It is proposed that Yangton and Yington Bubbles are the building blocks of Space and Wu’s Pairs are the building blocks of Matter. It is also believed that not only Corresponding Spaces can be generated with Yangton and Yington Bubbles and Wu’s Pairs, but also Corresponding Energy can be generated by the interaction between Force of Creation and the Corresponding Spaces created by Yangton and Yington Bubbles and Wu’s Pairs. In addition, Time reflects the changes of distribution of energy and motion of matter. As a result, four elements of the universe: Space, Time, Energy and Matter can all be naturally created at the same time with Yangton and Yington particles and Force of Creation based on the Space and Energy Correlated Five Principles of The Universe of Yangton and Yington Theory.
Furthermore, based on Aging Affected Wu’s Spacetime Shrinkage Theory and Cosmological Redshift, it is proposed that there might be two Singularities and Big Bang Explosions occurred in the history of our universe, which can interpret why some galaxies observed by JMST have redshift corresponding to 26.7 billion years age rather than 13.8 billion years old.
In addition, Composed Of Yangton And Yington Particles, Even Only Frequently Exist, Yangton And Yington Bubbles Are Considered As Half Of Wu’s Pairs With 50% Of The Mass. Also, As The Building Blocks Of Space, Yangton And Yington Bubbles Exist Everywhere In The Universe. Therefore, It Is Believed That Yangton And Yington Bubbles And Dark Matter Are The Same Thing Which Interprets The Properties Of Dark Matter And Also Gives An Indirect Proof To Its Existence.
On the other hand, the Corresponding Energy co-generated with the Corresponding Space in both Yangton and Yington Bubbles and Wu's Pairs can be considered as Dark Energy. However, it is bonded with Corresponding Space and cannot be used as the driving force for expansion of the universe.
Its ability to analyze the atmospheres of exoplanets will certainly raise questions about the possibility of life elsewhere (though frankly, I suspect that at least some kind of primitive lifeforms are nearly as common as planets), and theories about the early development of the Universe (particularly the formation of the earliest stars and galaxies) will be created (and almost as often broken) much more frequently than before. Whether any clues to what dark matter is can be determined by any telescope currently existing is another matter; whatever it is, and whether it is some kind of more or less normal matter in difficult-to-observe forms or something beyond our wildest imagination, probably won't be solved anytime soon, regardless of the tools used to look for it.
Thanks Courtney and Edwards...I appreciate your input to this question...
Deep space observations of the JWST have revealed that the structure and masses of very early Universe galaxies at high redshifts (z ≈ 15), existing at about 300 million years after the Big Bang, may be as evolved as the galaxies in existence for about 10 billion years after the Big Bang. This discovery has raised several serious questions challenging the Big Bang Theory such as: Is the universe started long before 13.8 billion years ago? Is there another Big Bang Explosion beside the one 13.8 billion years ago? Did the other Big Bang Explosion happen before or after 13.8 billion years ago? Are the redshifts of those early galaxies found by JWST observed on earth meaningful, since they are formed in different Big Bang Explosion? Also, how about Hubble’s Law? If not, how can we tell the ages of those early galaxies found by JWST?
One possible answer to this new discovery is Multibang Theory based on Yangton and Yington Theory. In the attached paper, a mature galaxy in an ancient Big Bang that is generated long before 13.8B years ago with a large starting Wu’s Unit Length (and wavelength), is proposed which has the same wavelength as that of the high redshifts existing 300M years after Big Bang Explosion (or 13.5B years before present) in the Big Bang where earth was born.
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