A recent discovery by a researcher suggests that our entire universe might be contained within a black hole. This finding comes from Lior Shamir, an associate professor of computer science at Kansas State University, who analyzed data from NASA's James Webb Space Telescope. While examining the Advanced Deep Extragalactic Survey (JADES) images, Shamir discovered that out of 263 galaxies studied, about two-thirds rotated clockwise, while just one-third spun counterclockwise. This is surprising because it's generally assumed that galaxies would have an equal distribution of rotation directions.
Shamir proposes two main explanations for this phenomenon. One is that the universe might have been born rotating, which aligns with theories like black hole cosmology. This theory suggests that the entire universe could be the interior of a black hole.
These findings lend support to "Schwarzschild cosmology," a theory likening our universe to a Russian doll, where our galaxy is within a black hole inside another universe. If true, this could mean other black holes are wormholes, or Einstein-Rosen bridges, leading to other universes that we can't observe because these black holes trap light.
Theoretical physicist Nikodem Poplawski, who supports the notion of universes connected by such doorways, explains that a rotating universe could inherit its rotation from a parent black hole's axis, affecting galaxy rotation patterns and causing the observed asymmetry.
The implications of these findings are significant, but Shamir notes that the rotation of our own Milky Way might also have influenced how we observe these galaxies. As the Earth moves around the Milky Way's center, galaxies spinning in the opposite direction might appear brighter, contributing to the observed discrepancy.
This suggests our celestial measurements might be influenced by the Milky Way's rotation speed, prompting a potential need to recalibrate deep-space distance measurements. Such recalibration could resolve several existing cosmological questions, like variations in the universe's expansion rates and why some galaxies' ages seem inconsistent with current distance measurements.
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