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ZetaTalk: Shift Meltdown
Note: written during the August 31, 2002 Live ZetaTalk IRC Session.

Mankind in their calculations puts only a few factors into their equations, not the scope of factors that will be operand. Thus, they assume a wind speed during the shift which assumes the atmosphere not moving with the Earth. Why? Only their inability to comprehend what we have patiently explained, that air moves with the Earth, in the main. Does it not move now, during rotation? Does the wind howl as the Earth rotates, scouring the globe clean? No! But these types of stupidities are placed on sci.astro as science, and from thinking men. The crust is solid, separates from the core, and the two pass over each other. We have explained that the oceans will expand to 675 feet above the current sea level after the poles melt, in great part due to heat from the disturbed core. Does the term insulation mean anything? In places where the rock strata are forced to pass over each other, those places where subduction occurs, have rock melting, as folklore attests, like wax. Where the crust as a body moves over the relatively liquid core, there is less friction. Do you have friction from molten lava pouring out of volcanoes? It simply moves. Thus, mankind’s calculations, which we are sure are limited as his thinking often is, take into account so few factors that they are absurd.

Note: below added during the September 7, 2002 Live ZetaTalk IRC Session.

We have stated that heat is a particle flow, like all such flows the particles attracted to each other thus flowing toward each other and crowding together, only to find such crowding a press such that equalization occurs with a flow to less crowded areas. Heat exists in objects, latent and not under pressure to move for equalization. Man is aware that friction releases heat particles, as do chemical reactions such as combustion. What happens in these instances is that the heat particles go on the move because their prior situation changed, but in that they were not overcrowded prior to the change, they happily return to a latent state when the change stabilizes. How does this work? Heat particles sent on the move because of friction are doing so because the atoms they reside within are compressed, creating an inequality with the surrounding atoms. Heat moves to equalize, but this only causes the inequality to fan outward, to less compressed areas. When the compression of friction stops, the heat returns. Mankind treats heat like magic, assuming a manifestation of heat that must go someplace, disburse, as in his observations heat he perceives transmits outward from the hot spot, escaping, or so it seems. In fact, few of the heat particles move elsewhere, and slowly return, unobserved by man who has walked off to salve his blisters and who in any case does not observe heat as a minor particle flow.

So what will happen when major friction occurs during the coming pole shift, the crust separating from the core and its magma and sliding over this slush. Is this friction? Does friction occur during water sports, where boats and boards travel rapidly over a liquid? Motion, not friction, occurs, as the atom compression results in motion, free to move as the atoms are. Examine lava flowing from a volcano. Where there is heat within the lava, not on an equal basis with the surrounding rock and air, that is released and seeking equalization to a less crowded setting, there is no heat produced from friction. Under the crust, this press of heat particles is normal for lava, and during and after the shift, this is not released to move elsewhere as all surrounding the heat particles has this same press. Where there is a steady release of heat from the magma through the rocky crust of the Earth, this is dictated by the rapidity of motion of heat particles, solely. None of this changes during the shift.

Heat is generated to some degree during the shift due to changed position of portions of the core, which are not homogeneous as we have stated, a situation that results in the Earth’s rotation as these various elements move toward or away from elements in the solar system they are attracted to. During the shift, the core rotates to come into alignment with the rapidly passing planet causing the pole shift, dragging those portions of the magma with it that are attached in any manner, including attraction, and causing swirling within the magma. All this upsets the balance where heat particles can become compressed and move, temporarily, until the core and its surrounding magma return to normal. Rotation returns, the heat particles settle back in according to the dictates of the surrounding matter, and no heat is released excessively to the surface of the globe. Then why have we stated that the oceans of the Earth will rise an average of 675 feet, based on increased heat released due to this roiling?

Volcanoes are expected to explode, ooze lava, and burp hot gasses into the air. Just as El Nino is caused by volcanic activity in the Pacific, in Indonesia and environs, undersea volcanoes worldwide will be oozing magma and heating the oceans. This is capped, in the atmosphere over the seas, by air heated from the burping gasses, thus slowing any equalization of heat particles into the atmosphere. Thus, it is not the roiling core itself which heats the surface, but escaped magma and gasses. Heat particles still in the core return to their prior pre-shift equalization status quo, after the shift.

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