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Planet X: Distance/Speed REVISITED #5


So where does Robert's math, or any other human math designed to compute
the distance and speed during the passage, go wrong?  This math, or any
variation, is a good guideline, but the distance and speed are not
lineal.

    Journeys are seldom unimpeded.  A speeding train 
    finds it slows going around a turn, due to increased 
    friction against the outer track, and picks up speed 
    going downhill due to gravity assist.  A speeding 
    bullet loses speed going against the air it must pass 
    through.  Light rays passing through water get bend 
    between the source and the eye, this diversion 
    slowing the rate of passage slightly.  Even in a 
    vacuum, a moving particle is affected by gravity or 
    magnetic influences nearby.  What does Planet X 
    encounter during a passage, that changes its rate 
    of speed? Where human math, using our statements 
    as a guide, has attempted to pinpoint the location 
    of Planet X during the months preceding the shift, 
    the distance and speed cannot be computed 
    steadily, as Planet X deals with MORE than the 
    gravity pull of the Sun and the Repulsion Force 
    invoked as it nears the Sun, during its passage. 
    Where the human math attempts are a reasonable 
    guideline, here is where it must be adjusted for 
    deviation.

  Particle Flows
    Mankind is aware, only vaguely, of the particle 
    flows that move in and out of the Sun.  They sense
    what they term the Solar Wind because of the 
    behavior of comet tails.  They sense a magnetic 
    press because the Earth's magnetosphere is 
    pressed outward from the Sun.  They sense the 
    truth in our statement that the Ecliptic is caused 
    by the planets, held away from the Sun by the 
    Repulsion Force, are bobbling in a backwash of 
    particles moving back INTO the Sun.  Why else 
    does the Ecliptic exist?  But mankind is aware of 
    less than 1% of the possible particle flows, and is 
    thus unaware of what Planet X might encounter 
    on its journey.  Not all particles emit from the 
    poles of a rotating planet, re-entering at the waist.  
    Were this to be the case, the pathways for particle 
    flows would be crowded, and some avoid each 
    other or seek a less crowded path.  Thus, Planet X
    encounters particles flowing OUTWARD as it 
    approaches, in increasing density as it draws 
    closer to the Sun, and this is a slowing influence.

  Repulsion Force
    We have described the Repulsion Force as being 
    invoked late, only when two gravity giants come
    close enough for their laser blasts of gravity 
    particles to ENCOUNTER each other, like two 
    fire hoses of water pointed at each other, 
    essentially holding them apart.  For the inbound 
    Planet X, the force of gravity, impelling an 
    approach, increases as the flood of gravity 
    particles RETURNING to the Sun presses against
    the back side of Planet X increases.  This is 
    essentially exponential, an inverse square rate per
    man, as the number of returning particles becomes
    rapidly more dense the closer one comes to the 
    Sun. But likewise the Repulsion Force increases,
    not due to any increase in the firehose of outbound
    gravity particles from Planet X, which remains 
    steady, but due to the outbound bursts of gravity 
    particles from the Sun becoming dense enough, at 
    distances increasingly encountered by the 
    approaching Planet X, to invoke a Repulsion 
    Force of sorts, even when Planet X is afar.  This 
    is a drag on the inbound speed, a slowing 
    influence.

  Crowded Ecliptic
    We have stated that Planet X dives below the 
    Ecliptic, when close to passage, to avoid the 
    other planets in the Ecliptic.  Like the wind 
    buffeting that cars passing large trucks on the 
    highway encounter, the other planets in the 
    Ecliptic create particle flows from the SIDE, as 
    well as backwards, against the inbound Planet X.
    This roiling encounters other roiling, all of 
    which causes movement to from side to side as 
    well as the forward motion toward the Sun, a 
    delaying action, slowing the speed.

    Thus, when moving from the mid-point of its 
    orbit between its two foci, the Sun and its dark
    twin some 18.74 Sun-Pluto distances away, the
    speed of passage is:
    - at first slow as the gravity particles pulling it 
      toward the Sun are scarcely more than the 
      gravity particles pulling it toward the dark 
      twin; 
    - exponentially faster as the gravity particles 
      increase at this rate the closer Planet X gets 
      to the Sun;
    - without impediment when afar from the solar 
      system as represented by the planets orbiting 
      the Sun, alone;
    - increasing in essence at an exponential speed 
      when approaching this solar system complex 
      but the speed increase somewhat REDUCED 
      in the 6 months before passage by the start 
      of the Repulsion Force influence and particle  
      flows or other crowding and buffeting 
      influences; 
    - decreased dramatically at about the orbit of 
      Mars by the braking action of the Repulsion 
      Force, at last strong enough to counter the 
      inbound plunge toward the Sun;
    - slow to a floating rate so that it floats past the 
      Earth during the week of rotation stoppage, 
      which is the point it is also floating past the 
      Sun, rather than zoom past;
    - increase in speed to leave the inner solar
      system as the laser blasts of gravity particles 
      coming FROM the Sun added to the 
      momentum PAST the Sun already in place 
      combine to speed it on its way.

        ZetaTalk™, Slowing Influences