Elenin
Elenin's solid core and magnetic field: We know the Elenin object has a nucleus (solid
core) with a diameter of up to 4 km and a coma (composed of magnetic, electric and
luminous (light) fields) spanning up to 120,000 km wide as of 12 June 2011.
However its coma will continue to expand at an increasingly rapid rate of 20,000 to 160,000
km a month as it feeds off the Sun's magnetism until it reaches perihelion on 11 September
2011, when its magnetic field should have inflated to at least 400,000 km in diameter at
perihelion.
Some astrophysicists have recalculated Elenin's orbit and have determined it will come as
close as
0.0004 AU or 59,839 km. Thus when Elenin reaches perigee a month later on 16
October 2011 when its proximity to Earth will be only
0.0004 AU
or 59,839 km, it will
completely envelop the planet and the Moon within its magnetic/electric/luminous field.
The Elenin harbinger object(s) moving directly in front of Nibiru at a distance of about
8 AU marks the leading edge of the giant object's magnetic radius. The Elenin object(s)
was about 8.16 AU away from the Sun on
16 October 2009 and therefore equidistant
between the Sun and Nibiru on that date. Exactly two years later it will reach its perigee to
the Earth on
16 October 2011, which is 23 months to the day after it was equidistant
between the Earth and Nibiru on
16 November 2009.
We will use the Solar equidistance of 16 October 2009 as the start of our countdown until
Elenin's perihelion on
11 September 2011 and the Earth equidistance of 16 November 2009
as the countdown till its perigee.
However, because Elenin is flying adjacent to
and around the Sun, without flying directly
towards it, the leading edge of Nibiru's magnetic cloud will envelop the Sun a little earlier
than Elenin's perihelion and the same with the Earth prior to perigee because our planet's
orbit can bring it 1 AU closer, provided it is on the same side of the Sun as Elenin, or 2 AU
farther, if it is directly on the opposite side of the Sun from Elenin.
The evidence that Elenin is moving with a huge magnetic field is seen
in the animation shots
of the object(s) taken by
French astronomers
on 4 and 6 March earlier this year.
Watch this animation closely:
c2010x1_20110304_animation_800_b82
Notice that the
smaller stars dim (and even disappear!) as Elenin and its companion objects
approach.
The animation can also be viewed
here
(scroll down). These companion objects appear to
be pushed alongside Elenin by Nibiru's magnetic field.
Here is
another animation
(scroll down) showing the same dimming of stars in
the vicinity of
the Elenin object(s).
Look at this
small video
at the middle of this page (scroll down a bit). Keep your eye on the
four small stars in front of Elenin. See how they flicker and dim as it approaches them. The
dimming effect is a bit more subtle than in the two animations above
but it is clear to see
once you know what to look for.
This other animated clip of Elenin more clearly shows the magnetic field that is pushing it
along. To see it, go to
this website
and click on the first image in the gallery at the middle of
the page (where it says
First and latest images of the Comet).
You can clearly see that about 5/6th of the image is dark, where Elenin is, with only 1/6th of
it lighter in the left-hand corner. Now notice the bright star in the top-left corner right under
the word 'COMET'. Look straight up and then down from that star and you'll see the edge of
the large 'sphere' that separates the dark area from the lighter area. Notice also that the
edge of the dark area remains consistent despite the fluctuations in the brightness levels of
the clip. This footage, as indicated on the clip, was
taken by Spanish astronomer
Gustavo
Muler
from Lanzarote, Canary Islands, on 2 April 2011.
This amateur astronomer shows in
this video
the stars in the vicinity of Elenin dim and then
seemingly blink out of existence. He tries to make sense of this anomaly in
this video
.
The same astronomer has difficulty seeing the comet and
this video
shows the object visible
and then invisible from one day to the next.
These images and videos further prove that the magnetic field is
not only present but it is
massive and is so strong even the outer fringes of it, where Elenin travels, can absorb and
snuff out the light of background stars.
The strength or extent of the field seems to wax and wane periodically such that sometimes
it allows the weak light from the Elenin object (and nearby stars) to
be visible and other times
it completely enshrouds and conceals the light from Elenin (and some stars), making it
virtually invisible.
This is why astronomers have difficulty finding and tracking Elenin: at times it is clearly
visible and other times completely imperceptible, causing much perplexity.