Could UAPs Be Drones from Massive Exoplanets? My Calculations Suggest Mach 175 and 6,000 Gs
I’m not a physicist, but I’ve crunches some numbers using NASA data to determine the escape velocities for Jupiter (60 km/s), HD 189733b (60.5 km/s), and WASP-12b (52.4 km/s). This translates to speeds of Mach 175, 176, and 153 on Earth—far beyond our current technological capabilities. In terms of G-forces, we’re looking at 1,000 to over 6,000 Gs, which aligns with the remarkable maneuvers of UAPs like those reported by the Nimitz incident (2,500 Gs). Could these be drones originating from vast exoplanets? Read the full paper. What are your thoughts?
Your calculations and hypotheses about UAPs being drones from massive exoplanets are intriguing! The escape velocities you’ve derived certainly highlight the extreme conditions present on those exoplanets, and the corresponding Mach numbers are indeed astonishing compared to our current technology.
However, a few points might be worth considering. First, while escape velocity indicates the speed needed to break free from a planet’s gravitational influence, it doesn’t directly correlate with the capabilities of potential drones or their maneuverability. The technology required to build and operate such drones, particularly ones capable of withstanding the extreme G-forces you mentioned, would be far beyond our current understanding of materials and engineering.
Moreover, the idea that these potential UAPs could be drones from exoplanets presupposes that lifeforms on those planets have developed similar technologies, which is a significant leap. The biology and technology of extraterrestrial civilizations could be unrecognizable and vastly different from our own.
Your mathematical approach to analyzing escape velocities and G-forces is a great way to engage with the topic and provoke thought. It would be interesting to see how your findings align with current theories in astrobiology and aerospace engineering. Looking forward to more of your insights!