The known planets in our solar system travel in concentric orbits around the sun. The closer one is to the sun, the faster it goes and conversely, the farther out it is the slower it goes. (See here.)
But, what can we surmise about an elliptical orbit like "Planet Nine's" which takes it far out from the sun at one end of its trajectory and brings it very close in at the opposite end? Would it not be logical to assume that it goes slower the farther out it is and speeds up as it gets closer to the sun? How would one ever determine how long its orbit takes when the speed is so variable? And what about when it reaches its return loop around the sun? Can one assume that its speed will at least be similar to those of the innermost planets (Mercury, Venus, Earth and Mars) or will it's huge size impact on that at all?
Well, just for speculation's sake, I took a rough average between the three inner planets' orbital speeds (84,000 mph) and I calculated how long it would take "Planet Nine" aka Nibiru to cover the distance between Earth and the Sun (93 million miles). I got 1107.14 hours or roughly 46 days.
The Zohar says that people will see this "Star" for 40 days. In my elementary calculations, six days represents approximately 12 million miles. So, if we are seeing it now near the sun, perhaps 12 million miles is as close as it will come to our planet. But, what would that look like?
The moon is only 225,622 miles away from the Earth. However, the moon is only 27% the size of the Earth. Using the most conservative estimate for "Planet Nine" - that it is five times the size of Earth - this is how the three compare side by side.
As you can see, if the moon, at its size and distance can blot out the sun in an eclipse, Nibiru could do the same - for a much longer period of time - and still be at a safe enough distance so it's not going to collide with us. The havoc it will wreak on our planet will be caused by the interaction between its magnetism and Earth's magnetism (and the debris trail which follows it). This is what likely will trigger a magnetic pole reversal on Earth with all its concomitant effects.
We can get some idea of what is possible in such an encounter from reports of what NASA discovered about the passing of Comet Siding Spring over Mars in October 2014. (And this report just came out last week!)
Close comet flyby threw Mars' magnetic field into chaos
...The one-of-a-kind opportunity gave scientists an intimate view of the havoc that the comet’s passing wreaked on the magnetic environment, or magnetosphere, around Mars. The effect was temporary but profound. “Comet Siding Spring plunged the magnetic field around Mars into chaos,” said Jared Espley, a MAVEN science team member at NASA’s Goddard Space Flight Center in Greenbelt, Maryland. “We think the encounter blew away part of Mars’ upper atmosphere, much like a strong solar storm would.”
[Mars has a magnetic field, but a very weak one. Earth's magnetic field has been weakening progressively for the past several years.]
...Comet Siding Spring is also surrounded by a magnetic field.
...When Comet Siding Spring passed Mars, the two bodies came within about 87,000 miles (140,000km) of each other. The comet’s coma washed over the planet for several hours, with the dense inner coma reaching, or nearly reaching, the surface. Mars was flooded with an invisible tide of charged particles from the coma, and the powerful magnetic field around the comet temporarily merged with and overwhelmed the planet’s own weak one.
At first, the changes were subtle. As Mars’ magnetosphere, which is normally draped neatly over the planet, started to react to the comet’s approach, some regions began to realign to point in different directions. With the comet’s advance, these effects built in intensity, almost making the planet’s magnetic field flap like a curtain in the wind. By the time of closest approach, when the plasma from the comet was densest, Mars’ magnetic field was in complete chaos. Even hours after the comet’s departure, some disruption continued to be measured.
If a comet can do this, what could a planet with ten times Earth's mass do???
On the first diagram above, could you make another one showing where the sun is in relation to the moon, earth, and NIBIRU? Doesn't Nibiru pass between our sun and the earth?
ReplyDeleteThere's not room on the page. This shows Nibiru at 12 million miles from Earth and the sun is 93 million miles away.
DeleteFor the planet to orbit the sun coming from the opposite direction, yes, it has to cross paths with something here on the other side.
Another question. In its orbit, Nibiru must go close by other planets? Mars? Mercury? Is there not turbulence with these other planets? Does anyone know?
ReplyDeleteAnyone who knows anything for sure, isn't talking about it. If they do, they and their entire families will lose their places in the bunkers.
ReplyDeleteFrom what I can see using The Planets Today website, it looks like it is possible for it to miss the other planets of the inner solar system, but just barely.
But, Hashem can do anything!