Simulations
The simulations of Nibiru's close approach to the Earth can be downloaded
at the links
below (short/small and long/large versions). Two slightly different scenarios are shown:
1. Nibiru comes fast enough to pass ahead of Earth. The computer model shows Earth
being pulled out farther away from the Sun to a new orbit closer to that of Mars.
Nibiru continues on to our predicted close encounter with Jupiter, which the model
shows changes the gas giant's orbit to an elliptical one
that brings it well into the
inner solar system, just outside Mars'.
2. Nibiru is too slow to overtake Earth and passes just behind it. The object pushes our
home planet into an orbit closer to Venus' orbit. The close call with Jupiter again
occurs but is not as drastic in effect, as the gas giant's orbit is brought just outside
the asteroid belt.
https://rapidshare.com/files/2921930967/Nibiru_passes_ahead_of_Earth.wmv
(10 MB)
https://rapidshare.com/files/3924198318/Nibiru_passes_behind_Earth.wmv
(12 MB)
https://rapidshare.com/files/57637779/Nibiru_ahead
(120 MB)
https://rapidshare.com/files/3803421190/Nibiru_behind
(107 MB)
These simulations were done using the
Universe Sandbox
computer model. However, the
model assumes Nibiru has an anticlockwise magnetic rotation, like Earth and the Sun. This
is not the case. Therefore, the reverse of either scenario's outcome is more likely to happen:
1. That is, in the first scenario, Nibiru passing ahead of Earth would
place us to the right
of its centre. This means that when it flies parallel to us its clockwise-spinning
magnetism would pull us towards its wake and when it passes
ahead of us it would
try to spin us round towards its left in an attempt to make us orbit it. But then, as
Nibiru is no longer in the way, the Sun would re-establish
its hold on us and pull us
back towards itself. Effectively, Nibiru will fling us in the same direction the Sun will
pull us, closer towards Venus' orbit.
2. In the second scenario, Nibiru passing behind the Earth would
place us to the left of
its core. When it is parallel to us it would be pushing us forward to circle in front of it
and towards its right in a clockwise orbit. In this way, Nibiru
would effectively be
snatching us from our orbit round the Sun to make us orbit it instead. By the time it
swings us back towards the Sun and our star recaptures us, we will have been
carried far away and closer towards Mars' orbit.
One thing that is consistent in both simulated scenarios is Jupiter being pulled in
closer to
the Sun.
This is detrimental in many ways
but I'll mention the three most important. First,
Jupiter's greater proximity to the asteroid belt and inner planets will perturb their orbits
severely over time, causing almost constant strong earthquakes and other geological effects
on Earth, as well as pushing a myriad asteroids from the belt towards us. Second, as Jupiter
causes solar maxima during its perihelion to the Sun, its drastically reduced
distance will
only exacerbate the solar cycle, causing the minima to be as active
as the current maxima
and the maxima to elevate to levels unheard of before the passage of Nibiru. Lastly, these
conditions will be permanent.