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Galaxy formation from the outside Standard model * 1 Big Bang (expansion) 2 growth of fluctuations (gravity) ° 3 galaxy formation a (compression of the core) Y Mg tN sis e 7a tA p PAZ PARRNSNS NANA It is unclear how primordial fluctuations are able to form ina homogeneous environment and how a shapeless fluctuation without specific dynamics can become a flat, stable and rotating galaxy. Figure 97 homogeneous environment and how a shapeless fluctuation without specific dynamics can become a flat, stable and rotating galaxy. active. The galaxy is formed on the subatomic rotation plane of its core. In other words, each galactic structure has its own gradual Big Bang! The galaxy is formed from a ST fractal adjusting to the vacuum of a Bose-Einstein condensate (the central black hole of a galaxy). This vacuum is actually an imperceptible ST fractal, for time passes too fast from our perspective. This fractal is the source of consider- able, but non-measurable energy that transmits some of itself to its environment. Therefore, we see the world turned upside down. Matter is not compressed by gravity to create a core. It is the vacuity of the core that unfolds to create a galaxy and to create gravity. The cosmic dynamics has to be adjusted to absolute relativity. We should thank all the anom- alies that undermine the standard cosmological model, such as a uni- verse that is younger than the stars in it.'° More in general, the fractality of the universe becomes more tangible as space and time scales, both in the infinitely small and the infinitely large, are farther away from ours. This means that these first clues will compel scientists to completely review their equations and the interpretation they give to their observations. The sharpest readers will immediately grasp the 296 The Science of Extraterrestrials: UFOs Explained at Last * Eric Julien Galaxy formation from the outside Standard model 2 growth of fluctuations (gravity)