Nibiru's outer magnetic circumference: to calculate the circumference we will use this
formula C = π x
d, wher
e C is circumference, π = 3.141592
, d = diameter. Therefore C =
π
x
2,442,371,253 = 7672935586. Therefore, Nibiru's outer magnetic field has a
circumference of 7,672,935,586 km.
Nibiru's inner magnetic circumference: C =
π
x 27,452,490 = 86,244,541 km.
Nibiru's core magnetic circumference: C =
π
x 9,799,461 = 30,785,915 km.
We see that Nibiru's black magnetic shell represents a protective region with such dense
magnetism that it permits no light, visible or invisible, to pass through it, except for the
intense radiation from the core. The core, at the centre of which resides Nibiru itself, appears
to be a self-contained area that, relative to the absolute coldness of the shell, must be very
hot or radioactive (meaning high luminous or light activity). Indeed, it is so radioactive that it
is emitting very powerful radiation beams or
gamma ray bursts
from both poles, which are
acting as relief valves to eject any excess radiation being generated within the core.
Typically, only some of the universe's most powerful entities or events detected by modern
science, such as supernovas,
neutron stars
,
pulsars
,
quasars
, black stars (so-called 'black
holes') and even entire galaxies, are known to emit gamma ray bursts. Nibiru's GRBs are still
minuscule in comparison with those of these humongous stellar objects, but the fact that it
emits them at all is extraordinary!
That the certainly warm space within the core
may or may not harbour habitable planets or
moons
is beyond the scope of this analysis to tell (compare with
the red dwarf Gliese's
planetary system
). Only by sending a probe, provided one can be made that could possibly
survive the immense energies and coldness of the black shell, into the core can this be
ascertained. Then again such an attempt has probably already been made, with deep space
probe Pioneer 10, but which
failed miserably and was completely lost
en route to its mission.
We'll look further into the mystery of the Pioneer mission later in this investigation.
Warning from Saturn
As for the outer magnetic field, it is now close enough for the left edge of it (from Earth's
POV) to completely overtake Saturn. It reached the planet on about 1 December 2010,
causing
super-massive storms to rage across its atmosphere
and forcing the solar
system's second largest planet to tilt away from normal by almost 90
!
The massive storm circling Saturn's atmosphere. Visible (left and middle) and infrared (right). The storm started around December 2010. The left hand picture
was taken on 28 December 2010 and middle one on 7 July 2011, which shows the storm has grown tremendously and circled back on itself.
Left: Enceladus, a moon of Saturn, shoots out a huge jet of water, ice, dust and gas from a huge crack on its
surface. Picture taken on 1 December 2010. The giant crack first appeared around October 2008 (right), which
is the same period that large sink holes also appeared on Enceladus' surface (middle). Elenin was closest to
Saturn around this time as it approached it on its way to the inner solar system. The object is having the same
effect on Earth as it nears us, causing huge
sinkholes
and
cracks
to appear on the land in many countries.
Left: October 2009 - NASA's Spitzer Space Telescope has spotted a
massive, nearly invisible ring around Saturn. The ring's orbit is tilted
27 degrees from the planet's main ring plane. The bulk of it starts
about 3.7 million miles (6 million km) away from the planet and
extends outward another 7.4 million miles (12 million km). This is
not actually a completely new ring like Nasa thinks. It was formed
from dust and debris pulled by the approaching Nibiru's magnetic
force from the original rings of Saturn. Saturn's own magnetism
kept the dust particles in an orbit around it and thus forming a 'new'
ring.
Left: Titan (big yellow) and Dione (small white) during 5April2010 Cassini flyby
with the red glow from Nibiru lurking behind the shadow of Titan as the giant
approached Saturn - the red glow seems to be causing a green light on the
night side of Titan's atmosphere. Note the black smudge behind Dione to
conceal whatever is casting the red glow. Below: Celestia image confirms
Cassini's position relative to Dione and Titan on 5 April 2010 (zoom in to view).
The formidable magnetism of Nibiru has indeed tilted Saturn, the second largest planet in
our solar system, by up to 90
away from its natural inclination. Compare these pairs of
images, the left ones show how Saturn should appear as viewed from Cape Girardeau,
USA, on 1 June and 30 June 2011, respectively, while the ones on the right show how far
Saturn has tilted from normal, also as viewed from the same location during those dates
(btw,
the shots
were by Dr Byron Glen, aka cru4t). Note: the times in the Stellarium images
are based on GMT, which is six hours ahead of the local time in Missouri and the rest of
Midwest US. So always remember to go back six hours (GMT -6) from the times/dates
shown on the Stellarium images to get the local time at the locations indicated.
Another thing we've observed is that the tilt of Saturn is noticeably more pronounced in
some earlier images more than later ones. This may be because Nibiru's magnetism pulses,
both increasing and receding in steady cadence like waves hitting a beach, and like waves
some are stronger (causing a more severe tilt) than others (causing a slighter tilt).
Stellarium shows how Saturn should look on 1 June 2011,
22:15 pm local time, Cape Girardeau, Missouri (note the
dates and time in the picture is based on GMT. The local
time in Missouri is GMT -6.
Real picture of Saturn showing it has tilted upwards by
about 45 degrees. Nibiru is to the right of Saturn in the
sky. Imaged by Dr Glen using his telescope. Time stamp:
22:15pm (local time), Cape Girardeau, MO, USA
30 June 2011. 22:06pm. Saturn should be tilted as shown
above given the time, date and viewing location.
30 June 2011. 22:06pm. Saturn is tilted in the opposite
direction and by a 90 degree angle away from its normal
inclination. The tilt has more than doubled in the space of
a month!
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