It is interesting that the Pioneer case reveals that Nibiru has a much larger magnetic field or
magnetic affect than the one that extends 8 AU from its centre. The hurricane/cyclone
analogy will serve useful here to better understand what we're seeing here. A hurricane or
cyclone has four basic components: the eye, the inner eye wall, the outer eye
wall and the
peripheral rainbands.
We can see that the eye, a completely calm circular area around which the entire cyclone is
centred, is very tiny compared with the rest of the storm's structure. Surrounding the eye is
the red band of the inner wall, where the fastest and most violent winds circle and is
therefore the most dangerous part of the maelstrom. Beyond this you may have an outer
eyewall, another larger area of circulation where the winds though strong are
not as bad as
in the inner eyewall. Then at the outermost periphery stretch out the wide expanse of the
spiralling rainbands. In the clockwise-spinning cyclone, the fastest and strongest winds
(gusts) are in the side that is moving in the same direction as the storm, because the forward
velocity of the storm adds to the speed of the winds as they move in sync. The winds in the
opposite side are slower because they're moving in the opposite direction of the storm. For
example, in the images above of cyclone Yasi, the strongest winds are in the right-hand
side, because the storm is moving from upper-right to lower-left.
This is the same thing we
are seeing with Nibiru, except instead of largely a play of water
and wind we have here a turbulent circulation of immense electromagnetism and intense
radiation with proportions only measurable on an astronomical scale. We can describe the
blue-green core shown in the infrared image as the eye, the black shell with the strongest
magnetism as the inner eyewall, the purple cloud with medium magnetism as the outer
eyewall and the rest that is not visible with weak magnetism as the peripheral rainbands.
The Sun is similar, with itself as the core or 'eye' around which its strongest magnetism
contains its most intense radioactivity (the corona), an inner 'eyewall' that holds the inner
solar system (Mercury to the asteroid belt) and an outer counterpart that extends from the
asteroid belt to the orbit of Pluto at about 39 AU. Its 'rainbands' stretch
even farther where
objects external to the solar system proper can still orbit the Sun, such as recently
discovered 'dwarf planets' (essentially large asteroids) Haumea and Makemake, which orbit
at 43 and 46 AU, respectively. The weaker and more subtle magnetism of the Sun can reach
even to other stars, creating the magnetic relationship between these stellar bodies.
We can now see why this Nibiru object has been
disturbing the Earth and the rest of the
solar system for a
long time now
. It is because its outer 'rainbands' have been hitting us
again and again in gradual ever stronger series of waves as it floods the Sun's magnetic
field (the solar system) with its own. The two magnetic fields directly oppose each other and
have reverse polarities, with
Nibiru's spinning in a
clockwise fashion
as opposed to the Sun's
counter-clockwise rotation.
The computer-generated image below gives us a good schematic visual of how Nibiru's
clockwise-rotating magnetic field should look like if we could see it in detail. Like a cyclone,
Nibiru's strongest magnetic 'winds' are on its right-hand side (from our perspective).
Unfortunately for us, Nibiru is approaching us from the left-hand side (of the Sun, from our
perspective).
This means we will be encountering the strongest magnetic whirls from
Nibiru, because we will be in the right-hand side of its core as it approaches us.
Another effect Nibiru would have is that it will slow down Earth's counter-clockwise orbit
round the Sun. We will be hit by the strong right-hand side, which is also the 'pushing' side.
Like it did to Pioneer 10, this side will try to push us in the opposite direction of our orbit. The
Sun's opposing magnetism will largely prevent that, being stronger than Nibiru's, so the
overall effect of the magnetic push is to slow us down more and more as the object gets
closer and closer.
This phenomenon helps us to understand what happened to Pioneer 11, whose
trajectory
sent it in the opposite direction from Pioneer 10.
As shown in the diagram above, Pioneer 11 was moving in the opposite direction from its
counterpart, and yet it also encountered a force that very subtly started to decelerate its
forward momentum. As we can see, the deep space probe was moving to the left side of
Nibiru's peripheral magnetosphere. Unlike the right-hand side, which pushes, the left-hand
side attempts to pull objects towards Nibiru. Therefore, once Pioneer 11 got far away
enough from the Sun for its effects to start being noticeable, the pull was
detected as a
subtle deceleration in the spacecraft's forward velocity.
Unlike the Sun's force on both Pioneer 10 and 11, which was measured and compensated
for in the satellites' design by their makers, Nibiru's force was not expected or accounted for
by Nasa's scientists and engineers. Hence its effects on the probes caused great confusion
among them and they struggled to come up with a variety of theories in an attempt to explain
the mysterious phenomenon.