by Nancy Lieder
Rift, such that this tears, promptly, but in shuddering steps with halting adjustments and pauses between
shudders. In essence, the movement eastward of the African continent is a momentum creating this tear.
4. During the tearing of the Atlantic Ocean floor, and the dragging north or the North American continent, an
already existing tear in the St. Lawence Seaway tears further, essentially the weak link in this landmass held at
so many points to the further side of the Atlantic Ocean. Canada moves north, while the rest of the Americas
cling to the Atlantic Rift while it separates.
5. The movement of the massive plate housing Europe, Russia, and Asia to the east also is expected to rip this
plate along the Himalayas, as we have stated, creating an inland bay into the Russian lands just to what is now
the north of the Himalayas. This follows, in jerks and tears, over the hour of the shift, along with the tearing of
the African Rift.
6. When the ocean off the bulge of Brazil has reached the position of the current North Pole, crust slippage stops,
creating yet another drama. The major northern hemisphere plates stop, and whatever follows crashes into them.
In the case of the Americas, this causes Central America and the Caribbean to crumble.
7. In the case of Africa, already sliding eastward, the force is further movement eastward, as subduction of the
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ZetaTalk: Scripted Drama
Indo-Australian plate has already begun, the weaker link already established and momentum in process.
8. The pileup is in what was the former Northern Hemisphere, and the compression of the Pacific is creating
resistance as plates are subducted under the Americas, and then Japan explodes and Indonesia crumbles.
9. This frees the plates south of the tips of South America and Africa of stress. As the Pacific adjusts, reluctantly,
pressure toward Antarctica, the one place on the globe not experiencing plate pressure, allows new land to pop
up between the tips of South America and Africa.
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ZetaTalk: Tidal Waves
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ZetaTalk: Tidal Waves
Note: written prior to July 15, 1995
As great as the danger to humans and the fauna and flora of the Earth that earthquakes bring, greater still is the
devastation that the shifting waters will bring. There are several factors at play. Water is more liquid than the core of
the Earth, and certainly more liquid than terra firma. Where the Earth, dragged by its core, is Shifting into a new, albeit
temporary, alignment with the giant comet, its waters resist greatly. Thus the waters slosh over the nearby land, in the
direction opposite to the shift. This is lessened by a tendency of the waters directly under the giant comet to rise up to
meet the comet. The waters heap up, in what appear to be giant waves. This tends to lessen the sloshing over a
shoreline on the comet side, but has no effect on the water's movement on the dark side of the Earth.
The Earth's record of gigantic tidal waves, which the establishment is desperate to explain in other than pole shift
terms, is caused by the frequent pole shifts. This is the case even in situations where a plate adjustment affects
hundreds of miles of ocean bottom, creating a massive line of compressed water which promptly moves in the only
directions it can - to the right, left, and up. In the depths of the ocean, this causes a tidal wave of perhaps 20 feet in
nearby shores. Where items are dropped into the ocean, such as the honeycombed ice of a former South Pole did
during the Flood, the displaced water cannot go down, so must go all four directions. In instances such as this, the
resulting wave is in proportion to the object dropped. A continent sized object caused the Flood, a meteor a mile in
diameter would hardly cause more than a high tide, despite alarmist speculation.
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ZetaTalk: Climbing Water
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ZetaTalk: Climbing Water
Note: written on Jun 15, 1999.
Those who have witnessed tidal bore roaring up a ravine are astonished that water does not seem to respect the relative
sea level during those times. What makes the water climb? Water pressure drives water to climb above its level
because at the point where the pressure build, is takes the easiest path. When the force of pressure is extreme,
compressing the water a lower levels, the path of lease resistance is taken. During a tidal wave, this path is away from
the bulk of water. A tidal wave moves inland until one of two situations occurs:
1. the level to which it has climbed is higher than the level elsewhere, and the wave recedes, or
2. the pressure behind the wave decreases.
Where tidal waves meet mountains, this can result in tidal bore up ravines. Where tidal waves flow inland, this results
in a flood tide going hundreds of miles inland. Where the tidal wave finds foot hills or barriers, the force of the wave is
broken such that it is slowed, allowing a reduction in pressure behind the wave to arrive before the wave moves far
inland. But where the tidal wave finds virtually no barriers, due to the land being flat, it becomes water on the move,
and this very momentum carries it far inland, and above a height that would otherwise be expected.
Note: below added during the Nov 30, 2002 Live ZetaTalk IRC Session.
