This Google Sky image shows us Nibiru's current position and approach
path based on
Elenin's path (shown by the yellow pin markers) because they're practically the same except
that the former is right on the ecliptic slightly above the latter. Elenin reaches the ecliptic on
11 September 2011 at the farthest left-hand corner of the yellow curve path (the yellow brick
road, if you will) in the picture, breaks through it from then on and flies
higher and higher
above it (above the Sun from our perspective). Nibiru, however, will not do that. It will remain
on the ecliptic plane throughout the length and duration of its approach, even till it passes us
and moves away back into interstellar space.
The Elenin object(s) crossed Saturn's orbit on
29 May 2009 with Nibiru 8 AU behind it and
well into Uranus' orbit.
About two years later, at time of writing,
30 June 2011, the core of Nibiru should have
crossed Saturn's orbit, even as its harbinger, Elenin, crossed Mars' orbit about 8 AU ahead
of it. This tells us that at its current speed
Nibiru is about two years behind Elenin.
However, we should be careful with this conclusion because we must keep in mind that as
they approach the Sun these objects are accelerating faster and faster due to our star's
magnetic pull.
Thus this two-year gap between them will undoubtedly be decreasing at
an ever increasing rate as their proximity to the Sun and Earth also decreases. Let's
assume their velocity doubles by the time they get here, halving the length of time it
would take Nibiru to reach Earth. This means
Nibiru could then reach us one year
after Elenin, instead of two years
. Remember, the only reason Elenin hasn't reached
us already is because Nibiru's magnetic grip is holding it back. However, there is
nothing holding Nibiru itself back. In addition,
all the simulations
done on the
approach path of an object with the properties we've calculated for Nibiru using the
Universe Sandbox
program shows its acceleration at least doubling by the time it
enters the inner solar system and reaches Earth.
That Nibiru will indeed come much
sooner than two years after Elenin has been confirmed again and again by the
computer model.
On
4 July 2011, Saturn was well within the radius and grip of the outer magnetic field.
The image below shows how Nibiru's magnetic field should appear to a viewer on Earth in
the sky of
28 July 2011 if he could see it. The approximate positions of Nibiru and Elenin are
also shown. Notice Venus to the right of - and behind - the Sun entering the magnetic field.
The Sun itself is not in the field because it is farther away from it (or closer to us) than Venus
- think three-dimensionally. If Venus could easily be observed from this point on it should
begin to show signs of turbulence
in its atmosphere, just as Saturn did in December last
year. Unfortunately this may not be easy to tell as Venus enters the Sun's glare from this
point on and becomes difficult to observe from Earth.
VENUS UPDATE
:
Venus has already started to be affected by Nibiru's magnetic field
. See
these
video
,
video
(read comments) and
video
. This started
on 16 July, about
12 days
earlier
than expected. The reason for this is that the magnetic field is now moving ahead of
Elenin, because the comet is being diverted by the Sun towards the inner solar system. We
had earlier projected that the field
would by moving with Elenin, hence the slightly later date,
but due to the comet's diversion it is in fact currently moving ahead of it by about 12 days.
We've revised the subsequent dates to accommodate this new development.
Elenin: The "cluster" and the hour of truth. Confusion at NASA
- "What we see in LASCO is
Venus and this time has a luminosity 10 times higher than normal." (bottom of article)
As we'd expected, Venus collided with the right side of Nibiru's magnetic field, which is
pushing against it and
forcing it to slow down in its orbit
. It is also interacting with Venus'
magnetic field and
causing a distortion to form behind our sister planet
(also
here
).
The Sun is reacting to whatever is happening on Venus. It started shooting a
series of CMEs
towards the planet: first a strong on 26-28 July and a weak one through 29-31.
The sudden brightening on Venus being observed is so astonishing that many people are
questioning if it is actually our neighbouring planet. It indeed is. The brightening is due to
Nibiru's magnetism entering Venus' magnetosphere and condensing into high-frequency
electricity (plasma), which in turn is generating a high level of radiance on the planet's
atmosphere. It would seems Venus, like all the other planets such as
vertically-tilted Uranus
(which has the same degree of tilt we're currently seeing with Saturn), has suffered several
encounters with Nibiru's magnetosphere before:
The Scarring of Venus
: "The equatorial region of the planet Venus shows evidence of
massive electrical scarring, matching the patterns of spidery filaments seen in high-energy
plasma discharge."
That is what is occurring on Venus
at the moment, and will continue for as long as it remains
in the magnetic field. Venus is simply going through its version of the massive electrical
storm still raging on Saturn, which also will continue until the ringed gas giant escapes the
field. The field is now fast approaching the Sun, Mars, Mercury and, finally, us.
In light of new information, we've moved forward slightly the date when
we believe the Sun
should begin to be enveloped by the magnetic field. From about
3 August 2011 we expect
the Sun should have entered the field, at the same time that Elenin crosses Earth's orbit.
In fact, since 28 July 2011, we've observed that the Sun is already beginning to show signs
of increased activity, with
strong sunspots appearing on its surface
. One of them, 1262, has
the energy to unleash X-class solar flares.
On 29 July 2011, another sunspot,
1260, has also developed the potential to fire X-class
eruptions
.
30 July 2011,
sunspot 1261 fired an M9-class flare
, one notch short of an X.