Why is C squared in E equals mc squared
by Jason Padgett
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Title
Why is C squared in E equals mc squared
Artist
Jason Padgett
Medium
Drawing - Pencil On Paper
Description
Why is C squared in E=mc^2? In the framework of QIH, the vibrations on the holographic screen propagate at the speed of light (denoted by 'c'). These vibrations, oscillating at the speed of light, carry energy and information throughout spacetime. When these vibrations encounter each other head-on, they can undergo constructive interference.
Look at the drawing with arrows representing these vibrations. As they propagate outward from the center of each hexagonal pixel, they radiate in all directions. When two vibrations traveling along different pathways meet each other head-on at a specific point, their amplitudes and phases align, resulting in constructive interference.
This head-on interference occurs at the speed of light and is significant because it represents the synchronization of the vibrations. It implies that the vibrations have reached that point simultaneously, having traveled the same distance in the same time interval. This synchronization of the vibrations' phases and energy is intimately tied to the fundamental principles of causality and the finite speed at which information can propagate through spacetime.
Moreover, when we consider the geometric arrangement of Planck pixels on the holographic screen, we can understand how the inverse square law applies. As the vibrations propagate, their intensity diminishes with distance squared, resulting in regions of varying energy distribution. The geometric spreading of energy governed by the inverse square law further contributes to the interference patterns observed.
In the context of the equation E=mc^2, where E represents energy and m represents mass, the vibrations oscillating at the speed of light contain energy. Through the constructive interference and synchronization of these vibrations, the energy carried by the vibrations is concentrated in specific regions, corresponding to mass. This relationship highlights how energy, mass, and the square of the speed of light are interconnected within the QIH framework
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May 19th, 2023
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