Re: Are the planets growing?
Posted: Sat Feb 06, 2021 11:42 am
From allynh, http://doyeonkim.us/sequencing_seismograms .
Since I looked at what was down the Kola hole I've been trying to account for all that excess water and hydrogen, my best guess is that over the aeons high energy radiation transmutes the ironic core into heavier and lighter elements, and for as long as the core[s] remain cool nothing much happens just the hydrogen ions which result slowly diffuse upwards. Then comes a kinetic or electric shock which heats the suffused 'rock' and the hydrogen harvests the available oxygen instantly permeating said 'rock' with supercritical water. Then all the ore bodies of hydroreactive metals 'explode', and hydrogen carbon and oxygen begin reactive cycles catalysed by heavy metals, where they dissolve, mix and precipitate all those minerals soluble in supercritical H2O-CO2-CH4 . Thus I suspect that the mantle rather than being mostly composed of molten lava may be composed of supersaturated 'clays' at extreme temperatures. Perhaps some volcanic eruptions happen when two high temperature 'clay' solutions are brought into contact, via gravitational and centrifugal/centripetal processes, and react.
Generally the reactions with hydrogen would be exothermic and would create less dense elements, lower density would explain the ulvz better and since so much of the more recent crust is beneath the Pacific where else? The fact of the Earth being a near perfect sphere after such event[s], and it seems at least one was quite recent, implies a force/field of some type superior to gravitation.
Since I looked at what was down the Kola hole I've been trying to account for all that excess water and hydrogen, my best guess is that over the aeons high energy radiation transmutes the ironic core into heavier and lighter elements, and for as long as the core[s] remain cool nothing much happens just the hydrogen ions which result slowly diffuse upwards. Then comes a kinetic or electric shock which heats the suffused 'rock' and the hydrogen harvests the available oxygen instantly permeating said 'rock' with supercritical water. Then all the ore bodies of hydroreactive metals 'explode', and hydrogen carbon and oxygen begin reactive cycles catalysed by heavy metals, where they dissolve, mix and precipitate all those minerals soluble in supercritical H2O-CO2-CH4 . Thus I suspect that the mantle rather than being mostly composed of molten lava may be composed of supersaturated 'clays' at extreme temperatures. Perhaps some volcanic eruptions happen when two high temperature 'clay' solutions are brought into contact, via gravitational and centrifugal/centripetal processes, and react.
Generally the reactions with hydrogen would be exothermic and would create less dense elements, lower density would explain the ulvz better and since so much of the more recent crust is beneath the Pacific where else? The fact of the Earth being a near perfect sphere after such event[s], and it seems at least one was quite recent, implies a force/field of some type superior to gravitation.