Difference between revisions 5685678 and 5685679 on simplewiki[[File:Irrotational vortex.gif|thumb|The self-gravitational involution of a mass can be visualized as a series of concentric shells. The higher a shell, the lower its rotational frequency. If we sufficiently extend the series of concentric shells, then the outermost shell's rotational frequency will be zero, so that the shell will have the lowest (''i.e.'', zero) actual energy (''E'' = [[w:Planck constant|''h'']][[w:frequency(contracted; show full)
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The self-gravitation of a condensing particle of [[rest mass]] becomes more intense due to the [[inverse-square law]], so that the retained half of the actual energy must have a higher temperature in order to withstand it. At the same time, the relative expansion of the ambient vacuum makes the
already radiated actual energy colder, so that the hotter particle cannot reabsorb the colder radiated actual energy from the ambient vacuum. This makes the radiational loss of energy irreversible. Morever, the higher temperature of the retained actual energy accelerates the radiational loss of the latter and thus accelerates the particle's further self‑gravitational condensation.
(contracted; show full)—<span class="plainlinks">[https://en.wikiquote.org/w/index.php?title=Terence_McKenna&oldid=2251202 Terence McKenna]]]
==References==
{{reflist}}
[[Category:Basic physics ideas]]
[[Category:Cosmology]]
[[Category:Energy]]
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