With a total mass almost 320 times that of Earth, Jupiter's core should be at least 40 Earth masses according to the standard model. That's evidently not the case. Jupiter's core is substantially less dense than the outer layers of Jupiter.
This fact squares up well with the predictions of the Capacitor Model of Gravity. According to this model, all planets are likely to have a low density hollow at their centre.
By NASA, ESA, and A. Simon (Goddard Space Flight Center), Public Domain, Link
don't forget to reverse engineer the nasa statements. 'large and diffuse core' is their way of bashing unexpected data to fit in with their crap models.
ReplyDeleteWhat they actually got was a lot more gravity pull on Juno while it passed over the equator than expected.
The gas giant model has never been verified. All planets so far tested have had rocky surfaces. Jupiter likely has a solid crust not far below the top of its thick atmosphere. An oblate spheroid with rocky crust would differ from a sphere's gravity by being stronger at the equator.
Hi Fredrik, are you available for a brief chat at some point? I want to discuss earth expansion and it's links to ancient civilizations. I listened to you on Andrew Johnson's YouTube channel, and I think your ideas.are an important part of the puzzle. Enjoy the blog by the way. All the best, Dave
ReplyDeleteYou can contact me by sending an e-mail to fredrik_nygaard@hotmail.com
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