Wednesday, July 13, 2016

The Solar Storm of 2012 was of a similar magnitude of the 1859 Carrington event: But the plasma stream missed earth this time

If this stream had hit earth the damage was projected to have been .6 trillion to 2.6 Trillion Dollars.
It would have taken whatever culture or cultures hit 4 to 10 years to fully recover from this loss.

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Solar storm of 1859 - Wikipedia, the free...


The Solar Storm of 1859 — known as the Carrington Event[1] — was a powerful geomagnetic solar storm during solar cycle 10 (1855-1867). A solar coronal mass ejection hit Earth's magnetosphere and induced one of the largest geomagnetic storms on record. The associated "white light flare" in the solar photosphere was observed and recorded by English astronomers Richard C. Carrington (1826–1875) and Richard Hodgson (1804–1872).
Studies have shown that a solar storm of this magnitude occurring today would likely cause more widespread problems for a modern and technology-dependent society.[2][3] The solar storm of 2012 was of similar magnitude, but it passed Earth's orbit without striking the planet.[4]
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solar storm of 2012 

Solar storm of 2012

From Wikipedia, the free encyclopedia

The coronal mass ejection, as photographed by STEREO.

The event occurred in 2012, near the local maximum of sunspots that can be seen in this graph.
The solar storm of 2012 was an unusually large and strong coronal mass ejection (CME) event that occurred on July 23 that year. It missed the Earth with a margin of approximately nine days, as the Earth orbits the Sun, and the Sun rotates around its own axis with a period of about 25 days.[1] The region that produced the outburst was thus not pointed directly towards the Earth at that time. The strength of the eruption was comparable to the 1859 Carrington event that caused damage to electric equipment worldwide, which at that time consisted mostly of telegraph stations.[2]
The eruption tore through Earth's orbit, hitting the STEREO-A spacecraft. The spacecraft is a solar observatory equipped to measure such activity, and because it was far away from the Earth and thus not exposed to the strong electrical currents that can be induced when a CME hits the Earth's magnetosphere,[2] it survived the encounter and provided researchers with valuable data.
Based on the collected data, the eruption consisted of two separate ejections which were able to reach exceptionally high strength as the interplanetary medium around the Sun had been cleared by a smaller CME four days earlier.[2] Had the CME hit the Earth, it is likely that it would have inflicted serious damage to electronic systems on a global scale.[2] A 2013 study estimated that the economic cost to the United States would have been between $0.6 - 2.6 trillion USD.[3] Ying D. Liu, professor at China’s State Key Laboratory of Space Weather, estimated that the recovery time from such a disaster would have been about four to ten years.[4]
The event occurred at a time of high sunspot activity during Solar cycle 24.

See also

References



  • Williams, D. R. (1 July 2013). "Sun Fact Sheet". NASA. Retrieved 13 January 2015.

    1. Sanders, Robert (18 March 2014). "Fierce solar magnetic storm barely missed Earth in 2012". UC Berkeley News Center. Retrieved 10 January 2015.

    External links



  • Phillips, Tony (23 July 2014). "Near Miss: The Solar Superstorm of July 2012". Science@NASA. NASA. Retrieved 10 January 2015.

  • Solar Storm Risk to the North American Electric Grid Lloyd's 2013

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