Magnetic Polar Shifts Causing Massive Global Superstorms
2012: The Polar Shift Explained:The Beginning of Ice Age: Magnetic Polar Shifts Causing Massive Global Superstorms
The Earth doesn't stop wobbling all of a sudden for no reason. We are seeing the effects of a change in the electro-magnetic forcing upon the Earth (weather and geology). The change is forced upon the Earth and not the other way. For example if other planets experience a magnetic change, this is a smoking gun that it doesn't come from the Earth but from space. Too bad the article has no references.February 7, 2011
Helium - NASA has been warning about it...scientific papers have been written about it...geologists have seen its traces in rock strata and ice core samples...
Now "it" is here: an unstoppable magnetic pole shift that has sped up and is causing life-threatening havoc with the world's weather.
Forget about global warming — man-made or natural — what drives planetary weather patterns is the climate and what drives the climate is the sun's magnetosphere and its electromagnetic interaction with a planet's own magnetic field.
When the field shifts, when it fluctuates, when it goes into flux and begins to become unstable anything can happen. And what normally happens is that all hell breaks loose.
Magnetic polar shifts have occurred many times in Earth's history. It's happening again now to every planet in the solar system including Earth.
The magnetic field drives weather to a significant degree and when that field starts migrating superstorms start erupting.
The superstorms have arrived
The first evidence we have that the dangerous superstorm cycle has started is the devastating series of storms that pounded the UK during late 2010.
On the heels of the lashing the British Isles sustained, monster storms began to pummel North America. The latest superstorm — as of this writing — is a monster over the U.S. that stretched across 2,000 miles affecting more than 150 million people.
Yet even as that storm wreaked havoc across the Western, Southern, Midwestern and Northeastern states, another superstorm broke out in the Pacific and closed in on Australia.
The southern continent had already dealt with the disaster of historic superstorm flooding from rains that dropped as much as several feet in a matter of hours. Tens of thousands of homes were damaged or destroyed. After the deluge bull sharks were spotted swimming between houses in what was once the quiet town of Goodna.
Shocked authorities now numbly concede that some of the water may never dissipate and have wearily resigned themselves to the possibility that region will now contain a small inland sea.
But then only a handful of weeks later another superstorm — the mega-monster cyclone Yasi — struck northeastern Australia. The damage it left in its wake is being called by rescue workers a war zone.
The incredible superstorm packed winds near 190 mph. Although labeled as a category-5 cyclone, it was theoretically a category-6. The reason for that is storms with winds of 155 mph are considered category-5, yet Yasi was almost 22 percent stronger than that.
A cat's cradle
Yet Yasi may only be a foretaste of future superstorms. Some climate researchers, monitoring the rapidly shifting magnetic field, are predicting superstorms in the future with winds as high as 300 to 400mph.
Such storms would totally destroy anything they came into contact with on land.
The possibility more storms like Yasi or worse will wreak havoc on our civilization and resources is found in the complicated electromagnetic relationship between the sun and Earth. The synergistic tug-of-war has been compared by some to an intricately constructed cat's cradle. And it's in a constant state of flux.
The sun's dynamic, ever-changing electric magnetosphere interfaces with the Earth's own magnetic field affecting, to a degree, the Earth's rotation, precessional wobble, dynamics of the planet's core, its ocean currents and — above all else — the weather.
Cracks in Earth's Magnetic Shield
The Earth's northern magnetic pole was moving towards Russia at a rate of about five miles annually. That progression to the East had been happening for decades.
Suddenly, in the past decade the rate sped up. Now the magnetic pole is shifting East at a rate of 40 miles annually, an increase of 800 percent. And it continues to accelerate.
Recently, as the magnetic field fluctuates, NASA has discovered "cracks" in it. This is worrisome as it significantly affects the ionosphere, troposphere wind patterns, and atmospheric moisture. All three things have an effect on the weather.
