Authors: John A. Gowan
Gravity plays a double conservation role in nature, conserving both: 1) the intrinsic motion of light (by converting it to the intrinsic motion of time - via the annihilation of space and the extraction of a metrically equivalent temporal residue (entropy conservation role); and 2) conserving the non-local distributional symmetry of light's energy (by converting bound to free energy in stars, and via Hawking's "quantum radiance" of black holes (symmetry conservation role). These two conservation roles derive from the double gauge role of "velocity c", which regulates both light's intrinsic motion c (the entropy drive of free electromagnetic energy), and light's non-local distributional symmetry (vanishing time and distance in the direction of propagation). When gravity conserves light's non-local, distributional symmetry (in obedience to "Noether's Theorem"), via gravity's "location" charge, gravity also conserves light's entropy drive by default, since time itself is the active principle of the "location" charge.
Comments: 5 pages. This paper has also been published as a Google "Knol".
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