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ZetaTalk: Science

Page 36

by Nancy Lieder


  Satellites intended to go round and round over the poles, or anywhere but the exact equator, must be moved out of the

  circular path around the Earth's gravity center which they naturally assume. The satellite when launched indeed hugs

  the gravity center of the Earth uniformly, circling the lump, but this leaves the satellite masters unhappy as the satellite

  is not a uniform distance above the Earth's surface, be it land or water. They then puff the satellite about until it is not

  circular about the lump, the gravity center, but is a uniform distance from the surface, be it land or water, in other

  words, is an ellipse. The reason they have so much trouble achieving a uniform distance from the surface is not

  because the satellite wants to go in an ellipse, but rather the opposite, because it wants to go in a circle about the

  gravity center of the lumpy Earth. It has to be tweaked out of this into an artificial orbit, into an ellipse!

  Earth's center of gravity may have been nicely centered when she first congealed after the local Big Bang, but she is as

  centered as a three legged elephant now. The collision that sent her out of her former orbit in the Asteroid Belt and

  into the orbit she is currently in left her as oddly shaped as Halley's comet, and only her waters, pooling evenly about

  her, covered her scars. Over time she has molded herself, during repeated passages of her big brother, the 12th Planet,

  so that her molten core is circular, but her crust is anything but even. Depth of the oceans and distribution of the land

  masses is not all there is to it, as the composition of the crust must be factored in also. Lava flows from the depths

  have a different composition than the original crust of the Earth, heavier, and where these flows have spewed forth

  repeatedly during traumatic times, there is a gravity weight in that direction - the sum of the parts, wherever they may

  lie

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  ZetaTalk: Trajectories

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  ZetaTalk: Trajectories

  Note: written on Feb 15, 1996.

  Trajectories that parallel the surface of a large object exerting a strong gravitational pull lob up, then curve, and finally

  drop straight down, upon close examination. Some shots low to the ground barely get into their downward drop before

  arriving on the surface, and thus this point is missed on those not astute. But videotaped trajectories, examined in a

  frame by frame manner, display this scenario:

  The object desires to go in a straight line, in the direction pointed in and impelled.

  As the gravity pull is at its side, the straight line is diminished into a curve, as the drop of the object due to

  gravity is superimposed on the trajectory. The magical curve, in fact, is a combination of linear momentum and

  gravity drop.

  When the object reaches its apex, the linear momentum no longer is away from the gravitational giant, as the

  object now is pointed toward the giant. This is a significant turning point, no pun intended, as from this point

  forward the object now finds that its linear momentum and its gravity drop are combined, and thus, with this

  combined force, it ends up heading straight down.

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  ZetaTalk: Oort Cloud

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  ZetaTalk: Oort Cloud

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

  Ah, the theoretical Oort Cloud. As with the mythical Quark - give it a name and it becomes real. It is not real. Humans

  assume that comets just happen along, and sometimes get caught in a repeating cycle. Humans speculate on the origin

  of comets. The majority of comets visiting your Solar System return because they originated here, during planetary

  breakups caused by the periodic passage of the 12th Planet, for one. Look to the nature of your Solar System, the

  composition and shape of the planets. How would irregularly shaped chunks of ice, which in essence comets are,

  begin? The Earth was once a water planet, but lost much of her water following a collision with a traveling moon of

  the 12th Planet. Where do you suppose her waters went?

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  ZetaTalk: Repeating Comets

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  ZetaTalk: Repeating Comets

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

  Repeating comets are attracted to the Sun, are heading for it, but miss due to the same sensitivity to the solar wind that

  causes their dust clouds and gasses to blow away from the Sun. Humans assume that tiny particles will be more

  affected by the solar wind than larger particles, but this assumption is wrong. If this were the case, then how to explain

  the Asteroid Belt, which has trash of all sizes, seemingly unaffected by the solar wind. A small object may lose its

  velocity faster than a larger object, due to the gravitational differences, but the effect is the same when they are

  sensitive to the solar wind - they are pushed away. Comets that hit the Sun have, through repeated trips around the Sun,

  lost enough water vapor so that the balance of their composition weighs against repulsion by the solar wind. In short,

  they've lost their protection. They come zooming in from outer space, but this time, they don't veer out, they collide. In fact, comets close their orbits, coming closer and closer to the Sun, during this process.

  Where a repelling force exists, such as the solar wind against a comet, the comet will veer out upon approach and as it

  gains speed coming into the Solar System, veer in again. The increasing speed of comets allows them to push past their

  sensitivity to the solar wind, to some degree. Thus they have a quick trip around the Sun while held at the distance

  where they are essentially getting a blast of wind they cannot proceed against.

