by admin | Apr 22, 2020 | Beginning of the Solar System, Planet Formation, Uncategorized
A previous post introduces the Parent Vortex and the initial givens for the formation of the Solar System. Each of the 10 densely populated regions of atoms around the 10 big clumps of iron atoms is a protoplanet. A protoplanet is like a big “particle” within the...
by admin | Apr 22, 2020 | Mass Vortex Theory, Planet Formation, Standard Theory, Uncategorized
National Geographic has produced a video that explains what science textbooks currently teach about how Earth and other planets in our solar system formed. http://channel.nationalgeographic.com/videos/the-birth-of-earth/ The Standard Theory explanation starts with a...
by admin | Apr 22, 2020 | Beginning of the Solar System, Mass Vortex Theory, Planet Formation, Uncategorized
When the atoms in the pre-planet-particle form molecules, rapidly changing into a compact sphere, some of the atoms are left behind. They form light gases of different elements in a large shell around the compact rocky sphere. Then when the ice layer forms, it traps...
by admin | Apr 22, 2020 | Beginning of the Solar System, Mass Vortex Theory, Planet Formation, Uncategorized
The heat generated by the formation of molecules and reduction of space between atoms causes the new planet to give off steam. The steam rises, hits cold space and freezes. “What?” you say; frozen water surrounding a planet? If that were so certainly you would have...
by admin | Apr 22, 2020 | Beginning of the Solar System, Mass Vortex Theory, Planet Formation, Uncategorized
The rapid formation of molecules and minerals in combination with gravity results in rapid compacting of material around the iron atoms, forming a spherical shape. The iron atoms at the center of the rocky sphere become a solid core. The heat from this phenomenon:...
by admin | Apr 22, 2020 | Beginning of the Solar System, Mass Vortex Theory, Planet Formation, Uncategorized
The givens of Mass Vortex Theory are: a nebula (or part of a nebula), 10 big pockets of iron atoms (iron and other metal atoms), and a black hole. Atoms from the nebula pack in more densely around the pockets of metal atoms. We’ll call these dense regions...
