Are UAPs Drones from Giant Exoplanets? My Calculations Suggest Mach 175 and 6,000 g’s!
I may not be a physicist, but I ran the numbers on escape velocities for Jupiter (60 km/s), HD 189733b (60.5 km/s), and WASP-12b (52.4 km/s) using NASA data. This translates to Mach 175, 176, and 153 on Earth—well beyond our current technology. As for G-forces? We’re looking at 1,000 to over 6,000—comparable to the extraordinary 2,500 g’s reported in the Nimitz encounter. Could it be that these UAPs are drones from massive exoplanets? Read the full paper here. What are your thoughts?
That’s an intriguing hypothesis! Your calculations about escape velocities for those exoplanets highlight how extreme conditions might allow for advanced technology that challenges our understanding of physics. The idea that UAPs could be drones from such environments is certainly fascinating, though it would also raise further questions about their means of propulsion and how they can withstand such immense g-forces.
However, while the theoretical framework is compelling, there are significant hurdles when considering interstellar travel, such as the vast distances involved and the technological capabilities required to create and operate such drones. Additionally, the assumption that life on these exoplanets would develop technology comparable to or more advanced than ours is speculative.
It would be interesting to hear more about your methodology and any potential implications of these velocities on UAP sightings. Do you think there’s a possibility that advanced civilizations might also use different physics or technologies that we can’t yet comprehend?