Unbelievable moment a piece of the sun BREAKS OFF baffles scientists: Video shows plasma filament is now swirling around the northern pole like a tornado
#NASA captured the moment a piece of the sun's northern pole broke off
The object seen in the video is a solar filament, which is a cloud of ionized gas
Another video from NASA shows the moon 'photobombing' the sun
The moment a piece of the sun's northern pole breaks off has been captured by NASA in a never-before-seen event that has baffled scientists.
video shows a giant filament of plasma, or electrified gas, shooting out from the sun, separating and then circulating in a 'massive polar vortex.'
While astronomers are baffled, they speculate the prominence has something to do with the reversal of the sun's magnetic field that happens once every solar cycle.
Solar physicist Scott McIntosh, the deputy director at the National Center for Atmospheric Research in Boulder, Colorado told Space.com: 'Once every solar cycle, it forms at the 55-degree latitude and it starts to march up to the solar poles.'
The video was shared on Twitter by space weather forecaster Tamitha Skov, which said the clip was taken by NASA's Solar Dynamics Observatory, which is currently investigating our star.
'Talk about polar vortex! Material from a northern prominence just broke away from the main filament & is now circulating in a massive polar vortex around the north pole of our star,' Skov shared in the tweet.
NASA describes solar filaments as clouds of charged particles that float above the sun, tethered to it by magnetic forces.
These appear as elongated, uneven strands that shoot out from the sun's surface.
The prominence mentioned by Skov, appears precisely at the 55-degree latitude around the sun's polar crowns every 11 years.
'Once every solar cycle, it forms at the 55-degree latitude and it starts to march up to the solar poles,' McIntosh told Space.com.
'It's very curious. There is a big 'why' question around it. Why does it only move toward the pole one time and then disappears and then comes back, magically, three or four years later in exactly the same region?'
While astronomers have previously observed filaments breaking away from the sun, this is the first time one has circulated the region in a whirlwind.
#NASA captured the moment a piece of the sun's northern pole broke off
The object seen in the video is a solar filament, which is a cloud of ionized gas
Another video from NASA shows the moon 'photobombing' the sun
The moment a piece of the sun's northern pole breaks off has been captured by NASA in a never-before-seen event that has baffled scientists.
video shows a giant filament of plasma, or electrified gas, shooting out from the sun, separating and then circulating in a 'massive polar vortex.'
While astronomers are baffled, they speculate the prominence has something to do with the reversal of the sun's magnetic field that happens once every solar cycle.
Solar physicist Scott McIntosh, the deputy director at the National Center for Atmospheric Research in Boulder, Colorado told Space.com: 'Once every solar cycle, it forms at the 55-degree latitude and it starts to march up to the solar poles.'
The video was shared on Twitter by space weather forecaster Tamitha Skov, which said the clip was taken by NASA's Solar Dynamics Observatory, which is currently investigating our star.
'Talk about polar vortex! Material from a northern prominence just broke away from the main filament & is now circulating in a massive polar vortex around the north pole of our star,' Skov shared in the tweet.
NASA describes solar filaments as clouds of charged particles that float above the sun, tethered to it by magnetic forces.
These appear as elongated, uneven strands that shoot out from the sun's surface.
The prominence mentioned by Skov, appears precisely at the 55-degree latitude around the sun's polar crowns every 11 years.
'Once every solar cycle, it forms at the 55-degree latitude and it starts to march up to the solar poles,' McIntosh told Space.com.
'It's very curious. There is a big 'why' question around it. Why does it only move toward the pole one time and then disappears and then comes back, magically, three or four years later in exactly the same region?'
While astronomers have previously observed filaments breaking away from the sun, this is the first time one has circulated the region in a whirlwind.
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