Worse, what shields the planet from cancer-causing radiation is the magnetic field. It acts as a shield deflecting harmful ultra-violet, X-rays and other life-threatening radiation from bathing the surface of the Earth. With the field weakening and cracks emerging, the death rate from cancer could skyrocket and mutations of DNA can become rampant.
Another federal agency, NOAA, issued a report caused a flurry of panic when they predicted that mammoth superstorms in the future could wipe out most of California. The NOAA scientists said it's a plausible scenario and would be driven by an "atmospheric river" moving water at the same rate as 50 Mississippi rivers flowing into the Gulf of Mexico.
Magnetic field may dip, flip and disappear
The Economist wrote a detailed article about the magnetic field and what's happening to it. In the article they noted:
"There is, however, a growing body of evidence that the Earth's magnetic field is about to disappear, at least for a while. The geological record shows that it flips from time to time, with the south pole becoming the north, and vice versa. On average, such reversals take place every 500,000 years, but there is no discernible pattern. Flips have happened as close together as 50,000 years, though the last one was 780,000 years ago. But, as discussed at the Greenland Space Science Symposium, held in Kangerlussuaq this week, the signs are that another flip is coming soon."Discussing the magnetic polar shift and the impact on weather, the scholarly paper Weather and the Earth's magnetic field was published in the journal Nature. Scientists too are very concerned about the increasing danger of superstorms and the impact on humanity.
Superstorms will not only damage agriculture across the planet leading to famines and mass starvation, they will also change coastlines, destroy cities and create tens of millions of homeless.
Superstorms can also cause certain societies, cultures or whole countries to collapse. Others may go to war with each other.
A Danish study published in the scientific journal Geology, found strong correlation between climate change, weather patterns and the magnetic field.
"The earth's climate has been significantly affected by the planet's magnetic field, according to a Danish study published Monday that could challenge the notion that human emissions are responsible for global warming.In the scientific paper Midday magnetopause shifts earthward of geosynchronous orbit during geomagnetic superstorms with Dst = -300 nT the magnetic intensity of solar storms impacting Earth can intensify the effects of the polar shift and also speed up the frequency of the emerging superstorms.
"'Our results show a strong correlation between the strength of the earth's magnetic field and the amount of precipitation in the tropics,' one of the two Danish geophysicists behind the study, Mads Faurschou Knudsen of the geology department at Aarhus University in western Denmark, told the Videnskab journal.
"He and his colleague Peter Riisager, of the Geological Survey of Denmark and Greenland (GEUS), compared a reconstruction of the prehistoric magnetic field 5,000 years ago based on data drawn from stalagmites and stalactites found in China and Oman."
Possible magnetic pole reversal may also be initiating new Ice Age
According to some geologists and scientists, we have left the last interglacial period behind us. Those periods are lengths of time — about 11,500 years — between major Ice Ages.
One of the most stunning signs of the approaching Ice Age is what's happened to the Chandler wobble.
The Earth's wobble has stopped.
As explained in the geology and space science website earthchangesmedia.com, "The Chandler wobble was first discovered back in 1891 by Seth Carlo Chandler an American astronomer. The effect causes the Earth's poles to move in an irregular circle of 3 to 15 meters in diameter in an oscillation. The Earth's Wobble has a 7-year cycle which produces two extremes, a small spiraling wobble circle and a large spiraling wobble circle, about 3.5 years apart.
"The Earth was in October 2005 moving into the small spiraling circle (the MIN phase of the wobble), which should have slowly unfolded during 2006 and the first few months of 2007. (Each spiraling circle takes about 14 months). But suddenly at the beginning of November 2005, the track of the location of the spin axis veered at a very sharp right angle to its circling motion.And the Earth stopped wobbling — exactly as predicted as another strong sign of an imminent Ice Age.
"The track of the spin axis began to slow down and by about January 8, 2006, it ceased nearly all relative motion on the x and y coordinates which are used to define the daily changing location of the spin axis."
So, the start of a new Ice Age is marked by a magnetic pole reversal, increased volcanic activity, larger and more frequent earthquakes, tsunamis, colder winters, superstorms and the halting of the Chandler wobble.