  The solar wind is steady, its change incremental, as with every measure closer the intensity increases by a similar

  steady measure. The length away that the comet maintains is not explained by an analogy such as a car hitting a brick

  wall or a diver entering the water or even a man walking into a hurricane. The comet is slipping to the side as it

  approaches, going in the direction of least pressure, of least resistance, while still aiming for the Sun. The point where

  this balance is reached is dependent on the speed of the comet, which increases steadily the closer it gets to the Sun,

  and the intensity of the blast from the solar wind. At every point along its orbit, these determinators are at play. When

  out in space the comet's pace is relatively sedate, and thus slides to the side rather than approaching the Sun directly.

  When it enters your Solar System the reverse is occurring - the speed effect overcoming the solar wind push, so that

  the comet curves toward the Sun, but always these two factors are at play.

  Quite clearly some comets are periodic, as they appear regularly after a set number of years, approach from the same

  direction, turn around within the Solar System at the same place, exit the Solar System in the same direction, and give

  the same predictable appearance. But comets that have a long period have been documented in the past in a manner

  that leaves much doubt. Where astronomers within this very millennium assumed the Sun orbited the Earth, just how

  h
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  ZetaTalk: Repeating Comets

  accurate can their records have been? And how does one know that a previous comet is returning, even when it

  approaches from the same direction? Is it not possible to have more than one comet with the same track through the

  Solar System? Humans are barely out of the Dark Ages, and if honest would admit that they are guessing. Do they

  have these comets marked? Do they have an accurate basis of comparison? What are they judging on, the pencil sketch

  made by someone in antiquity?

  Humans think that because mankind spots comets as they loom into range, announcing themselves by outgassing

  as they enter the Solar System, that human scientists know where the comet has been, and know what its orbit

  has been. They do not. They can't find these tiny dark specks when they are out in space. When they catch sight

  of them, the comet orbits are already taking into account their sensitivity to the solar wind. This curve starts well

  outside the Solar System, a fact known by astronomers.

  Humans think that a comet's orbit is maintained by its momentum. Of the factors affecting a tiny comet that

  approaches the Sun, the force of its current momentum is not dominant. Any child who has thrown a ball and

  watched it drop toward the Earth as it sped along its trajectory can sense this. Archers allow for this in

  attempting to hit their target, aiming above the trajectory to account for the drop. Momentum is an effect, not a

  cause. What caused the momentum if not gravity. A ball thrown in space, where there is no gravitational

  influences nearby, will continue apace, but a gravity pull behind its path will slow it down. When a comet is

  leaving your Solar System, it is heading at an essentially straight line away. Gravity behind the comet slows it

  down, and thus the momentum disappears.

  Humans see but what is essentially the end result of a comet's orbit, or at least that portion of the orbit that

  involves the Sun's gravity. The tiny comet, dark until it enters the Solar System where it flares under the

  influence of the Sun, cannot be located by humans while it is out in space. They assume that the orbit is broader

  or at least as broad, when out in space, as that seen when the comet becomes visible. It is not. As we have

  explained in detailing the 12th Planet's entry into the Solar System, comets aim for the Sun, and if influenced

  away from the Sun by any factor, adjust their orbit away from the Sun. Then, as they near the Sun and, caught in

  the grip of this giant's gravity pull, accelerate, the increasing speed allows them to come closer. Humans only see

  that part of the orbit where the initial adjustment away from the Sun has already occurred. They see but half the

  picture.

  The human argument that the long orbit can be determined by the angle of entry, the parabolic curve, is therefore

  absurd. Some long period comets have several foci, and some only one. Just how does blind man, peeping up from a

  planet he cannot leave, looking out from a Solar System he has never left, know how many foci this or that comet

  has? Since a parabola and even an ellipse smoothes to an essentially straight line, how do they know how far that

  straight line goes before a turn around is effected? They do not. They are guessing.

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  ZetaTalk: Ephemeris

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  ZetaTalk: Ephemeris

  Note: written on Oct 15, 1995. Planet X and the 12th Planet are one and the same.

  Ephemeris are mankind's best efforts at predicting the behavior of comets. They take into consideration the direction

  and speed of a comet, when first sighted, and apply math that has proved true of previous comets. Most of the time

  this works. When it does not astronomers tell themselves a variable came into play, such as the gravitational pull of a

  nearby planet or that something internal within the comet caused it to behave in an abnormal manner. The ephemeris

  are assumed to be correct. They are not. Humans have backed into their formulas for explaining the motion of the

  planets, and gravity on the surface of their planet. They tried one theory on after another, until one seemed to work

  most of the time. Then they congratulate themselves on arriving at the ultimate answer, which will stay on the pedestal

  until it fails to answer some physical phenomena, new to their arena.

