ZetaTalk: Science

it moves around your Earth. Even though your Moon circles the Earth and the Earth circles the Sun, the orbital planes

are at an angle to one another and thus the Moon's orbital plane consistently intersects the Earth's orbital plane at

opposing points twice a year. This will be stable until the cataclysms are upon you and thus can be used to triangulate

with other planes.

The Earth's orbit forms a plane. The Moon's orbit forms a plane that bisects the Earth's orbit in a fixed place twice a

year. The 12th Planet's orbit, coming and going, forms a plane that also bisects the Earth's orbital plane. The 12th

Planet's orbital plane can be calculated if points are taken on the other two planes and used as a reference. The Earth's

distance from the Sun is known. Take the placement of the Earth at the two points where the Moon's orbital plane lines

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ZetaTalk: Comet Orbit

up. Use these two points as two of three points in a triangle. The third point in an equilateral triangle will be on the

plane of the 12th Planet's orbit. This third point is more stable than any point we could give you where you would be

looking out into space. Recall that the 12th Planet is lifting up and away from the Sun when it is this close, so will not

actually be at this third point as it approaches. However, for purposes of calculating the orbit in the heavens, this third point should be useful.

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ZetaTalk: Sling Orbit

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ZetaTalk: Sling Orbit

Note: written during the 2001 sci.astro debates. Planet X and the 12th Planet are one and the same.

The gravitational perturbation affecting the outer planets in your solar system is outside your solar system but affecting

all your planets steadily, and by more than a gravitational pull. There is confusion, in understanding the nature of the

Planet X eccentric orbit and the effect it and your Sun's dark binary twin have, because man is struggling to reconcile

this new information with existing astrophysics theories and the math formulas used to describe them. Somehow they

all must fit, and they don't. The problem lies with the theories and formulas, though few throw them aside as then they

feel adrift, without an anchor. The insecure slam shut the doors, close out new information, and develop the closed-

mind syndrome recently under discussion here on sci.astro. For those not closed minded, we will describe the eccentric

orbit of Planet X, between your Sun and its dark twin. This unlit binary sun lies some 18.74 times the distance from

your Sun to Pluto, at a 11 degree angle from the ecliptic, in the direction of the constellation of Orion. Though farther

away, twice the distance or more, from where Planet X rides at the moment, it is a large gravitational giant, and thus

between these two binaries Planet X is caught in a highly elliptical orbit. This orbit does not fit into man's astrophysics theories, and thus it cannot be described by the math used by man to describe comet or orbit behavior. Yet the orbit

makes sense, if one puts the dictates of man's current theories aside.

There is a desk-top toy composed of several metal balls hung in a line from a

wooden frame, which when set in motion causes the end balls to swing out, then

return to bump all the balls in the row until the ball on the opposite end swings

out in an equal manner, thence continuing until gravity wears the motion down to

a stop. This toy is a simple example that an object will stop, when 'escaping' a

gravity pull, and return toward that gravity pull by reversing its course. That most

known planets or moons go around their gravitational giants is due to a

phenomena of gravity we have termed the Repulsion Force, though it is simply

gravity particles spurting out from large bodies such that they are kept apart like two fire hoses turned on one another.

Planet X, like the balls in the desk-top toy described, slings back and forth between its two gravitational foci, returning

on almost exactly the same path. Its momentum causes it to overshoot a focus, then like the balls in the toy, to return

on the same path after coming to a full stop. Why would it not do that, when both foci are directly behind it? This is

equivalent to the end ball in the toy, dropping back toward Earth due to gravity. When approaching one of its suns,

Planet X picks up speed, as the end ball does when dropping, and thus acts like a comet when coming through the solar

system. It shoots through the solar system, its speed causing it to bypass the sun. Once past, with both gravitational

pulls behind it, it stops, as the end ball in the toy does, and then returns on the same path, as the end ball does.

This is not a curved orbit, it is a sling orbit, and for those who would argue that such an orbit cannot exist, we would

point to the desk-top toy, where the end ball returns so precisely that it connects with the other balls in the toy line-up so that the motion repeats itself with only gravity bringing it to an eventual halt. The back and forth sling is a return

trip, as the toy demonstrates. The difference between Planet X and the desk-top toy is that the toy had its major gravity

pull in the center, bringing the motion to a stop, where Planet X has dual gravitaional pulls at the ends of its sling

orbit, which keeps the slinging motion going.

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