Scientist Presents Evidence That Our Universe May Be Inside A Black Hole
Well, that explains a lot about the world today...
Two-thirds of the galaxies in a brand-new JWST survey appear to spin the same way, and that tiny cosmic quirk is lighting up big debates about where our universe even sits. Instead of the expected near-even split between clockwise and counterclockwise rotation, the numbers tilt hard. Shamir’s paper, “The Distribution of Galaxy Rotation in JWST Advanced Deep Extragalactic Survey,” doesn’t just raise an eyebrow, it practically yells that something unusual is happening on a galactic scale.
If that imbalance is real, the next step gets weird fast, because it points toward a universe that could be nested inside a black hole.
Recent evidence suggests our universe may reside within a black hole.
While analyzing images from the JWST’s Advanced Deep Extragalactic Survey (JADES), Lior Shamir, an associate professor of computer science at Kansas State University, made a discovery that challenges the status quo. Shamir has been examining the rotation of galaxies captured in the survey and noticed an unexpected trend.
In a sample of 263 galaxies, he found that roughly two-thirds were rotating in a clockwise direction, while only about one-third rotated counterclockwise. Under normal circumstances, the number of galaxies spinning one way should be roughly equal to those spinning in the opposite direction.
This imbalance, clear even to a casual observer looking at the images, raises intriguing questions about the fundamental nature of our universe.
“There’s nothing subtle about it,” Shamir remarked. “Any person can see that the numbers don’t match up, which suggests that something very unusual is happening on a cosmic scale.” His comments, featured in the paper titled “The Distribution of Galaxy Rotation in JWST Advanced Deep Extragalactic Survey,” published in the Monthly Notices of the Royal Astronomical Society, have added fuel to the debate.
NASA
A scientist has urged astronomers to recalibrate distance measurements across the Milky Way.
Shamir offers two potential explanations for this unexpected phenomenon. The first possibility is that the universe itself was born with a spin. In this scenario, the imbalance in galaxy rotation could be a remnant of an original rotation present at the moment of the universe’s birth. This idea is closely linked to theories of black hole cosmology, which propose that our universe might be the inner region of a massive black hole.
According to these theories, the rotational momentum of the parent black hole could have been passed on to the galaxies that emerged within it. If this line of reasoning is correct, then the conventional models of cosmology would need significant adjustments, as they currently do not account for a rotating universe on such a large scale.
NASA
Shamir spots the mismatch in JADES, and suddenly the universe feels less like a neat model and more like a crime scene.</p>
The “born with a spin” idea starts to sound less like a theory and more like a leftover fingerprint from the universe’s earliest moments.</p>
The second possibility involves the relative motion of our own Milky Way galaxy. Shamir points out that the movement of our galaxy could be causing a bias in the way we observe other galaxies. Specifically, due to the Doppler Shift—a phenomenon where the light from objects moving toward us appears brighter—galaxies rotating in one direction might be more visible than those rotating in the other.
“The brightness difference could simply be an optical effect, a consequence of our own motion in space,” Shamir explained. However, he also noted that if this were not the case, then the imbalance in rotation directions must be real, pointing to a deeper, more fundamental property of the universe.
It brings to mind the woman whose neighbor got his car towed, and her husband thinks she crossed the line.
Shamir’s findings have led him to call for a reevaluation of how we measure cosmic distances and interpret rotational data from galaxies.
It remains to be seen whether our universe is indeed confined within a black hole or whether the peculiar rotation of galaxies is an observational artifact.
As research continues and more data becomes available, we may be on the verge of a major paradigm shift in cosmology—one that could reshape our understanding of the very fabric of reality.
If the parent black hole passed rotational momentum into what formed inside it, then recalibrating how we measure distances across the Milky Way stops being optional.</p>
Rethinking Cosmology
Now the same clockwise bias that looks obvious in the images is getting treated like a clue for black hole cosmology, not a random glitch.</p>
Practical Implications for Science
The suggestion that our universe could be situated within a black hole represents a profound challenge to conventional scientific thinking. This radical theory invites a reevaluation of fundamental concepts about the cosmos and its structure. The implications of such a notion extend beyond theoretical physics; they pave the way for new research initiatives that could deepen our understanding of the universe.
Moreover, this idea highlights the importance of fostering interdisciplinary collaboration in scientific inquiry. By encouraging curiosity and innovative thinking in education, we can inspire the next generation of scientists to explore these complex and intriguing possibilities. Engaging with such groundbreaking ideas not only enhances our comprehension of the cosmos but also ignites the imaginations of those who will seek to unlock its secrets in the future.
He’s staring at a galaxy spin pattern that might be telling us our whole universe is trapped inside something bigger.
For another tense family standoff, see if you’re the AITA for refusing sister’s wedding costs.
Damjan
