This is also a good visual of how the object's magnetic field
distorts the space and light
around it. This shows why Dr Glen saw Regulus appear to stretch into a crescent or
outstretched fingers, because the magnetism was bending the light from the star.
A strong, highly-tilted interstellar magnetic field near the Solar System: "We conclude
that the interstellar medium field is turbulent or has a distortion in the solar vicinity."
http://www.nature.com/nature/journal/v462/n7276/full/nature08567.html
VOYAGER
MAKES
AN
INTERSTELLAR
DISCOVERY:
"Using data from Voyager, we
have discovered a strong magnetic field just outside the solar system," explains lead author
Merav Opher, a NASA Heliophysics Guest Investigator from George Mason University.
http://science.nasa.gov/science-news/science-at-nasa/2009/23dec_voyager/
Left: Voyager flies through
the outer bounds of the
heliosphere
en route to
interstellar space. A strong
magnetic field reported by
Opher et al in the Dec 24
2009 issue of Nature is
delineated in yellow [and
orange]. Image copyright
2009, The American
Museum of Natural History.
[The Sun's magnetic field or
'heliosphere' in the image is
depicted by the large
purple
sphere.]
Nibiru's magnetic strength: Nibiru's distance from Elenin (assuming it is one of its
outermost satellites thought of as a comet) is 2442371253 / 2 =
1,221,185,627 km (Nibiru's
magnetic radius, or roughly Elenin's farthest orbital point from Nibiru). Jupiter's farthest moon
orbits at 29,540,000 km. Therefore, 1221185627 / 29540000 = 41.3. Thus
Nibiru's
magnetic strength is 41.3 times Jupiter's. On a side note: Jupiter's
detectable magnetic
field strength (4.28 gauss or 428 microtesia) is
officially 20.4 times that of Saturn (0.21 G or
21 uT). However, Saturn's magnetic field reaches as far as its farthest
natural moon, Titan,
at 1,221,830 km. Therefore 29540000 / 1221830 = 24, which means Jupiter's magnetic
strength is more accurately 24 (not 20.4) times that of Saturn (assuming Saturn's magnetic
strength is accurate). Therefore Jupiter has 5.04G or 504uT.
Since Nibiru is 41.3 times
magnetically stronger than Jupiter then its detectable magnetic strength should be
208.15G or 20,815 uT. This also gives Nibiru about 1000 times Saturn's magnetic strength
(24 x 41.3 = 991.2) - no wonder it could tilt the ringed planet so easily over the past seven
months since December 2010 when its massive magnetic field overtook it.
The Sun's magnetic field reaches as far out as 7,311,000,000 km (about Pluto's farthest
distance or aphelion). Therefore dividing this by Nibiru's magnetic field span: 7311000000 /
1221185627 = 5.99.
Thus the Sun's magnetic strength is 5.99 times Nibiru's, and should
then be 5.99 x 208.15 = 1,247 G or 124,700 uT (or approx 125 millitesia/mT).
Therefore Nibiru has to come 5.99 times closer to the Earth than the Sun to
have an equal
hold on our planet as our star, and closer than that to exceed the Sun's hold. That distance
Nibiru needs to reach is 149,598,000 km (1 AU) / 5.99 =
24,974,624 km. However,
according to Nasa, on
16 October 2011 Elenin will reach a perigee of
34,706,736 km (0.232
AU) from Earth. Since Nibiru is travelling on Elenin's orbital path at about the same speed
and 8 AU behind it, we've estimated that it will reach perigee to Earth exactly one
year after
Elenin's own perigee, on
16 October 2012. Its distance to the Earth then will also be more
or less the same as Elenin, 0.232 AU or 34,706,736 km, which is 1.39 times the distance it
needs to reach to equal the Sun's grip.
At that distance it will only be able to exert about
0.72 or 72% of the magnetic power of the Sun, relatively speaking, on the Earth. This
means it should potentially be able to tilt the Earth by an angle up to 72% away from its
natural inclination during that time period (
72% of 360
is 259.2
). In addition, bearing in
mind Nibiru's black magnetic shell has a radius of 13,726,245 km means
on that date the
Earth could come within 20,980,491 km of it - perilously close by astronomical
standards!
