"Astronomers using the James Webb Space Telescope have recently confirmed that two galaxies are extremely distant, with one becoming the new record holder as the most distant galaxy from Earth. The new record-holding galaxy is designated as JADES-GS-z14-0.... this galaxy existed just 290 million years after the supposed Big Bang, yet it looks too mature for its age.
The previous record holder was galaxy JADES-GS-z13-0, with a presumed age of just 320 million years after the Big Bang. Because Big Bang proponents think the most distant galaxies emitted their light more than 13 billion years ago, they think we are seeing these galaxies, not as they are today, but as they were shortly after the Big Bang. Because naturalistic star and galaxy formation scenarios require hundreds of millions of years, they think these galaxies should appear “immature” and “unevolved.” But this Big Bang expectation has been repeatedly contradicted, with very distant galaxies often appearing mature, like JADES-GS-z14-0.
To make matters worse, astronomers detected oxygen in JADES-GS-z14-0. Big Bang astronomers believe the first generation of stars, designated as Population III stars, contained almost no elements heavier than hydrogen and helium. They think heavier elements like oxygen were present in later generations of stars. The presence of “significant” amounts of oxygen suggests that, by Big Bang reasoning, multiple generations of stars preceded the existence of JADES-GS-z14-0 as we now see it.
To make matters worse, astronomers detected oxygen in JADES-GS-z14-0. Big Bang astronomers believe the first generation of stars, designated as Population III stars, contained almost no elements heavier than hydrogen and helium. They think heavier elements like oxygen were present in later generations of stars. The presence of “significant” amounts of oxygen suggests that, by Big Bang reasoning, multiple generations of stars preceded the existence of JADES-GS-z14-0 as we now see it.
Webb telescope astronomers were quoted as saying, “The presence of oxygen so early in the life of this galaxy is a surprise and suggests that multiple generations of very massive stars had already lived their lives before we observed the galaxy.”
The researchers were quoted as asking, “This starlight implies that the galaxy is several hundreds of millions of times the mass of the sun!...How can nature make such a bright, massive, and large galaxy in less than 300 million years?”
The researchers were quoted as asking, “This starlight implies that the galaxy is several hundreds of millions of times the mass of the sun!...How can nature make such a bright, massive, and large galaxy in less than 300 million years?”
ICR
