CHAPTER 10 |
Planetary Orbits as Affected by Hale Bopp / Planet Nibiru
Precis
Historic records indicate that our solar system has experienced repetitive violent incidents over the last two hundred thousand years, due to the arrival of massive planet sized supernova debris coming from the direction of about 12 degrees of the constellation of Sagittarius, and from about 45 degrees below the plane of the ecliptic. Supportive evidence for these dramatic events should be discernible in the present orbital parameters of the officially recognised planets of our solar system, and possibly in the orbital parameters of certain of their satellites.
An examination of these planetary orbital parameters of the recognised planets confirms that the orbital parameters of the recognised planets conform to the logical expectations that would arise from our deduced past history of repetitive direct contacts with massive supernova debris (now known to us as comet Hale Bopp) and from indirect contact with a pre-existing planet (designated for convenience as Tiamat) that the intrusive debris appears to have once dislodged from its original orbit between Mars and Jupiter. Orbital parameters of the satellites of Jupiter, Saturn and Neptune are consistent with the deduced history of cosmic disruption.
Overview
Evidence for the arrival of massive supernova debris within our solar system some 200,000 years ago has been presented previously. In essence, the supernova debris was known to the ancient Sumerians as planet Nibiru, or "planet of crossing", because of its unusual orbit. In the early stages of its involvement in our solar system, Nibiru caused much damage, part of which was to displace a pre-existing planet known as Tiamat (about the size of Neptune) from an orbit between Mars and Jupiter, and send it into another very atypical and retrograde orbit.
The evidence for present day planetary orbital links to the intrusive planet Nibiru and the displaced planet Tiamat are summarised below. Orbital aspects of officially recognised planets were obtained from a heliocentric ephemeris produced by Michelson44 and corrected from the astrological zodiac to the actual stellar constellations by adjusting backwards by 300 . Those planets judged to be strongly linked are marked #.
Table 1 Solar System Orbital Entrainments
Planet |
Perihelion |
Perihelion deviation in degrees from Nibiru Perihelion |
North Node |
North Node deviation in degrees from Tiamat N node |
| Mercury | 17 0 Taurus | -25 # |
22 0 Aries | -50 |
| Venus | 11 0 Cancer | +29 # |
17 0 Taurus | -25 # |
| Earth | 14 0 Gemini | +2 # |
None | |
| Mars | 6 0 Aquarius | -126 |
20 0 Aries | -52 |
| Jupiter | 15 0 Pisces | -87 |
11 0 Gemini | -1 # |
| Saturn | 1 0 Gemini | -11 # |
23 0 Gemini | +11 # |
| Uranus | 19 0 Leo | 67 |
13 0 Taurus | -29 # |
| Neptune | 21 0 Pisces | -81 |
11 0 Cancer | +29 # |
| Pluto | 13 0 Leo | 61 |
19 0 Cancer | +37 |
Given that a random distribution of deviations would show values from 0 - 180 degrees, all officially recognised planets can be considered to be entrained (in varying degrees) to Tiamat, with respect to their north and south nodes, even the quite recently disturbed Mercury, Venus and Mars. The average deviation of north nodes for the planets from the estimated north node of planet Tiamat is only minus ten degrees. The planets Jupiter and Saturn are the most closely linked to the north node of Tiamat, and this is only to be expected since Jupiter stood next to Tiamat, and the ancient records suggest that it was two satellites of Saturn which were directly responsible for displacing Tiamat to an orbital inclination of about 150 degrees.
The planets Saturn and Earth have perihelions closely linked to planet Nibiru. Mercury and Venus, the planets seemingly raptured from their original duty as satellites to Saturn, are certainly well within their expected range of correlation with the perihelion direction of Nibiru.. With the possible exception of the recently disturbed planet Mars, for which no correlation with Nibiru could be expected, all of the remaining planets have perihelions clustering much closer to that of Nibiru than would be expected by chance. Excluding Mars, the average planet's deviation for its perihelion locus relative to the perihelion locus for planet Nibiru is only minus six degrees.
