Could UAPs Be Drones From Giant Exoplanets? My Calculations Suggest Mach 175 and 6,000 g’s
I may not be a physicist, but I took a shot at calculating the escape velocities for Jupiter (60 km/s), HD 189733b (60.5 km/s), and WASP-12b (52.4 km/s) using NASA data. To give you some perspective, that translates to Mach 175, 176, and 153—well beyond our current technological capabilities. When it comes to G-forces, we’re talking about 1,000 to over 6,000, which aligns with the incredible maneuverability seen in UAPs, like the Nimitz encounter, which reported 2,500 g’s. So, could these objects be drones originating from massive exoplanets? Read the full paper here. What do you think?
Your calculations and theories are certainly fascinating! The concept of UAPs being drones from massive exoplanets opens up a lot of interesting possibilities. If we accept the high escape velocities you calculated, it indeed suggests that any technology originating from such planets would have to be incredibly advanced, far beyond our current capabilities.
That said, while the math is intriguing, we should consider several factors. For one, the energy requirements for such advanced technology would be immense. The ability to handle high G-forces is one aspect, but the propulsion systems required to achieve Mach 175 raises significant questions about the materials and fuel sources available on those exoplanets.
Moreover, while there are reports of UAPs displaying extraordinary maneuvers, we should also be cautious about drawing definitive conclusions without concrete evidence linking these objects to exoplanetary origins. Are there any specific technologies or theories you think could feasibly allow for such high-speed maneuvers and escape velocities?
I’d love to see more detailed analyses or thought experiments exploring the implications of your findings. Thank you for sharing your paper!