See the timeline of Nibiru's approach further below.
However, if we go by
the recalculated
0.0004 AU or 59,839 km perigee according to a Nasa
astrophysicist
on Nasa's now closed
Buzz Room
, and assume Nibiru comes as close as
that, means it could approach 417 times closer than the required distance of magnetic
equality and if it gets that close could therefore relatively attain 417 times the magnetic
power of the Sun. However, Nibiru has a solid radius of at least 80,000 km (see below) so if
it ever comes that close would directly collide with and obliterate the Earth! We can resolve
this by suggesting that the 0.0004 AU perigee is that of the relatively minuscule Elenin, as
stated by the scientist who calculated it, and the 0.232 AU perigee officially published by
Nasa's
JPL
is actually that of Nibiru in October 2012, not Elenin before it in October 2011.
Calculating the mean of the two extremely disparate perigees yields
a distance very close to
our distance of magnetic equality: 34706736 + 59839 / 2 =
17,383,288 km, which is only 1.4
times or 7,591,336 km closer than the distance of magnetic equality. At this mean distance
of approx 17 million km, Nibiru should achieve about 1.44 times or 144% of the Sun's
magnetic influence, with the power to completely flip the Earth through 518.4
.
Nibiru's speed (forward velocity): the object's speed at Jupiter orbit is
25,890.05 mph (at
1,000,000 km a day or 41,667 km/h or 11.57km/s). Jupiter's speed at its orbit is
29,236.76 mph. Difference between Jupiter and Nibiru speed:
3,346.71 mph (A). Its speed
at Saturn orbit is
18,123.53 mph (at 700,000 km a day or 29,167 km/h). Saturn's speed at
its orbit is
21,675.91 mph. Difference between Saturn speed and Nibiru speed:
3,552.38
mph (B). Difference between Nibiru speed at Saturn orbit and Nibiru speed at Jupiter orbit:
7,766.52 mph (C). Difference between Jupiter speed and Saturn speed:
7,560.85 mph (D).
Difference between Jupiter vs Nibiru speed (A) and Saturn vs Nibiru speed (B) is equal to
difference between Nibiru's acceleration from Saturn to Jupiter orbit (C) and speed
difference between Jupiter and Saturn (D):
A (3346.71) - B (3552.38) = 205.67 mph
C (7766.52) - D (7560.85) = 205.67 mph. Therefore
A - B = C - D.
Therefore Nibiru's acceleration from Saturn orbit to Jupiter orbit is equal to (hypothetical)
Jupiter acceleration from Saturn orbit to Jupiter orbit. This suggests:
(1) that Nibiru has
more mass than Jupiter and Saturn as it is slower than either of them at their orbits;
and (2) the mass ratio between Jupiter and Saturn (3.34:1) is proportional to the mass
ratio between Nibiru and Jupiter.
Nibiru's spin speed (rotational velocity): Jupiter spin speed is 28,148.11 mph. Saturn spin
speed is 22,058.68 mph. 28148.11/22058.68 = 1.28, thus Jupiter spins 1.28 times faster
than Saturn. Perhaps Nibiru spins at about 36,029.58 mph, which is 1.28 times faster than
Jupiter if we assume the 3.34:1 mass ratio presupposed above holds.
Nibiru's solid mass: Based on their relative speed differences, we hypothesise that the
Nibiru-Jupiter mass ratio is similar to the Jupiter-Saturn mass ratio.
Jupiter mass
is 317.8
Earth masses or 1/1047 Sun mass. Saturn mass is 95.152 Earth masses. Jupiter is 3.34
Saturn masses i.e. 317.8/95.152 = 3.34. Therefore
Nibiru is hypothetically 3.34 (or 3 to 4)
Jupiter masses = 11.1556 Saturn masses = 1061.452 Earth masses = 3.34/1047 or
1/313.473 or 0.00319 Sun mass. This is close to scientists' estimate
of the mass of a
possible planet detected near or within the solar system called
Tyche
: "Whitmire and Matese
speculate that the hypothesized planet could be up to four times the mass of Jupiter." View
this
video
, this
video
and this
video
of the Tyche super planet.