Unfortunately, all of those conditions are being met.
Comment: All of the things described in this article are EFFECTS of changes in the solar capacitor. It is more likely that the Sun began to interact with its companion in 2005 exactly as described by the Cassiopaeans on 31 October, 2001:
Q: (L) Now according to these guys who are writing this web page about pole shift, they say it can be predicted where the poles will shift to. Is this in fact the case?
A: No.
Q: (L) Why can't pole shifts be predicted? Can't we know where the new pole will end up?
A: Chaotic function here
Q: (L) Okay, in a pole shift does the lithosphere of the planet slide on the core? (A) No. We have to be very precise. There are three possible things that would come under the name pole shift. Only one of them may come, or two, or three, okay? And these are the following — the axis of rotation with respect to stars is changing, straightening out for instance; this is one thing; while all the rest goes with the axis, the lithosphere and the magnetic field. Second, the axis stays where it is, maybe it shifts a little bit; the lithosphere stays where it is — maybe it wobbles — but the magnetic field changes: for instance reverses. Third, axis stays, magnetic field stays, but the lithosphere is moving. So that's three ways a pole shift can happen. And of course there are things that come together. The most dramatic one which is seen from outside is when the axis of rotation changes. The next dramatic one is probably when the lithosphere changes. And the third of unknown consequences is when the magnetic pole changes, okay? So, we want to have an understanding what will be the main change. (L) Well I guess we ought to ask an even more basic question: are we looking at a pole shift happening? That's starting at the beginning. (A) Alright. (L) In the next ten years. Is a pole shift possible in the next ten years?
A: Yes.
Q: (L) Is a pole shift of the axis...(A) Honey, you ask if the pole shift is possible, of course it's possible. But suppose it's almost zero probability? 'Is it possible' is not the right question. 'Is it going to happen?' That's a question. (L) Okay you ask, carry on. (A) Are we looking at a pole shift during the next ten or so years with a high degree of probability?
A: Yes.
Q: (A) In this concept of pole shift, what would be the main feature of this pole shift, of all those which we were discussing?
A: New axial orientation, and magnetic reversal.
Q: (L) That's fairly dramatic. (A) Alright, now, change of axis or orientation of axis of rotation: can we say we would straighten up, getting almost perpendicular to the ecliptic? Or the other possibility is that it will fall down being almost parallel to the ecliptic. The third is that we'll flip completely by 180 degrees. We know it's highly unpredictable, but can we have a clue from which one is, so to say, dominate?
A: Perpendicularity will be restored.
Q: (A) We know the axis will change dramatically and magnetic reversal will happen. You didn't mention a change or shift of the lithosphere alone. Can we...
A: Lithospheric shift will feature to some extent.
Q: (A) But, that means eventually that the equator will almost not change because...
A: Correct.
Q: (A) So it will just shift a little bit, but its not going to go to Hawaii? (L) Oh rats! That was my theory! Well, it was a good idea. (A) What about changes in the lithosphere: can we predict a little bit of change in geography, coming from motions in lithosphere and changes in water level?
A: Chaotic features predominate but in general it will be safer inland and in mountainous areas since less folding occurs in such locations.
Q: (A) Now, the major, the change of the orientation of the axis, what would be the main trigger, force, or activity, or what kind of event will trigger this change of the axis?
A: Cometary bodies.
Q: (L) Are the planets of the solar system going to kind of shift out of their orbits and run amok? Is that a possibility?
A: Yes.
Q: (A) Due to cometary orbits alone?
A: Yes. Twin sun also.
Q: (A) When we speak about these cometary bodies, are we speaking about impacts?
A: Some will hit.
Q: (A) What would be — if any — the role played by electric phenomena?
A: Twin sun grounds current flow through entire system setting the "motor" running.
Q: (L) Does this mean that all of the different bodies of the solar system are like parts of some kind of giant machine, and once this electric current flows through them, depending on their positions relative to one another at the time this current flows, that it has some influence on the way the machine runs?
A: Yes, more or less.
No comments:
Post a Comment