The economics of Humanity living in a galactic bubble is interesting.
Former White House Lead Communications Engineer, U.S. Dept of State, and Joint Chiefs of Staff in the Pentagon.
Could Our Universe Be Trapped Inside a Black Hole? A New Study Raises the Possibility A Kansas State University researcher, analyzing data from NASA’s James Webb Space Telescope (JWST), has uncovered a puzzling asymmetry in galaxy rotation—a finding that could challenge our understanding of the cosmos. The study, published in the Monthly Notices of the Royal Astronomical Society, suggests that the universe may not be randomly structured, but instead exhibits a fundamental rotational bias that could support the theory that our universe is trapped inside a black hole. The Mysterious Galaxy Rotation Imbalance Computer scientist Lior Shamir examined 263 galaxies observed in JWST’s Advanced Deep Extragalactic Survey (JADES) and found that: ? Two-thirds of galaxies rotate clockwise ? Only one-third rotate counterclockwise This contradicts the widely accepted assumption that galaxy rotations should be evenly distributed. The unexpected imbalance suggests that the universe itself may have been born with an inherent rotation—a concept that aligns with certain black hole cosmology theories. The Black Hole Cosmology Hypothesis One potential explanation is “Schwarzschild cosmology”, a model that proposes: ? Our universe exists inside a black hole, forming a nested, Russian-doll-like structure. ? The black hole’s event horizon acts as a boundary, separating our observable universe from the external cosmos. ? The universe’s rotation could be a direct consequence of the black hole’s own spin, influencing galaxy formation and structure at a cosmic scale. The Bigger Picture While far from conclusive, these findings raise deep questions about the nature of our universe. If the cosmos itself exhibits a built-in rotation, it could suggest that our universe’s origins—and its ultimate fate—are tied to a larger, higher-dimensional reality beyond our current understanding. Whether this is a coincidence, an observational bias, or evidence of a deeper cosmic structure, Shamir’s research opens new possibilities for exploring the fundamental nature of space-time—and whether the universe as we know it is simply a small pocket within an even greater cosmic entity.