There is more to the level that water rises than simply water finding its level. Tidal bore carried water up-river in a
rush, rising above the sea level with force, for many miles. Tidal bore carries water up ravines, in some cases shooting almost straight up, appearing in a gusher at the plateaus overhead. One factor to consider is the force or pressure that
water is under, and this is equivalent to the water higher, elsewhere. This is the factor that allows cities to have tap
water, due to water stored at a high point in the vicinity, which then pushes out into pipes. Water on the move does
more than just push forward, it also creates a void behind it. At first, this water is on the move because there is
pressure behind it, like sloshing water in the Gulf. But then, the force of this moving water takes on a life of its own. It
has momentum, and moving forward, creates a void behind it, thus drawing the water in the direction of motion, thus
continuing the motion. Thus, rolling across the flat low lands such as the State of Texas, and moving hundreds of miles
inland, on a roll, it does not simply stop when it starts to reach foothills. Why would it stop? Because the overall
elevation is more than the sea level? Weigh this, with the force of water, all on the move, behind the lip of the flood
tide. This water on the move is greater than the resistance in front of it, so it continues.
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ZetaTalk: Flood Tide
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ZetaTalk: Flood Tide
Note: written on Jun 15, 2001, during the 2001 sci.astro debates.
There is a difference in the type of wave that would be caused by an asteroid, and that caused by a sloshing ocean
during a pole shift. During a pole shift, the crust of the Earth rapidly moves a quarter turn or more, in strong shifts
attempting to do a half turn
as the core is doing a complete flip, dragging the reluctant crust with it. As anyone
carrying a saucer of soup knows, the soup and the saucer do not always move as one. If the saucer moves suddenly,
the soup may stay behind, slopping. The soup is free to move or not move, where the saucer is attached to the hand of
the server. The oceans of the world are pooled where the crust has offered a dip, but during a pole shift, when the
crust suddenly moves under it, slopping likewise occurs, with the waters not dragged with the core as is the crust,
which is attached to the core. What happens to oceans which are thus lifted out of their beds, and pushed up over land
higher than that from which they came?
Tidal waves are often shown as rising high, a tower of water crashing down upon hapless humans standing in horror on
a beach. Where a wave generated by an underwater displacement, such as occurs when plates adjust due to subduction
during an earthquake, will roll in a deadly line of pressure until the shore is reached and then rise up when the depth of
water is reduced as the wave rolls up the beach, this does not occur when the whole of the ocean is on the move. It is
rather a flood tide, as the oceans are climbing out of their beds, into higher ground, so the leading edge is the highest
point of the wave. In Tsunamis, a single line of pressure moves through the ocean, transferring water pressure rapidly
from the quake point to where it must stop, at land, thus finally crashing upon a beach. During a pole shift, there is no
single line of pressure, the ocean as a whole is on the move because it stays behind while the crust moves, and thus
rolls up on land onto the coastline being pulled under it.
This is a flood tide, with the lip of the water being its highest point, rising like a silent tide endlessly on the rise, the
wave rolling inland without a crashing back and forth, just a steady progressive inundation. To those at the mercy of
such a flood tide, their first thought is to climb above the tide. Soon they are standing on the highest point they can
reach, and still the water, flowing inland steadily, rises. Afloat on a boat or flotsam, they will be dragged inland with
the flow until a reverse slosh begins, the water flowing back into its bed but in the nature of water during a slosh,
overshooting this other side so that both sides of the ocean experience this flood tide, alternately, for some days until
the momentum diminishes. When the flood tide recedes, those afloat are in danger of being dragged far out to sea with
the flow, as the water will rush to its bed unevenly, more rapidly where it can recede the fastest.
Waves caused by an asteroid crash are akin to what children see when they drop a boulder into a pond or puddle. As
with a Tsunami caused by a subducting plate, where the water is under great pressure at a certain point and transfers
this pressure in a line in the direction it was first thrown, the boulder will cause a sudden line of water pressure away
from the impact point. That water rising directly upward drops quickly to the surface, the splash. But the water within
the pond moves the line of pressure outward, visible only as a ripple on the surface of the water until the edge of the
pond is reached where it becomes a lapping wave. Asteroid generated waves are thus tall, crashing upon the shore.
Whale bones on mountain tops well inland were not lifted by Tsunami waves, nor carried inland atop such a wave. A
whale would not be close enough to the shore to be caught in such an occurrence. They arrived at these inland
mountain tops because the entire ocean was moving, and they could not escape the momentum. Thus caught, they
were deposited in rocky crags where fast flowing waters moved quickly away from them through cracks, too tight a
squeeze for the hapless whale left floundering behind.
