What If Interstellar Wasn’t Just a Movie? NASA’s Shocking Data Suggests We May Be Inside a Black Hole

In Christopher Nolan’s Interstellar, astronauts venture through a wormhole and explore worlds near a supermassive black hole. It seemed like pure science fiction. Yet recent NASA data hints this mind-bending idea may not be far from reality. New research has sparked fresh debate in the scientific community. Some scientists now suggest our entire universe might exist inside a black hole.

NASA’s New Data Reveals Shocking Galaxy Rotation Patterns

A new study led by Lior Shamir, an associate professor of computer science at Kansas State University, has uncovered a strange cosmic pattern. This finding is stirring questions about the very structure of our universe.

Using data from NASA’s James Webb Space Telescope (JWST), Shamir’s team examined 263 galaxies. They found an unexpected imbalance. Out of these galaxies, 158 rotated clockwise, while only 105 rotated counterclockwise.

This discovery is surprising. According to the long-held principle of isotropy, galaxies should spin randomly in both directions, balancing each other out. The fact that such a significant imbalance was detected challenges this assumption. It suggests that something far stranger could be happening.

Could We Be Living Inside a Black Hole? The Science Explained

One theory that aligns with these findings is Black Hole Cosmology. This bold idea suggests our entire universe exists inside a black hole formed in a much larger parent universe.

In this theory, the Big Bang is not the origin of everything. Instead, it is the moment our universe emerged from a collapsing star in another universe. The boundary of this black hole, known as the event horizon, could be what we perceive as the outer limits of the observable universe.

Some scientists believe that black holes within our universe may be gateways to other universes, forming an infinite web of interconnected realities. This concept could explain the multiverse theory.

Lior Shamir’s findings provide indirect evidence for this theory. According to Shamir, the unexpected galaxy rotation patterns might be a clue that our universe was born spinning.

If true, this rotation could indicate that we are trapped within a rotating black hole. Space and time may behave in strange, twisted ways inside this cosmic structure.

Why Rotation Patterns Matter

Shamir’s study builds on past observations. However, JWST’s incredible imaging capabilities have provided more detailed evidence than ever before. The telescope’s deep-field data shows that galaxy rotation patterns become more uneven as we look deeper into space. This suggests the imbalance is not random. It may have roots in the early structure of the universe itself.

Interestingly, similar findings were noticed in earlier observations with the Hubble Space Telescope and some Earth-based telescopes. Yet JWST’s powerful imaging capabilities have made this asymmetry far clearer. In some cases, it is even visible to the human eye.

A New Cosmic Mystery: The Hubble Tension

Shamir also highlights that these rotational patterns could have profound implications for other unresolved cosmic puzzles. One major concern in cosmology is the Hubble Tension, a growing discrepancy between two methods of measuring the universe’s expansion rate.

If the JWST data reveals that galaxy rotation patterns influence our understanding of cosmic distances, it could change a lot. Astronomers may have been misinterpreting certain measurements for decades. This recalibration could also explain why some galaxies appear older than the universe itself, a paradox that continues to puzzle scientists.

Why Scientists Are Recalculating Cosmic Distance Measurements

While Shamir’s findings are compelling, they remain controversial. Some researchers suggest the galaxy imbalance might have a simpler explanation. The Milky Way’s own rotation or the orientation of galaxies relative to Earth could be factors. Others argue the data may reflect measurement biases rather than fundamental cosmic truths.

Yet the scale of the observed pattern makes these explanations harder to accept.

This anomaly, paired with JWST’s remarkable data quality, has pushed scientists to reconsider the broader implications of galaxy formation. It has even made some rethink the true nature of the universe.

Interstellar: Science Fiction Meets Scientific Reality

The idea that black holes could connect different universes is not new. In Interstellar, astronauts navigate the strange gravitational forces of a black hole. Time behaves unpredictably, and space twists in mind-bending ways. While the movie added a cinematic flair, its core science, based on Einstein’s theories of relativity, remains grounded in reality.

If Shamir’s findings support the black hole cosmology model, it suggests these mind-bending distortions may not just exist in distant corners of space. They may be fundamental to the universe we live in.

The Big Question: What Comes Next?

For now, the evidence supporting black hole cosmology is intriguing but incomplete. Shamir’s study introduces compelling clues. However, confirmation will require further data and deeper exploration of the universe’s farthest reaches.

Future JWST observations may hold the key to unlocking this cosmic puzzle. If Shamir’s theory holds, we may discover that black holes are not cosmic endpoints. They could be portals to entirely new universes.

Perhaps Interstellar was not just a movie. It may have been a glimpse into a reality we are only now beginning to understand.