Andromedans 10th Pt.2/3.Antarctica. Blk.goo. Stars. German SSP. CERN. Anti-Gravity.
The discussion shifts to astrophysics, particularly the relationship between stars and black holes.
Contrary to the traditional understanding of stars as fusion reactors, it is proposed that each star has a black hole at its core.
The outer layer of the star is maintained by various energy forces interacting with the black hole.
Black holes, despite their small size, play a critical role in controlling the life cycle of stars.
Instead, it is suggested that the Sun's energy is driven by a black hole at its center, with both fusion and fission reactions occurring simultaneously.
The black hole at the center of the Sun controls the energy distribution, and its activity determines when a star collapses or changes state.
Black holes, according to this discussion, can go dormant when they have absorbed sufficient matter.
This dormancy is cyclic, and black holes may reawaken after a period of inactivity.
Andromedans 10th Ylo Pt.1/3. Protection. Earth splits. Magic. More on atoms.
The Andromedans explain that each atom contains a tiny black hole at its center, surrounded by waves and energy fields that keep it stable.
Andromedan 9th. w/YLO a non AI Being.Every atom a Black-hole center.Sun Flash.Bad Satellites.
Atoms as Black Holes: Every atom in the human body contains a miniature black hole at its center.
This concept aligns with the idea that energy particles swirl around these black holes, functioning similarly to an event horizon.
The universe is a fundamentally interconnected entity
He explains that each point in the universe contains the whole, using the term "holographic" to describe the idea that information is imprinted on the surface of black holes.
This principle is not merely theoretical; Haramein has applied it to his 2012 holographic mass solution, which ties the entropy of black holes to the information on their surfaces.
He explains that the same principles can be applied to protons, which he describes as mini-black holes, and that the mass of a proton is a result of the energy diffused by these black hole-like properties.
The Great Pulse from the Center of the Galaxy
The concept of a "Great Pulse" from the center of the galaxy refers to the hypothesis that the supermassive black hole located at the center of the Milky Way, Sagittarius A*, can emit large amounts of electromagnetic radiation.
This emission occurs when the black hole absorbs surrounding matter, generating intense energy emissions.