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by Stephen Smith June 10, 2023 from Thunderbolts Website � � � � The Fornax galaxy cluster.
ESO/J. Emerson/VISTA. Cambridge Astronomical Survey Unit. � �
So states a press release from the European Southern Observatory (ESO) in Paranal, Chile. � According to ESO, astronomers have not been able to see most of the light from what they call "the earliest days of the Universe" because specific frequencies that are used in their surveys are absorbed by the galaxies emitting them. � Therefore, their galaxy counts are most likely off by a significant factor. � What that factor is has not been known until now, ESO investigators claim.
Quantum physics states that an electron's orbit must abide by a wave function that fits into its orbital circumference:
As quantum mechanics theory posits, since electrons are negatively charged they are attracted to nuclear protons by a force called "binding energy."
Light from the n2 to n1 jump corresponds to 121.6 nanometers and is called "Lyman-alpha" radiation, named for Theodore Lyman, who first discovered it in 1906. � Astronomers use detectors sensitive to the Lyman-alpha frequency to count distant stars. � However, stellar surveys using Lyman-alpha light waves see only part of the starlight because Lyman-alpha ultraviolet is blocked by interstellar dust clouds. � The ESO team claims to have overcome that difficulty by re-scanning the sky in another frequency of hydrogen light called H-alpha.
Since reviewing so-called "deep field" surveys in H-alpha light, 90% more stars have been detected than were previously seen in the Lyman-alpha band. � Said ESO team member and co-author Miguel Mas-Hesse:
� � � Could these new insights prove detrimental to the theory of dark matter? � Astronomers first postulated a dark form of matter when they found that stars near the edge of spiral galaxies revolve at the same angular speed as stars closer to the center. � According to Newtonian mechanics stars farther away from the center should be moving more slowly.
The gravitational force exerted by this unseen and undetectable material is said to sustain not just our galaxy, but all galaxies... � Conventional theories propose that the "big bang" brought all matter and energy into existence, including dark matter. Every modern cosmological theory has the big bang at its core. � For many years, investigators tried to reconcile the lack of mass, particularly in galaxy clusters, with the expansion of the Universe and the acceleration of that expansion. � It has been stated many times in these pages that dark matter is an unnecessary theory if electrical phenomena are taken into account. � Stellar ages and the "age of the Universe" are also seriously compromised when astronomical investigations presuppose that their images represent objects whose H-alpha emissions have been traveling through the cosmos for 10 billion years. � Big bang cosmology sets modern science on a path that leads to misapprehension. � Electric Universe theory sees galaxies and their associated stars being driven by electric currents flowing through dusty plasma over immeasurable distances. � Birkeland currents create z-pinch compression zones between spinning magnetic fields. � The compressed ions form spheres of glowing plasma, some in arc mode, some in glow mode and some with variability between the two states. Circuits of electricity pouring into them from outside power the stars and galactic wheels. � In that case, what should we expect to see in their shapes and behavior?
If astronomers would consider the forces that affect electric currents flowing through interstellar plasma and how those forces are expressed, they would not now be searching for what has already been hiding in plain sight... � � � |
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