  The human understanding of Orbital Physics is based on what they have observed. They backed into their

  understanding, their mathematical theories, based on what they had seen. Thus, when they plot the orbit of an object

  tracking in a familiar manner, they plot it reasonably well. This does not mean that the math is accurate or correct. It

  only means that their descriptions, up until now, have worked in the main. We are not saying that human equations fail

  to predict comet orbits. We say the base understanding of the full comet orbit is incomplete. We say the theories about

  where comets come from is incorrect. We say the explanation of why comets don't all go into the Sun is wrong. If the

  mailman comes by each morning about 10:00 o'clock, the child may make up any number of complicated theories

  about why and how the mailman's route is as it is. Then, when the mailman arrives the next day, on time, the child

  congratulates himself.

  Ephemeris assume, first, that comets are attracted to the Sun, are aiming for it, but miss. What nonsense! Why do they

  miss? Did the Sun move out of the way? Where a planet the size of the 12th Planet is likewise aiming for the Sun but

  misses because of the repulsion force, smaller comets do not have the required mass to invoke a repulsion force in the

  Sun. Small comets miss because they by nature contain elements that are sensitive to the solar wind, and can no more

  come close to the Sun than can mankind walk forward into the full force of a hurricane. Is this not a form of repulsion

  force? It differs as the repulsion force is invoked in both parties involved in a potential collision, and the comet's

  sensitivity is a drama played out only in the comet. Essentially, elements within the solar wind push the comet away,

  keeping it at the distance it maintains from the Sun. Why does the solar wind not so push the Earth and other planets,

  or the debris in the Asteroid Belt? It does so push, but the planets by their size resist and the debris in the Asteroid

  Belt does not have the sensitivity that comets do. This is one reason, in fact, that they remain as debris and do not

  become comets.

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  ZetaTalk: Dark Ages

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  ZetaTalk: Dark Ages

  Note: written on Mar 15, 1996.

  Coming out of the Dark Ages, man believed the Earth was flat, and that the heavens revolved around the Earth.

  Evidence that contradicted these assumptions was ignored until the weight of evidence became so heavy that the

  comfortable assumption was eroded. How could such a theory as the flat Earth even evolve? To man today, this theory

  seems laughable, but when it evolved, the edges of the horizon always seemed at the edge of a flat plane, so this was

  the newborn child's first conclusion. But did not the fact that the stars moved about the heavens in a manner that lined

  up with a solar system model not move him to question? The toddler assumes the world revolves around him, an
d is

  loath to let this go. The alternate explanation, that the heavens were dancing for his amusement, fit his mind-set. Did

  not the Sun rise when he felt refreshed, and set when he was weary? All to serve his needs, he had no doubt.

  Elaborate mathematical descriptions of trajectories and orbits were drawn up in an age when man had not peeked

  beyond the Solar System with high powered telescopes floating above the atmosphere, and when slow motion video

  was unheard of. The only complete orbits known were those of the planets which hugged the Sun, and as the math was

  drawn up to fit these orbits, the orbits fit the math. The explanation for comets either fit the model or they didn't. When

  they fit the model they were assumed to have the orbit, when out of view, that the model dictated. If they didn't fit the

  model then they were dressed up in mathematical curves, parabolas or hyperbolas, which came close enough to let

  everyone go home at the end of the day feeling smug. As concepts tend to solidify as time passes, the young taking as

  absolutes what their elders preach, the Earth was now no longer flat, and the heavens no long revolved around the

  Earth, but most certainly all orbits were elliptical.

  When slow motion video demonstrated that trajectories do not, in fact, mirror the downward side to the upward side,

  the facts did not change the precepts taught to the young. Why change a handy tool that works for everyday

  applications? Close enough, and change would require reprinting all those books! The fact that the downward side of

  the trajectory marries the forward thrust to the gravity drop was noted by those who think deeply about such matters,

  and is a known but not extensively taught fact. For most, the Earth is still flat, as they have not been told otherwise

  and are not inclined to question. Where the trajectory precept stands inviolate to most, the precepts of elliptical orbits

  have even fewer challenges. Man sees the dance of stars, but there are so many variables that come into play, about

  which he is uncertain at best, that the arrows of doubt seldom get launched. Yet the arrows exists.

 

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