which actually takes place during the better part of an hour. There are stages, between which the human spectators, in

shock, are numb. At first there is a vibration of sorts, a jiggling, as the crust separates in various places from the core.

Then there is a Slide, where the crust is dragged, over minutes, to a new location, along with the core. During the slide, tidal waves move over the Earth along the coast lines, as the water is not attached and can move independently. The

water tends to stay where it is, the crust moving under it, essentially. When the core finds itself aligned, it churns about

somewhat, settling, but the crust, more solid and in motion, proceeds on. This is in fact where mountain building and

massive earthquakes occur, just as car crashes do their damage on the point of impact, when motion must stop.

Weak spots among the Earth's crustal plates give way. The Pacific Ocean will shorten, and the Atlantic widen.

Subducting plates will subduct greatly. Mountain building will occur suddenly, primarily increasing in areas already

undergoing mountain building. All told, the better part of an hour, but at certain stages, only minutes. Plants survive as

they are rooted and their seeds are everywhere, and animals including man survive because they travel with the moving

plates of the Earth and experience no more severe a shock when the plates stop moving than they would during a

Richter 9 earthquake. Where mountain building occurs when the plates stop moving, the stoppage is not simply a

sudden jolt, like a car hitting a brick wall. All is in motion, and the stoppage is more like a car hitting a barrier of sand

filled plastic barrels - a series of small jolts, occurring in quick succession.

At this time we estimate that the giant comet will come to within 14 million miles of the Earth. The strength of its

magnetic field at that distance will be such that the comet's North Pole, angled essentially in the same direction as the

Earth's North Pole, forces the Earth's North Pole to evade the pressure and accommodate its larger brother by swinging

south to the bulge of Brazil. This alignment will not change if the distance between the sibling planets changes, but the

speed and vigor of the shift would be so affected by a closer passage. The height of tidal waves and consequent inland

inundation would be so affected. The heat of land masses above subducting plates where friction can cause the ground

to melt, would be so affected. And the violence of shifting winds would certainly be so affected.

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ZetaTalk: Continental Rip

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ZetaTalk: Continental Rip

Note: written on Sep 15, 1996. Planet X and the 12th Planet are one and the same.

Tearing of continents is less traumatic than it would seem to humans, who imagine the continents as one plate and

think of how lumber resists being torn, metal bends and twists before tearing, and a rope of fibers resists while the

fibers snap one by one. Continents are in fact an overlay of many plates, and faults are where most of the plates have

fractured in the same place. The continents are attached because some of the plates have not fractured. This concept

should not be that hard to grasp if one considers that many land faults have a slip-slide relationship of the plates,

which are moving in different directions past each other. This motion would not be possible if the plates were not, in

fact, separate.

Thus, ripping apart of continents is no more traumatic than subducting or slip-sliding. The land along the edges

generally retains its altitude, as this was determined by the thickness of the plates, thus its boyancy on the sea of lava.

Solid land is composed to a great degree from the lighter elements, which rose to the top during the early cooling of

planet Earth, and thus formed the floating crust.

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ZetaTalk: Mountain Building

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ZetaTalk: Mountain Building

Note: written on May 15, 1999.

Mountain Building occurs during rapid subduction of one plate under another. There is friction between the plates, so

that crinkling of the upper plate occurs. This crinkling represents pressure and release, which can result in violent

jerking and upheavals, sometimes snapping to create new cliffs or jutting rock. Those riding on the upper plate during

these moment will be heaved skyward and dashed, with scarcely a safe place to cling to. Subduction can release

pressure by pushing flakes of land that separate from lower stratas forward. Push a wooden block against some flaky

pastry, and watch the top flakes simply fly forward, separating from the pastry. This thrust can be sudden and

projectile, with the rock flake then crashing down again. Pressure and release can also create crumpling land where

such activity is not expected.

Mountains and valleys have likewise been formed because of crumpling, horizontal pressure, and this will happen

again during the forthcoming shift. What happens to rock when it is asked to compress, to fold? It breaks, and moves

into the point of least resistance which is upward into the air. Thus, jutting peaks of sheer rock with the rock strata

going almost vertical occur. It crumbles, with a jumble of rock rolling over each other as the mass is pushed upward.

Thus, anyone or anything on top of that spot will be subject to being ground up in the tumbling process. Compressed

rock can also drive horizontally, into nearby soil or space not occupied by anything as dense as itself. Thus, those in a

valley can find rock shooting out of a hillside, or rock spears shooting under their feet, unexpectedly. Surviving the

mountain building process while in the mountains is precarious, and not advised.

The land at the point where a fault line forces one plate above another experiences a violent quake, but the plates soon

break free of each other and slide. But farther from the fault line, where the pressure build is delayed, pressure and

release occur over a few moments, rather than a single violent jerking motion. Thus, those mountain building points

far from the fault line experience more damage to the inhabitants that the fault line itself. Mountain building apparent

to humans has occurred over many shifts, nudged up repeatedly as the given shift affected that particular plate with

enough force to create a strong subduction. Thus, is is a cumulative affect, not a one-time result. This time around,

there will be strong mountain building, in particular in the Hymalayas and Andes, not so much along the West Coast of

North American, and hardly at all in the Alps in Europe.

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ZetaTalk: Mountain Ranges

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ZetaTalk: Mountain Ranges