Note: added during the Mar 22, 2003 Live ZetaTalk IRC Session .
Where the waters of the oceans and great lakes resist moving with the crust, to a great extent it does. However, the
press of a body of water is far stronger than the press of water clinging, gravitywise, to a disappearing Moon. Thus,
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ZetaTalk: Flood Tide
there is more pressure to move inland in a flood tide, and due to the bulk of water pressing, the water will move faster
than a normal tide. A normal Moon driven tide takes 6 hours in, 6 hours out, but the pole shift tide will roll in within
less time. The sloshing back will telescope this, but the additional sloshing that occurs until the water settles into its
bowl will take increasingly longer. It is a confused mix of factors affecting the tidal flow. The Moon does not stop its
affect on the tides. Water from compressed bowls such as the Pacific will attempt to equalize for days, creating flows
where they would not be expected. The temperature will be mixed, with cold water forcing under warm in unexpected
places, creating swirls that move the water around rather than in a direction. Thus, we would advise those having to
deal with flood tides to read our Safe Locations information carefully, re their location. Read the Pole Shift section
regarding water movement carefully. Have discussions with others on the hypothetical movement of water affecting
the group. After a bit, the many factors will fall into place, and you will be able to predict just when it is safe to return
to your coastline.
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ZetaTalk: Water Movement
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ZetaTalk: Water Movement
Note: written on Sep 15, 1996. Planet X and the 12th Planet are one and the same.
During the hour of the pole shift, when the crust of the Earth is being dragged along with the core such that the Earth's
North Pole is turning away from the North Pole of the 12th Planet, and the Earth's South Pole pulling up to face it,
several things are happening at once. A synergy, or play-off, therefore occurs. The stage is set by what occurs during
the days preceding the pole shift, when the Earth's rotation slows and then stops, within a day, and stands with her
mid-Atlantic ridge facing the Sun where her brother, the 12th Planet, is passing. During these few days (less than a
week) when rotation has stopped, the waters of her oceans flow toward the poles and away from her fat equator. An
equalization occurs, the waters settling evenly, where normally the rotation pulls the water by centrifugal force to
where the motion is fastest, at the equator. Thus, when the pole shift itself occurs, the oceans have pulled away from
the tropical shores and flooded the frozen poles.
Tidal waves are caused by several factors, but to those living along the coasts, the effect is the same. When the Earth
rolls her North Pole away from the Sun and the passing 12th Planet, the water resists, and thus there is flooding where
the oceans meet moving land, and a drawing away of the oceans from those shores on the opposite side of a land mass
which is pulling away from the stagnant ocean water. However, for the most part, the oceans move with the land as
one. When the motion stops, the water, not being attached to the core as the crust is, fails to put on the brakes and
continues its motion, and thus tidal waves occur where only hours before the water had drawn away from the shores. A
third factor affects the height and force of tidal waves, and that is the movement of plates where the bowl that holds
the ocean water may become larger or smaller.
&
nbsp; Where the Atlantic widens and tears apart the North American continent along what is already her sea-way,
there will be more places for the water to pool than water available, and this will cause a rushing toward this part
of the globe by water gathered at the poles.
Where the African Continent continues to rupture away from its large neighbors, or where there is a rupture
along the land fault bordering India, there will be a temporary lowering of water in the Indian Ocean, which will
draw water from where it has gathered at the South Pole.
Where the Pacific shortens dramatically, subducting India and western Australia and subducting plates along
both the American continents, the water in the Pacific will find its bowl suddenly smaller, and will rise along
shores on both sides. Given the size of this ocean, and the ability of her waters to rush over low-lying areas in
Central America or around Australia, tidal waves along the Pacific coast are not substantially larger than along
other coasts.
Where this analysis of water movement might seem astonishing, given that the Atlantic and Pacific oceans will
equalize in size during this next pole shift, the reader should bear in mind that the Pacific will already be low on the
coasts along her equator due to the waters movement toward the poles when rotation stops for several days. Finding
the oceans in the Pacific more full, relatively speaking, the water at the poles will pour into the Atlantic or Indian
Ocean, in preference to pouring into the Pacific. And then the broad expanse of the Pacific can absorb any shrinking of
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ZetaTalk: Water Movement
the Pacific bowl, as each acre of ocean takes its share of the rise, lessening the effect on the shores.
The speed and force of water movement is influenced by many factors. Look to how long it takes a flood to travel
from the highlands to the sea - days, and even weeks in some places. Water seeks its level and moves, but until there