https://vixra.org/pdf/2301.0065v1.pdf
According to the General Theory of Stellar Metamorphosis, planet
formation is stellar evolution. This means all properties of planets are
a direct result of the conditions present when they were younger stars
and their orbits around other hosts. The Earth’s inner iron core is less
dense than its outer core due to being bombarded with iron/nickel from
outer space, as it was composed of liquid metallic hydrogen, which
formed a bond with the iron and nickel, forming iron and nickel hydride.
Drawing from this hypothesis, the zone with which the inner iron core’s
density changes (becomes denser in the outer iron core), is a clue to
when the majority of the hydrogen could no longer form bonds with the
iron/nickel. This in turn can be used to explain how, why and when the
pressures changed during iron core formation, due to both evaporation of
the hydrogen due to mass loss of the star and chemical factors. That in
turn can tell us how thick the atmosphere was during this transitional
stage, and give far more information than is what made possible with the
iron-catastrophe hypothesis.