Monday, October 11, 2021

Linear speed of light

A photon moves through 2D energy fields in the universal medium. Translating 2D energy field-distortions (inertial pocket around the 3D matter-core of the photon) carry the 3D matter-body of the photon. There is a relative motion between the 3D matter-core of the photon and the universal medium. Relative motion causes resistance to the motion. However, at any instant, sufficient ejection is produced by the inertial pocket to overcome this resistance. Since, both the resistance and the ejection are produced by the 2D energy fields; this effectively reduces any drag on the photon to nil value. Thus, it becomes the inherent property of the universal medium to move all basic 3D matter-particles (3D matter-core of) photons) in it, at the highest possible linear speed. Ability of the ejection, to overcome resistance, determines this highest possible linear speed, which we observe as the speed of light. Highest possible linear speed, for any region of universal medium (space) is of constant value. This value depends on the density and direction of structural distortions in the universal medium. Therefore, speeds of light in different regions of space may differ from each other with respect to references used in different regions of space. Once a photon has achieved its stable state by moving at its critical linear speed, its linear speed is maintained automatically at constant level by variations in its 3D matter-content (frequency). Attempt to increase linear speed of a photon tends to increase its 3D matter-content (frequency). Similarly, attempt to reduce linear speed of a photon tends to reduce its 3D matter-content (frequency). See: http://vixra.org/pdf/1103.0026v2.pdf.

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