It is of interest that the locations for perihelion for Uranus and Pluto are almost identical, providing a possible link between the two planets, one that is consistent with the hypothesis that a member of the Pluto / Charon doublet is an escaped satellite of Uranus. It is also of interest that the north nodes of Neptune and Pluto occur very close together, providing a possible link between the two planets, one that is consistent with the hypothesis that a member of the Pluto / Charon doublet is an escaped satellite of Neptune.
Let us now look at some interesting aspects of the orbits of the satellites of the planet Jupiter, the planet nearest to the planet Tiamat when it was displaced into an elongated and retrograde orbit about 200 000 years ago. This Tiamat should have an orbital inclination of about 1500.
Satellites of Jupiter5.
| Satellite | Orbital inclination degrees |
Orbital eccentricity |
Diameter Km |
| Metis | 0 |
0 |
40 |
| Adrastea | 0 |
0 |
26*20*16 |
| Amalthea | 0.45 |
0.003 |
262*146*143 |
| Thebe | 0.9 |
0.013 |
110*90 |
| Io | 0.04 |
0.004 |
3660*3637*3631 |
| Europa | 0.47 |
0.009 |
3,130 |
| Gannymede | 0.21 |
0.002 |
5,268 |
| Callisto | 0.51 |
0.007 |
4,806 |
| Leda | 26.1 |
0.148 |
10 |
| Himalia | 27.6 |
0.158 |
170 |
| Lysithea | 29 |
0.107 |
24 |
| Elara | 24.8 |
0.207 |
80 |
| Ananke | 147 |
0.17 |
20 |
| Carme | 164 |
0.21 |
30 |
| Pasiphae | 145 |
0.38 |
36 |
| Sinope | 153 |
0.28 |
28 |
It can be readily seen that all of the inner eight satellites have basically circular orbits in the plane of the ecliptic. These are probably all original satellites, or at least satellites of very long standing.
The outer four satellites all have orbital inclinations of close to 150 degrees (average 152 deg). just like Tiamat is recorded to have, and they all have quite eccentric orbits. It is assumed that when Tiamat was displaced into a retrograde and inclined orbit, its satellites assumed the same inclination (to the plane of the ecliptic) of about 150 degrees, due to electromagnetic interactions. On these grounds, all four of these present satellites of Jupiter appear to have been raptured from planet Tiamat at some perihelion pass after its original displacement into retrograde orbit some 200 000 years ago.
Satellites Leda to Elara all have orbital inclinations of close to 30 degrees (average 27 degrees), and they also have quite eccentric orbits. An inclination of about 30 degrees would be the result of Jupiter capturing these bodies from planet Tiamat, on the opposite side of Jupiter to the side on which it captured its outermost four satellites, thus converting retrograde motion to normal motion. Note that 152 + 27 = 179. On these grounds, all four of these satellites appear to have been raptured from planet Tiamat at some perihelion pass after its original displacement some 200 000 years ago, and we can infer that the exact orbital inclination of the displaced planet Tiamat is very close to 152 degrees.
It is unlikely that Saturn would have captured any bodies from planet Tiamat, and this is confirmed by the fact that all of its satellites have orbits within 8 degrees of the plane of the ecliptic, and most are within one degree of the plane of the ecliptic. For the planet Uranus, all of its satellite orbits are within 0.11 degrees of the plane of the ecliptic.
It comes as a surprise then, to look at planet Neptune’s satellite orbits, and to find something quite unexpected.
