequency gravity waves will produce knowledge that travel through time quickly. Low frequency gravity waves will produce knowledge that travels through time slowly. The faster knowledge is able to travel through time the more history there will be available for knowledge to convert to memory. Therefore, high energy gravity waves create more information than low energy gravity waves for a fixed amount of homogeneous history. Since light and gravity are traveling at the same speed and light has a constant speed, then the situation where the wavelength of the gravity wave controls the amount of information available is known as deja vu. This configuration yields the maximum amount of both conscious and unconscious information available for any given event.
When light travels slower than the speed of gravity, then light travels as a particle with no wavelength. Since the speed of light is constant but does not travel with the gravity wave, then history for this event is created in a heterogeneous manner along the timeline. It is the wavelength associated with this gravity wave that controls the amount of knowledge produced by an event. High energy quantums of gravity from the inner orbits of the atom produce the shortest wavelengths and low energy quantums of gravity from the outer orbits of the atom produce the longest wavelengths. When light travels slower than the speed of gravity, then it is the wavelength of the gravity wave and the amount of light that controls how much information is created. The energy of gravity waves will produce knowledge whose velocity through time is dependant upon the wavelength of the gravity wave. High frequency gravity waves will produce knowledge that travel through time quickly. Low frequency gravity waves will produce knowledge that travels through time slowly. In this case, the velocity of knowledge through time does not necessarily convert to more information, since light traveling as random particles may have created little history for knowledge to convert to memory. The amount of light particles reaching the observer will vary randomly and create history in random amounts along the timeline. Therefore, high energy gravity waves create more information than low energy gravity waves for a fixed amount of heterogeneous history. This configuration yields the maximum amount of unconscious information available for any given event.