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Planet X: Speed, Revisited (was Boy, is that Sucker Moving!)


Tessa Fürle posed a valid question to the Zetas, as follows, and they responded. 
> quote from Entry Angle in the Science chapter:
> 
> "When [Planet X] is passing your Sun it is 
> moving rapidly, the time spent within your outer 
> planet Saturn's orbit a mere 3 months."
> 
> "[Planet X] pulls down and away from your 
> Sun only at the last minute. This is reflected in 
> time as the last 9.7 weeks or 68 days. This is 
> reflected in distance as 1.2598 times the orbital 
> diameter of Pluto, or two and one-half times the 
> distance from your Sun to this farthest known 
> planet which you call Pluto."
>
> This is an open contradiction. I think it must be 
> 3 weeks within Saturns orbit, not 3 months. 
> Please explain.

And the Zetas explained.  

    As in many approach/repulsion dynamics in nature, 
    the passage of [Planet X] through the solar system
    has many factors at play, at once.  In psychology, there 
    are approach/approach conflicts, where an individual 
    is pulled in two directions at once, both equally 
    attractive, and becomes paralyzed.  There are likewise 
    avoidance/avoidance conflicts, where an individual is 
    caught between two situations he would like to avoid, 
    and likewise becomes paralyzed.  A third conflict is 
    approach/avoidance, where an individual is both 
    attracted to approach and trying to avoid a situation, 
    and thus dithers or moves slowly in a direction.  
    [Planet X] is caught, not because of psychology but
    because of gravitational and magnetic aspects, in an
    approach/avoidance conflict with the Sun.  Thus:

     - When [Planet X] rides mid-way between its 
       two foci, the Sun and its dead twin some 18.74 
       Sun-Pluto distances away, it is in an 
       approach/approach situation, and barely moves 
       during the majority of its 3,657 year cycle.

     - When it is within a few years of a passage of one 
       of its foci, breaking from its mid-point position 
       and picking up speed in an approach of one of 
       these two suns, it increasingly becomes a 
       non-conflict situation, approach only, as [Planet X]
       is pulled by the gravity of the sun it is closest to, 
       yet far enough away from that sun that a repulsion
       force has not yet come into play.  It picks up speed, 
       this speed adding momentum, in a virtual straight
       line approach.

     - When [Planet X] nears one of its foci, the repulsion
       force comes into play.  There are other factors that
       influence close contact between large bodies, but 
       the repulsion force is dominant.  [Planet X] slows, 
       increasingly, as what we have described as a fire-hose
       of gravity particles from both the Sun and [Planet X]
       are pointed at each other, butting into each other 
       and pushing the gravity giants away from each other. 
       This is a minor factor at first, reducing the increasing
       speed of approach.  Then it reaches the point where 
       the approach is actually diminishing, losing momentum
       gained before.  

    [Planet X] deals with this situation by sliding sideways, 
    away from the main point of these gravity particle spurts, 
    which occur at its belly, the Plane of the Ecliptic.  It 
    dives south, still approaching as it continues to be 
    attracted due to gravity.  That it pierces the Plane of the 
    Ecliptic, rather that skidding along the southern part of
    the Sun, is due to taking the path of least resistance.  
    During the 3 months it takes [Planet X] to traverse
    the solar system from one side of Saturn's orbit to the 
    other, it has placed itself on a line some 32 degrees 
    below the Ecliptic due to its slide sideways to avoid the 
    repulsion force.  Its angle of approach is still from south
    to north, the dictates of inertia and momentum stating it 
    would continue in this direction.  As this line of 
    approach brings [Planet X] into conflict with 
    increasingly strong gravity spurts along the Ecliptic, 
    it must both turn into these spurts to turn south, as 
    well as slow its forward momentum, so the path or 
    least resistance is to move north, past a given spurt, 
    for avoidance.  Thus, it crosses the Ecliptic, jerking 
    northward during each encounter with a spurt, which 
    still moving toward the Sun in general due to gravity.  

    The overall effect is for a rapid pace toward the sun
    in the last months, with a dive southward and a 
    slowing in the last weeks, with an even slower 
    passage as it crosses the Ecliptic in the week of 
    passage.  It seems, almost, to hover in the sky as it 
    crosses between the Earth and Sun, moving slowly
    as the horrified populace watches.
        ZetaTalk™