This new version 3. 0, incorporates Appendix E: Mathematical Formalization of the Bilobular Collision Model, which transforms the BCM’s conceptual framework into a quantitative and falsifiable cosmological theory. The appendix develops the Bianchi Type I metric as the spacetime geometry, the relativistic collision dynamics, the anisotropic Hubble law H (θ) = H₀1 + α cos²θ as a natural explanation for the Hubble Tension, the reinterpretation of dark matter as a black hole population and dark energy as a geometric artifact, the ~200 Gyr cosmological cycle with entropic balance, and six quantitative falsifiable observational predictions testable with JWST, DESI, Euclid, the Roman Telescope, and LISA within the next 2 to 15 years. The entire framework rests exclusively on established physics, introducing no undetected exotic entities. Spanish version: https: //doi. org/10. 5281/zenodo. 18319877 - https: //doi. org/10. 5281/zenodo. 18832782 As a fundamental extension of the concepts presented herein, we highly recommend consulting the study on galaxy rejuvenation, available at: https: //doi. org/10. 5281/zenodo. 19415813. This subsequent work delves deeper into the practical implications of the current model. We present a comprehensive alternative to ΛCDM cosmology based on the collision of two ultra-massive black holes (~0. 4 Mₒbs each) at relativistic velocity (v ≈ 0. 99c) approximately 13. 8 billion years ago. This Bilobular Collision Model eliminates the need for dark matter particles, dark energy fields, and cosmic inflation while naturally explaining seven major anomalies in standard cosmology: (1) JWST observations of massive, mature galaxies at z > 10; (2) the "Axis of Evil" alignment in CMB multipoles; (3) Hubble tension in expansion rate measurements; (4) universal rotation signals in galaxy spin distributions; (5) apparent "acceleration" of expansion without dark energy; (6) large-scale structures exceeding theoretical limits (Big Ring, Giant Arc) ; and (7) correlation between multiple directional anomalies pointing to RA ~170-180°, Dec ~-10°. The model proposes that the observable universe represents the "blast zone" of a single collision event in an eternal, infinite Universe, creating a toroidal (bilobular) expansion rather than spherically symmetric expansion. Matter distribution exhibits cylindrical symmetry around the collision axis, with dark matter consisting of black holes (stellar to intermediate mass) rather than exotic particles, and apparent "dark energy" arising as a geometric artifact when spherical models are incorrectly applied to bilobular data. We present ten falsifiable predictions testable within 5-10 years using current or near-future instruments (Roman Space Telescope, DESI, Euclid, JWST, LISA), including: directional variation in Hubble constant (10-15% amplitude), detection of 10-100 IMBH microlensing events per year, cylindrical symmetry in 3D galaxy distribution, and high metallicity (Z > 0. 1 Z☉) in z > 10 galaxies. The model provides a complete cosmological framework using only known physics (general relativity, black holes, conservation laws) without invoking undetected particles or fields, offering a testable alternative to the standard paradigm that has consumed 23+ billion in searches yielding zero confirmations. As an independent researcher, I welcome collaboration with members of the scientific community who find value in this work. Researchers registered as arXiv endorsers in Geophysics (physics. geo-ph), Astrophysics (astro-ph. EP), or related fields who are willing to support submission of this paper to arXiv are invited to contactthe author at founder@humansp. org. https: //orcid. org/0009-0006-1089-9023 Analogy with the Simulation of Droplet Collision: Intuitive Explanation of Radial VelocityTo understand why more distant galaxies recede at higher speeds, let's consider the simulation of two liquid droplets colliding at high speed. This fluid dynamics experiment provides the best visual analogy for our model: When two droplets collide head-on: 1. At the impact center: The material is compressed, generating a shock wave. 2. Radial expansion: The material is ejected outward in all directions. 3. Velocity gradient: Particles farther from the center travel faster than those closer to the center. 4. Toroidal structure: A characteristic ring/donut-shaped pattern is formed. Why do the outer particles move faster? Due to conservation of energy and momentum: • The material at the outer edge received the full initial momentum of the collision. • It has not experienced as many dissipative interactions. • It continues its ballistic trajectory with a velocity close to the initial velocity. While the material near the center: • Has undergone multiple collisions and scattering events. • Has dissipated kinetic energy in the form of heat and radiation. • Moves more slowly. Direct Cosmological Connection: This dynamic naturally explains Hubble's observation (v = H₀ × d): • Nearby galaxies (near the collision center): low velocities (~100-500 km/s) • Intermediate galaxies (z ~ 1-2): moderate velocities (~100, 000 km/s) • Distant galaxies (z > 6): ultra-high velocities (>0. 95c) We do NOT need to invoke: • Expansion of space itself• Dark energy• Cosmic inflationWe only need: Classical collision physics + 13. 8 billion years of ballistic propagation. My theory published in 2011: https: //www. youtube. com/watch? v=d2J84W0PVvg Suplemento to: Deep Impacts of Asteroids or Comets with Metallic Cores that Penetrate the Earth: https: //doi. org/10. 5281/zenodo. 18204600 https: //orcid. org/0009-0006-1089-9023. Contact: founder@humansp. org Part of the Proyecto A. D. A. (Architecture of Survival) series - Preprint 20. A chapter of: Survival Architecture: https: //play. google. com/store/books/details? id=epWgEQAAQBAJ Arquitectura de la supervivencia: https: //play. google. com/store/books/details/AlejandroD%C3%ADazAldanaArquitecturadeₗaSupervive? id=DpCgEQAAQBAJ
Aldana et al. (Thu,) studied this question.