PSI
Blog 20200525 Vortex Formation of a Planet's Birth
SPHERE IMAGE OF THE
YOUNG STAR IN POLARIZED LIGHT. IMAGE: ESO/BOCCALETTI ET AL
I
usually don’t do gee-whiz science, but this one is too good to pass up. In our
book "Universal Cycle Theory: Neomechanics of the Hierarchically Infinite
Universe" Steve and I emphasized Descartes' Vortex Theory.[1] Vortices
form when macrocosmic pressures force small microcosms to be pushed toward
large ones, with the intervening space providing protection from the onslaught
of the macrocosm. The rotation occurs
because collisions are never perfect—there always are glancing blows, forcing
both the large microcosm and the small microcosm to rotate on their axes. This
occurs throughout the infinite hierarchy, from the largest galaxy cluster to the
tiniest aether duo.[2]
And so,
I was especially interested in seeing what appears to be a picture of the birth
of an exoplanet. Normally, the associated star is so bright that such planets
cannot be seen easily. Although there are 4,260 exoplanets, this seems the
first to be little more than a rotating dust cloud. But through a special
technique in which the parent star’s light was blocked, the photo could be
taken. This appears to be a magnificent confirmation of Descartes’ Vortex
Theory:[3]
[1] Puetz, Stephen J., and
Borchardt, Glenn, 2011, Universal cycle theory: Neomechanics of the
hierarchically infinite universe: Denver, Outskirts Press, 626 p. [http://www.scientificphilosophy.com/].
[2] See Chapter 16.4
Where does matter come from? in Borchardt, Glenn, 2017, Infinite Universe
Theory: Berkeley, California, Progressive Science Institute, 337 p.
[http://go.glennborchardt.com/IUTebook].
[3] Descartes, Rene, 1644
[1991], Principles of Philosophy: Boston, MA, Kluwer Academic, 324 p.
[http://go.glennborchardt.com/Descartes1644].
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1 comment:
Thanks, Glenn. Fascinating!
Duncan
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