Michio Kaku Breaks Silence On James Webb Telescope’s Shocking New Image!May 11, 2023
Renowned theoretical physicist Michio Kaku has just shared a
shockingdiscovery made by the James Webb Space Telescope. NASA's multi-billion dollar
telescopehas just detected six giant galaxies, each roughly the size of our own Milky Way. A group of galaxies from the early universe that are so massive they shouldn't exist. The six gigantic galaxies, which contain nearly as many stars as the Milky Way despite forming only 500 million to 700 million years after the Big Bang, have been dubbed "universe breakers" by the team of astronomers that detected them. That's because, if they are real, the discovery casts doubt on our entire understanding of galaxy formation. “The early universe is not expected to be able to organize itself so quickly.
In theory, these galaxies should not have had time to form." Erica Nelson, an assistant professor of astrophysics at the University of Colorado Boulder and one of the researchers who helped make the discovery, in a statement. While scientists don't know exactly when the first groups of stars began to merge in the early galaxies we see today, cosmologists have previously estimated that the process slowly began to take shape within the first few hundred million years after the cosmos. Big Bang. Currently accepted theories suggest that between 1 and 2 billion years into the lifetime of the universe, these early protogalaxies reached adolescence and became dwarf galaxies that began to devour each other to become galaxies like our Milky Way.
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michio kaku breaks silence on james webb telescope s shocking new image...
Because light travels at a fixed speed through the vacuum of space, the deeper we look into the universe, the more remote light we can intercept, and the further back in time we see. Using the James Webb Space Telescope to peer roughly 13.5 billion years into the past, astronomers found that huge galaxies had already sprung to life very quickly after the Big Bang, when the universe was just 3% of its current age. This forces us to rethink everything we know. The galaxies are so massive that they are "in tension with 99 percent of cosmology models." This means that models will need to be modified or that scientific understanding of galaxy formation requires a fundamental rethink.
Either way, it's a
shockingdiscovery from James Webb, once again. The Milky Way forms about one or two new stars each year. These galaxies would have to be forming hundreds of new stars a year for the entire history of the universe. If even one of these galaxies is real, it will push the limits of our understanding of cosmology. Right now, all the evidence points to these celestial objects being galaxies, but astronomers have not ruled out that some of them could be huge quasars or supermassive black holes. Regardless of that, the amount of mass discovered means that the known mass in stars in this period of our universe is up to 100 times greater than previously thought to exist.
Even if the sample size is halved, this is still a staggering change. Previous
images of the early universe by the Hubble Space Telescope did not detect the giant galaxies, but JWST is about 100 times more powerful than Hubble. The space observatory was designed to read the first chapters of the universe's history in its faintest glimmers of light, and it has been delivering on its promise since launch. This is not the first time that James Webb has forced us to rethink our understanding of the cosmos. Just last year, he made a groundbreaking discovery about the Big Bang theory.
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