Neptune's Satellites5
Satellite |
Orbital Inclination degrees |
Orbital eccentricity |
Diameter km |
Naiad |
0 |
0 |
54 |
| Thalassa | 0 |
0 |
80 |
| Despina | 0 |
0 |
180 |
| Galatea | 0 |
0 |
150 |
| Larissa | 0 |
0 |
192 |
| Proteus | 4.5 |
0 |
416 |
| Triton | 159.9 |
0.0002 |
2,705 |
| Nereid | 27.2 |
0.74 |
240 |
The inner six satellites of Neptune are probably all original satellites, or at least satellites of very long standing. Triton and Nereid, however, have equivalent orbital inclinations to the outer eight satellites of Jupiter, all of which seem to have been captured from planet Tiamat at some stage during the last 200 000 years. Triton and Nereid may also be escaped satellites of Tiamat, but the author has sighted no translations of ancient records that can explain this anomaly. Alternatively, the episode in which an escaped satellite of Uranus carried off a satellite of Neptune from between Triton and Nereid, may have been all that was necessary to generate these two opposite handed orbits.
Background:
It should help the reader if we re-iterate the deduced recent history of our solar system. Comet Hale Bopp has a highly elongated elliptical orbit. History indicates that it typically has taken about 3600 years to complete its orbit. It moves in a plane at right angles to the plane of the ecliptic, the virtually flat surface in which all the currently known planets of our solar system orbit our sun. The plane in which comet Hale Bopp orbits is the plane of our galactic disc and this implies that comet Hale Bopp was once intrusive debris from interstellar space
It seems virtually certain that Hale Bopp came to our solar system as a direct result of a massive supernova in a solar system now known as the Lagoon Nebula. This site is about 5000 light years away on the cusp of the constellations of Sagittarius and Scorpio, and the supernova here can be dated with some confidence as occurring close to 15 million years ago.
This intrusive planet and associated debris appear to have first entered our solar system travelling at an estimated 101 kilometres per second, and coming from about 45 degrees below the plane of the ecliptic. It pierced the plane of the ecliptic between the orbits of the planets Saturn and Uranus, becoming tangled up with the major planets of our solar system, and was trapped here in a very eccentric orbit.. In this first pass, it apparently toppled Uranus on its axis, while stripping four satellites from Uranus and gathering three of these for itself. The fourth satellite of Uranus seems to have been displaced outward and entered the orbit of Neptune, carrying the middle satellite off to form the Pluto / Charon asteroid doublet, and sending the outermost satellite of Neptune into an elongated orbit and Triton into a retrograde orbit.
At the same time as all this activity was occurring, the planet Saturn had also been nudged inwards and its satellites Venus and Mercury were forced into extremely elongated orbits. Venus, the larger of these two "ever returning maces" of the planet Saturn (Baal), apparently dislodged downwards the existing planet Tiamat (between Jupiter and Mars), sending it into an elongated retrograde orbit at an angle to the plane of the ecliptic (an angle claimed by the Sumerians to be about 30 degrees). This displaced planet Tiamat apparently subsequently has reached perihelion in the asteroid belt between Jupiter and Mars. The north node of its orbit (ie where it crosses the plane of the ecliptic in an upwards direction) logically occurs somewhere near the beginning of heliocentric Gemini, while its south node would occur near the beginning of heliocentric Sagittarius.
The implications are that the Mercury satellite of Saturn had an elongated orbit sufficient for it to disrupt Earth herself.
The history of the giant intrusive planet Nibiru with its four original satellites and three others that were acquired in our solar system, has become rather garbled with many retelling's of far spaced out (in time) but similarly catastrophic events, together with what, at times, seems to have been deliberately misleading propaganda from ruling elites. However, an "in depth" analysis based on the available evidence, appears to clarify the probable sequence of events.
Assuming an original orbital period of 3654 years for the Sumerian's planet Nibiru [ planet of crossing], then it would have made twenty six circuits from its initial appearance in about 200 000 years BP (Before Present) till it caused the probable original flood of Noah in 105 000 years BP. Persisting with the same average orbital period of 3654 years, it would have made a further fifteen orbits from the flood of Noah till it caused the loss of the motherland of Mu in approximately 50 000 years BP.
