INTRO:
PLASMA |
MAGNETISM |
SOLAR WIND |
CORONAL MASS
EJECTIONS (CMEs) |
SOLAR
FLARES |
DYSTOPIA |
MAGNETOSPHERE |
INTERACTION |
ATMOSPHERE |
COLORS |
DETECTION |
BIBLIOGRAPHY |
Moving charges create a
magnetic field. So if the sun is plasma (charged
particles) in motion, its own matter is making its own
magnetic fields that then affect the behavior of other
neighboring moving charges, compelling them to repel or
join. Remember that in a plasma, there are both
protons and electrons free to dance. [3] These loops of
magnetic fields are sewing through the outer sun.
All auroral activity begins with the interactions of solar
magnetic fields launching particles. When those
particles hit earth's magnetic field, we get our auroral
light show. It's all due to magnetism. In the image to the right, you can see a charged particle spiraling around a magnetic field line. This is what solar plasma does when a magnetic field line pops out of the sun's surface and invisibly arcs and returns. The dark pairs of umbra in a sunspot usually represent the exit and entrance points of a field line where the surface cools. Beneath the surface, field lines may be twisted to the point of shear, or stretching out from the surface until they bow and reconnect. Particles whirling about the field lines can be flung out of the sun's gravitational and magnetic fields, an oxbow of matter, when the magnetic field line they are riding on reconnects below them. In a way, I don't feel too bad about just figuring out now what being a plasma means magnetically and being curious about its effects on the earth. Scientists are researching the same things that I am curious about. Since they can't SEE magnetic field lines, they have to watch the actions of the sun's plasma caught in magnetic fields. NASA's sun research is burgeoning. NASA launched the STEREO mission to watch the sun from different angles to capture such plasmic movement. In a study published just this year, they were able to visually catch the 3D field slippage and reconnect of a flare, showing how (perhaps all?) solar flares begin. [4] |
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Rob Knop http://galacticinteractions.scientopia.org/2012/02/09/charged-particles-and-magnetic-fields/ |
NASA Goddard Space Flight Center |