Big Hole Theory

There are many types of ring galaxies, which have fluid dynamic properties.

                AM0058                      AM0552                           AM1518                   bubble film nucleus

These galaxies are pre-ring. The nucleus actively rotates gaining mass. Fluidic phenomenon verifies the process and are precursors to ring structure.

ring galaxies

                                                                  fluid ring structures

Fluidic experiments with oscillating bubble films show common ejection activity due to resonance amplitude and accretion/drainage of fluid mass in the nucleus, also partially researched by scientists at the Laboratoire de Physique des Solides, UMR 8502-Universite Paris-Sud, France by

W. Drenckhan et al (2008).

Big Hole bubble film phenomenon

                                        before               after

                                         before              after

 A ringed nucleus forms and then progresses to instantly eject the entire mass from the system with ring intact. Transient surviving fluid oscillates from the event defining evolving peculiar systems.

                           simulated ring/ejection sequence (from galaxy catalogue images)

Big Bang-Black Hole

The data strongly suggests a previously unknown and undetected astrophysical process involving singularity-type physics on a very large scale, ejecting mass from the universe without a trace via cymatic phases and chaotic oscillation.  

In this respect, previously discussed multiverse phenomenon forming universe singularities are identical. They are the "big holes" to another space-time horizon.

WMAP data interpreted by Feeney et al (First Observational Tests of Eternal Inflation, 2010) predicts the universe embedded in a vast multiverse environment. However, it is improbable fluid nuclei/universes collide. The ring-like features are remnants or artifacts of large-scale ejection events or tethering, particularly with present observed interior properties. An early universe would produce very large ejection-type oscillations.

The discovery of big hole events indicates ongoing fluid dynamic phases and resonances, which play a major role in the morphology of the observable universe, also likely to be primary sources of ultrahigh-energy cosmic rays beyond typical background radiation (White Paper on Ultra-High Energy Cosmic Rays) and solutions for Cosmology's Missing Mass Problem.

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