© SDO/NASASunspot AR 1476 compared to the size of Jupiter. Image released May 10, 2012.
A huge sunspot that dwarfs the Earth is unleashing a series of powerful solar flares as it moves across the surface of the sun, NASA scientists say.
The sunspot AR 1476 was detected by space telescopes on May 5. The huge sunspot is 60,000 miles (100,000 kilometers) across, so large that when it was first seen in views from NASA's Solar Dynamics Observatory spacecraft, mission scientists dubbed it a "monster sunspot."
Earlier this week, space weather scientists predicted the sunspot would erupt with powerful solar flares, and those predictions have since come true. So far, the sunspot has fired off several flares, including a strong solar storm early Thursday (May 10).
"Solar activity has been at high levels for the past 24 hours with multiple M-class solar flares observed," stated an update Thursday from the Space Weather Prediction Center, a joint service of NOAA and the National Weather Service. Sunspot region AR 1476 was responsible for nearly all of the sun's storm activity, center officials said.
On Thursday, sunspot AR 1476 unleashed a powerful flare at 12:18 a.m. EDT (0418 GMT) that registered as a class M5.7 eruption. M-class solar flares are medium-strength sun storms that can still unleash powerful blasts of radiation and magnetic solar plasma. So far, the sunspot has not triggered huge explosions from the sun, which scientists call coronal mass ejections.
On the scale of solar flares, X-class storms are the most powerful and can interfere with satellites and infrastructure on Earth when aimed at our planet. M-class storms are the second-most powerful flares and can set off geomagnetic storms that create dazzling northern lights displays when the eruptions reach Earth. C-class flares, the weakest category, have little effect on Earth.
NASA officials said the Thursday solar storm is just one of many to erupt from the massive sunspot.
"The sunspot, dubbed Active Region 1476, has so far produced seven M-class flares and numerous C-class flares, including two M-class flares on May 9, 2012 that peaked at 8:32 EDT and 10:08 EDT," the space agency wrote in a Thursday space weather update.
"These flares were all short-lived and there were no associated coronal mass ejections, so we do not expect any geomagnetic storms at Earth," NASA officials added. That means a supercharged northern lights display from the recent solar storms is currently unlikely.
Another NASA account stated that the sunspot has unleashed as many as 32 solar flares so far.
It will take sunspot AR 1476 about two weeks to complete its trip across the face of the sun, as seen from Earth, NASA officials said.
The sun is currently in an active phase of its 11-year solar weather cycle. The current cycle, known as Solar Cycle 24, will peak in 2013.
THIS [Link]
is the last solar max 2nd peak overlain on the EUV images for that day.
See the difference?
Secondly, Solar Flares classes do not begin with C.
The correct class range from lowest to highest is A, B, C, M and X.
Thirdly, the Sunspot 1476 is already halfway through it's 14-day transit, being past the Solar Meridian, and will arrive on the Limb in 6 days.
Lastly, this spot is not the largest in either umbra or whole spot area for this Solar Cycle, umbra=225 x 10^E6 whole spot at 1675 x 10^E6 millionths of area of sun's face, as of 05/08/12. The spot is now shrinking.
Spot # 11339 on 11/05/11 was larger @ 243 umbra 2255 whole spot.
See ftp://fenyi.solarobs.unideb.hu/pub/DPD/data/gDPD2012.txt and
ftp://fenyi.solarobs.unideb.hu/pub/DPD/data/gDPD2011.txt for current large spots in this SC24.
For the previous SC23, try here ftp://fenyi.solarobs.unideb.hu/pub/DPD/data/gDPD2003.txt
and here ftp://fenyi.solarobs.unideb.hu/pub/DPD/data/gDPD2001.txt
There have been monster sunspots in the past, in the early 1980's, but this is not one of them.
Sorry. No Cigar.
I calll BS.