At the loss of the motherland, its orbital period seems to have been increased to about 4000 years till it caused the great flood in Atlantis dated at 30 000 years BP. This encounter appears to have reduced its orbital period back to about 3575 years where it remained till the pass in about 15 700 years BP, when it caused Antarctica to be displaced from the south pole and deglaciated.
This interaction with the inner solar system seemingly increased its orbital period at this time to about 4074 years, and on its next return, it caused Atlantis to be lost in about 11 600 years BP.
With an un-changed period of 4074 years, the next appearance of planet Nibiru seems to have been in about 7526 BP, at which time it caused Antarctica seems to be returned to the south pole. At this pass, the Mercury satellite of Saturn appears to have been raptured from Saturn, and released to the inner solar system. This interaction with Saturn and the inner solar system by the planet Nibiru seemingly reduced its orbital period to about 3900 years.
The next appearance of planet Nibiru was seemingly at the time of the Hebrew exodus from Egypt under Moses, in a quite reliable 1626 BC. At this pass the Venus satellite of planet Saturn was set loose by planet Nibiru, and it seems to have subsequently disrupted the orbit of the planet Mars. Since the records of this time report a close encounter between an intruding body (probably Venus) and the planet Jupiter, the orbital period of intruding planet Nibiru would have been reduced, and there are reasons to assume that its new orbital period became about 3622 years, or somewhere near where it has customarily been. It is due to appear anytime now.
The comet Hale Bopp bears all the hall marks of being this planet Nibiru, since it has the right orbital direction, right orbital period, right appearance, right chemical composition, and appears in the right time slot.
The recognised planets which could be expected to show the most obviously detectable direct disturbance from the supernova debris itself ( ie Nibiru ) are Saturn and Earth, with Mercury and Venus hopefully showing some evidence of historic events . The displaced and now highly eccentric planet Tiamat, which always lies above one side of the plane of the ecliptic and always lies below the other side of the plane of the ecliptic, could be expected to have a significant impact on the location of the north and south nodes of the officially recognised planets out beyond the asteroids and possibly the inner planets as well.
Effect of Planets Nibiru and Tiamat on Orbital Parameters for Recognised Planets.
Planet Saturn should show the most obvious evidence of orbital modification arising from past appearances of Nibiru. It is reported to have been nudged inwards (towards the sun) by its initial encounter with the supernova debris, debris that was travelling inwards towards the sun in the direction of about 11-12 degrees Gemini. On subsequent encounters, Saturn should only have been affected when the planet Nibiru was between it and the sun, and on these occasions, a general direction of about 11-12 degrees Gemini should have been re-inforced.
If Saturn gained momentum from its interaction with Nibiru, then one would expect to find its nearest approach to the sun (perihelion) to be somewhere near a heliocentric location of about 12 degrees Gemini. It reaches perihelion at about 1 degree Gemini, and is very closely related to the perihelion locus of Nibiru.
Saturn's north node is at about 23 degrees Gemini, and presumably is strongly influenced by the gravitational effects of planet Tiamat.
The average of these two directions is, of course, about 12 degrees Gemini. This is unlikely to have occurred by chance.
Planet Nibiru has made a great many downwards plunges at very near the Earth's orbit and at a heliocentric location of about 11-12 degrees of Gemini. A general direction of 11-12 degrees Gemini should have been emphasised with respect to the Earth's orbit by its repeated passages.
If Earth gained momentum from its interaction with Nibiru, then one would expect to find its nearest approach to the sun (perihelion) to be somewhere near a heliocentric location of about 12 degrees Gemini Earth reaches perihelion at about 14 degrees Gemini. This is unlikely to have occurred by chance.
The plane of the ecliptic is defined by the Earth's orbit, so we can ignore this parameter. for Earth.
There is no direct historic indication of planet Nibiru actually physically nudging Jupiter, so any direct effects on Jupiter by Nibiru are likely to be small. Jupiter reaches perihelion at about 15 degrees Pisces, reinforcing this expectation.
One would expect to find the north node of Jupiter somewhere near the heliocentric location of about 11-12 degrees Gemini, if it is being influenced by planet Tiamat.
