Published on Sep 1, 2013
NZ Astronomer: There is no brown dwarf star ("Planet X") in our solar system
Nemesis Star Theory: The Sun's 'Death Star' Companion
by SPACE.com Staff | August 26, 2013 06:43pm ET
Nemesis
is a theoretical dwarf star thought to be a companion to our sun. The
theory was postulated to explain a perceived cycle of mass extinctions
in Earth's history. Scientists speculated that such a star could affect
the orbit of objects in the far outer solar system, sending them on a
collision course
with Earth.Recent astronomical surveys, however, failed to find any evidence that such a star exists.
In the early 1980s, scientists noticed that extinctions on Earth seemed to fall in a cyclical pattern. Mass extinctions seem to occur more frequently every 27 million years. The long span of time caused them to turn to astronomical events for an explanation.
In 1984, Richard Muller of the University
of California Berkley suggested that a red dwarf star 1.5 light-years
away could be the cause of the mass extinctions. Later theories have
suggested that Nemesis could be a brown or white dwarf, or a low-mass
star only a few times as massive as Jupiter. All would cast dim light,
making them difficult to spot.Scientists speculated that Nemesis may affect the Oort cloud
, which is made up of icy rocks surrounding the sun beyond the range of Pluto.
Many of these chunks travel around the sun in a long-term, elliptical
orbit. As they draw closer to the star, their ice begins to melt and
stream behind them, making them recognizable as comets.If Nemesis traveled through the Oort cloud every 27 million years, some argue, it could kick extra comets out of the sphere and send them hurling toward the inner solar system — and Earth. Impact rates would increase, and mass extinctions would be more common.
The Kuiper Belt, a disk of debris that lies inside of the solar system, also has a well-defined outer edge that could be sheared off by a companion star. Researchers have found other systems where a companion star seems to have affected the shape of the debris disks.
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Your Own World Books
Published on Jul 28, 2013
For
those of you who've been following and supporting our work at
yowusa.com over the years, this is the video you've been waiting for.In this video, we're going to view some very compelling images of two objects within the Planet X system. The brown dwarf at its core and one of it's outmost orbitals, we call Bluebonnet.
Here is what our findings shows.
Current: PX System is presently inbound from beyond the orbit of Saturn in conjunction with us (opposite side of the sun beyond Earth's orbit.)
Late 2013 to early 2014: The brown dwarf will be in a superior conjunction (opposite side of the sun inside Earth's orbit.) Around this time, the brown dwarf will be passing through the ecliptic into the Northern skies. This is when it will begin have more severe interactions with our Sun. We'll see solar storms and a big increase in volcanism and seismicity.
2015 to 2016: We'll see Bluebonnet (the outermost orbital we've tracked from the Turrialba volcan feed, with hundreds of images.) Shortly after that, the Brown Dwarf will move around to our side of the sun to it's point of perihelion (closest distance to the Sun) to the Greatest-western elongation (our side of the sun, inside our orbit to our right.) At this time, the brown dwarf will enter the kill zone.
Early Kill Zone: The Kill Zone is that part of the brown dwarf's orbit from perihelion to the ecliptic (the plane of our solar system.) This will be when we see solar storms of Biblical proportions.
Late Kill Zone: The Planet X system will exit our system through the Western-quadrature (our side of the side, exiting behind Earth's orbit) as it crosses the ecliptic from the Northern skies into the Southern skies. This is when the pole shift will be most likely as this is when the brown dwarf will lock on to our lithosphere (crust and the portion of the upper mantle) and where it's tidal gravity forces cause the pole shift.
Post Kill Zone: Overall, this whole flyby could take as long as a decade from now to when we begin to see the first signs of blue skies once again.**********************************************
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