Are we in a black hole? Physicists say weird galaxy movements suggest this is possible
According to a monthly notice from the Royal Astronomical Society, an analysis of Weber's imagery may indicate that we are all trapped in a black hole.
“The main finding of this study is that, as can be seen from Earth, the vast majority of galaxies in the universe are spinning in the same direction,” explained Lior Shamir, an astronomer at Kansas State University and the study's lead author. “This adds another observation, unlike existing current cosmological models.”
Over the years, the cosmological model currently called Lambda CDM (a brief for cold dark matter) has faced many stress tests. Such tests suggest that if the universe is circular, data from the retired Planck satellite could be better explained.
Shamir added that it is becoming increasingly clear that “Lambda CDM is at least incomplete”. “Perhaps the advantage of this observation is that just by looking at images of the early universe, anyone can easily see it.”
Shamir's study examined the Advanced Deep Outer Level Survey of Weber Telescope or 263 galaxies in Jades. He found that about two-thirds of the galaxies rotate clockwise, while only one-third rotates in the opposite direction. Despite the detection of motion numerically, Shamir said Weber's keen vision makes it possible to visually determine the direction of rotation of each galaxy.
“I think that because of the movement of these galaxies relative to the Milky Way, these galaxies are moving the opposite of the rotation of the Milky Way relative to the Milky Way,” Shamir said. “The action makes them brighter, which is why we see more movements. But I might be wrong, in this case, the real universe has more galaxies that can rotate in the same direction.”
Shamir explains that black holes are born to rotate, so there may be more black holes spinning clockwise. This is considered a clue that our universe itself may be located in a black hole.
We think of black holes as regions of space-time, with such strong gravity that even light cannot exceed a certain boundary, called the range of events. Apart from this, dense packaging inside the black hole is still invisible, hence its name. However, some theoretical black holes can be considered as observers that expand infinitely into them while maintaining static, finite sizes on external observers.
Therefore, it is also possible that the baby universe can live outside our own spheres, beyond our perceptions and the larger universe. In this way, our universe can also simply be located in a larger, uh, black hole in the universe, thus challenging the word “universe” and introducing the entire multiverse concept. The idea is not new, but the study of the Milky Way's rotation shows another evidence that it is almost certain that the universe attracts our eyes more than in the form of light.
However, there is another possibility that the unbalanced split of the Milky Way's rotation is: the galaxy's own rotation speed has an impact on the team's measurements. More observations can eliminate the differences.
Meanwhile, Jades is expected to develop more insights into the distant universe. In 2023, astronomers think they might have discovered stars powered by dark matter in Jades images, and last year, the project discovered the most distant galaxy to date (which is strange). It can be said that Jades will provide more mysteries for more mysteries before we get the full answer.