Jupiter's north node occurs at a heliocentric direction of about 11 degrees Gemini and it presumably is very strongly influenced by the gravitational effects of planet Tiamat. This is unlikely to have occurred by chance.
Mercury and Venus appear to have been former satellites of planet Saturn, raptured from their parent by a passage of Planet Nibiru. Such a rapture could only occur when Nibiru was somewhere nearly between Saturn and the Sun. It would be most likely to occur when Nibiru was between Saturn on one side and Jupiter plus the Sun on the other side. This rapture would necessarily send Mercury and Venus in the general direction of the sun ( ie at about 12 degrees Gemini), plus or minus a bit to allow for their initial orbital velocity and the intervening planetary bodies. We should expect to find the heliocentric direction for perihelion of Mercury and Venus within say + 45 degrees of about 12 degrees Gemini.
Mercury reaches perihelion at about 17 degrees Taurus while Venus reaches perihelion at about 11 degrees Cancer. These heliocentric directions lie within + 30 degrees of 12 degrees Gemini. This is unlikely to have occurred by chance.
Mercury and Venus have not been in their present orbits for more than the estimated time for one or two orbits of planet Tiamat, and they are quite close to the Sun, so it would be unreasonable to expect their north node to be closely linked to Tiamat. Nevertheless, Venus has its heliocentric north node at about 17 degrees Taurus (within 25 degrees of the Tiamat alignment), while Mercury has its north node at about 22 degrees Aries (within 50 degrees of the Tiamat alignment). This is unlikely to have occurred by chance.
Uranus would have been little influenced by repeated gravitational incidents with planet Nibiru so that its perihelion location should not be strongly influenced by Nibiru. Nevertheless, with perihelion at about 19 degrees Leo, it is a little less than 60 degrees from the perihelion point of Nibiru.
The north node of Uranus should be somewhere near 12 degrees Gemini, if affected by planet Tiamat, but it could be expected to be less affected than Saturn and Jupiter because of its longer orbital period and greater remove from the orbit of Tiamat. Its heliocentric north node occurs only 29 degrees away from this location, at about 13 degrees Taurus. This is unlikely to have occurred by chance.
The loss of four of its original satellites, probably upset the dynamic stability of Uranus and contributed towards its toppling on its axis. This would have been the result of a once only encounter with one or more of the original four satellites of planet Nibiru, and the satellites of Nibiru alone would probably not have been sufficient to make any major changes to the actual orbit of Uranus.
Neptune would have been little affected by repeated gravitational incidents with planet Nibiru so that its perihelion direction should be poorly related to the perihelion of Nibiru. Its perihelion at about 21 degrees Pisces (about 81 degrees away) conforms with this expectation.
If its north node is strongly linked to planet Tiamat, its north node should be somewhere near 12 degrees Gemini, but it could be expected to be less affected by Tiamat than Saturn and Jupiter . Its heliocentric north node occurs only 29 degrees away from the location indicated, at about 11 degrees Cancer. This is unlikely to have occurred by chance.
The loss of the satellite of Neptune from between Triton and Nereid, the retrograde orbit of its Triton and the extremely elongated orbit of the outermost satellite (Nereid) appear to have resulted from an encounter with a raptured satellite of planet Uranus. This raptured satellite of Uranus, together with the raptured satellite of Neptune, appear to have become the Pluto / Charon couplet.
The Pluto / Charon couplet would have been basically unaffected by repeated gravitational incidents with planet Nibiru so that its perihelion direction should bear little resemblance to that for Nibiru. With its perihelion at about 13 degrees Leo, it is about 60 degrees away from the perihelion point for planet Nibiru.
The Pluto / Charon couplet's north node should be somewhere near 12 degrees Gemini, if it is strongly affected by planet Tiamat. The heliocentric north node of Pluto / Charon occurs only 37 degrees away from this location, at about 19 degrees Cancer. This is unlikely to have occurred by chance.
