The potential for a massive solar flare directed at Earth is looming large.
An SDO/HMI view of the visible sun showing the largest sunspot of solar cycle 24, AR12192. Image via http://www.thesuntoday.org
Since rotating into view, the sunspot group AR12192 has continued to grow in size and complexity, becoming the largest sunspot of the current solar cycle, cycle 24 (SC24.) The region has produced numerous C and M-class flares including an X1 flare.
![Xray[1]](https://wattsupwiththat.files.wordpress.com/2014/10/xray1.gif)
More at the WUWT Solar Reference Page
Animation of sunspot AR2192:
Image via http://www.thesuntoday.org
NASA’s Spaceweather.com reports:
Solar activity is high. During the past 48 hours, monster sunspot AR2192 has produced a series of seven M-class solar flares of increasing intensity. The eruptions crossed the threshold into X-territory with an X1-class flare on Oct. 22nd. NASA’s Solar Dynamics Observatory recorded a powerful flash of extreme UV radiation in the sunspot’s magnetic canopy at 14:30 UT:
Remarkably, not one of the explosions so far has hurled a significant CME toward Earth. The primary effect of the flares has been to ionize Earth’s upper atmosphere, causing a series of short-lived HF radio communications blackouts. Such blackouts may be noticed by amateur radio operators, aviators, and mariners.
Earth-effects could increase in the days ahead. AR2192 has an unstable ‘beta-gamma-delta’ magnetic field that harbors energy for powerful explosions, and the active region is turning toward Earth. NOAA forecasters estimate at 65% chance of M-class flares and a 20% chance of X-flares during the next 24 hours. Solar flare alerts: text, voice
AR2192 is shaping up to be the biggest sunspot in many years. Its area is now approaching that of AR0486, the last great sunspot of the previous solar cycle, which covered 2610 millionths of the solar disc on Oct. 30, 2003. As of 0h UT today AR 2192 is 2410 millionths. (Thanks to Geoff Chester of the US Naval Observatory for this comparison.)
Because the sunspot is so large–now about as wide as the planet Jupiter–people are beginning to notice it at sunset when the sun is dimmed by clouds or haze. Pilot Brian Whittaker took this picture on Oct. 21st while flying 36,000 ft over Resolute, Nunavut, Canada:
“I was impressed to photograph the giant sunspot as the sun set over Arctic Canada,” says Whittaker. “Actually, the sun was temporarily rising because of our great relative speed over the lines of longitude at N75 degrees! Note the green upper rim.”
Thanks to Lief for this:
“If the group produces a CME [I don’t think it will – the corona doesn’t look right for that], the CME will be 50 million miles wide when it reaches the Earth so it will hit [if it comes]. Flares are visible by anyone who can see the solar disk.”
Answers my earlier question.
Well, I’ve now read all the opinions on how big or how strong this particular SS or group of them is/or is not and all I can say is that I have been tracking it most of the day in preparation for the partial solar eclipse we will experience here and just looking through my filter without using the telescope it is quite visible. I am impressed.
There is a bit of a ‘private war’ going on further up the thread.
Some people take themselves too seriously, blog-science should be fun,
Solar polar fields according to data from Stanford are moving in right direction, albeit very slowly,
so where is the fun in that, you might ask:
You see, the formula in the above link has its roots in the Greek mythology:
Helios (Sun) is son of Zeus (J-upiter) who in turn is son of Chronos (S-aturn)
Most of us are greatly influenced by our fathers, and through them in smaller extent by our grandfathers.
Translate the above into numbers and you get:
Solar Activity = 2xJ +1x J-S
“2xJ +1x J-S” What has ‘435.6714’ got to do with solar activity?
Greek gods are eternal, hence 435.6714 precisely nothing, AFAIK.
Look at the link.
Sorry.. I don’t understand the reference. just out of curiosity, how would I go about replicating your graph? obviously the equation is orbital related, but where are your corrections coming from for orbital changes? the other thing I’m curious about is, are you only using Jupiter and Saturn’s orbital period for the sine wave within a certain time constraint?
Here is the Excel entry
= -152*(COS(2*PI()*(Y1000-1943.5)/19.859)+COS(PI()/3+2*PI()*(Y1000-1943.5)/23.724))
where Y is time column in 10 day steps
23.724=2 x J orbits + 1 x J-S synodic period
I would like to test this, What data was used? Do you have an excel example? If you like I can send you my address and you can send it through e-mail.
X-flare has just erupted, looks to be about X3 :
http://www.swpc.noaa.gov/rt_plots/xray_5m.html
From what I learned over the years is sun spot activity can mean less sub atomic particles hitting the earth, and subsequently less cloud formation and of course rain. Anyone here heard that too?
In March 2012, there was a major solar event that impacted on Earth’s atmosphere. Thanks to the work undertaken by NASA, using its SABER instrument on its TIMED satellite, NASA observed that 95% of the energy that entered the atmosphere was radiated back into space, thanks to carbon dioxide and nitric oxide … two gases described by NASA as acting as a natural atmospheric thermostat, and identified as the two most efficient atmospheric coolants. Watch this NASA science video for yourself:
http://www.nasa.gov/mission_pages/sunearth/news/solarstorm-power.html