Since the Pluto / Charon couplet orbit the solar system in a normal direction, the raptured satellite of Uranus must have travelled in normal planetary orbital direction to intercept the planet Neptune. At this location it must have passed in front of the direction of motion of Neptune, in order to rapture its middle satellite and send its outermost satellite into retrograde orbit.
Given that the raptured satellite of Uranus intercepted Neptune after travelling in a normal planetary orbital direction, then its orbital location on reaching Neptune can be deduced. Its gain of energy from its interaction with Neptune (and acquisition of a companion ), should have caused it to soon reach perihelion.
Of all the planets, Mars should be least strongly associated with either Nibiru or Tiamat, since historic records indicate that it was seriously disturbed by Venus, just a few centuries before the common calendar era.
Its perihelion occurs at about 6 degrees Aquarius, and its north node is at about 20 degrees Aries, conforming to these expectations. Nevertheless, its north node still occurs on that side of the solar system where Tiamat is above the plane of the ecliptic, and about 52 degrees away from the north node of Tiamat.
Summary
The evidence for planetary orbital links to the intrusive planet Nibiru and the displaced planet Tiamat are summarised below. Orbital aspects of officially recognised planets were obtained from a heliocentric ephemeris 44 and corrected from the astrological zodiac to the actual stellar constellations by adjusting backwards by 300 Those planets judged to be strongly linked are marked #.
Given that a random distribution of deviations would show values from 0 - 180 degrees, all officially recognised planets can be considered to be entrained (in varying degrees) to Tiamat, with respect to their north and south nodes, even the quite recently disturbed Mercury, Venus and Mars. The average deviation of north nodes for the planets from the estimated north node of planet Tiamat is only minus ten degrees.
The planets Saturn and Earth have perihelions closely linked to planet Nibiru. Mercury and Venus, the planets seemingly raptured from their original duty as satellites to Saturn, are certainly well within their expected range of correlation with the perihelion direction of Nibiru.. With the possible exception of the recently disturbed planet Mars, for which no correlation with Nibiru could be expected, all of the remaining planets have perihelions clustering much closer to that of Nibiru than would be expected by chance. Excluding Mars, the average planet's deviation for its perihelion locus relative to the perihelion locus for planet Nibiru is only minus six degrees.
Table 1 Solar System Orbital Entrainments
Planet |
Perihelion |
Perihelion deviation in degrees from Nibiru Perihelion |
North Node |
North Node deviation in degrees from Tiamat N node |
| Mercury | 17 0 Taurus | -25 # |
22 0 Aries | -50 |
| Venus | 11 0 Cancer | +29 # |
17 0 Taurus | -25 # |
| Earth | 14 0 Gemini | +2 # |
None | |
| Mars | 6 0 Aquarius | -126 |
20 0 Aries | -52 |
| Jupiter | 15 0 Pisces | -87 |
11 0 Gemini | -1 # |
| Saturn | 1 0 Gemini | -11 # |
23 0 Gemini | +11 # |
| Uranus | 19 0 Leo | 67 |
13 0 Taurus | -29 # |
| Neptune | 21 0 Pisces | -81 |
11 0 Cancer | +29 # |
| Pluto | 13 0 Leo | 61 |
19 0 Cancer | +37 |
It is of interest that the locations for perihelion for Uranus and Pluto are almost identical, providing a possible link between the two planets, one that is consistent with the hypothesis that a member of the Pluto / Charon doublet is an escaped satellite of Uranus.
It is also of interest that the north nodes of Neptune and Pluto occur very close together, providing a possible link between the two planets, one that is consistent with the hypothesis that a member of the Pluto / Charon doublet is an escaped satellite of Neptune.
Conclusion:
Evidence from the orbital parameters of the officially recognised planets in our solar system fully supports the argument that intrusive supernova debris has severely disrupted our solar system on a repetitive basis over the last 200, 000 years, and very much supports the description given by this writer of the manner whereby this destruction proceeded.