The aurora borealis was photographed from space over Montreal and Lake Superior on October 8.
CREDIT: NASA Earth Observatory
When a powerful solar flare, known as a coronal mass ejection, hit Earth's magnetic field on Oct. 8, people living in North America's northern latitudes were treated to a spectacular light show.
This visible light image from the Suomi National Polar-orbiting Partnership (Suomi NPP) satellite shows the northern lights swirling across Canada's Quebec and Ontario provinces.
The city lights of Montreal also shine in the bottom of the image.
The aurora borealis, also called the northern lights, forms when charged particles from the sun collide with particles in Earth's magnetic field.
The aurora is typically limited to high northern latitudes because the magnetic field sweeps the charged particles toward the poles. But when large solar flares bombard the Earth, the aurora can dip south to lower latitudes.
CREDIT: NASA Earth Observatory
When a powerful solar flare, known as a coronal mass ejection, hit Earth's magnetic field on Oct. 8, people living in North America's northern latitudes were treated to a spectacular light show.
This visible light image from the Suomi National Polar-orbiting Partnership (Suomi NPP) satellite shows the northern lights swirling across Canada's Quebec and Ontario provinces.
Suomi NPP Satellite |
The aurora borealis, also called the northern lights, forms when charged particles from the sun collide with particles in Earth's magnetic field.
The aurora is typically limited to high northern latitudes because the magnetic field sweeps the charged particles toward the poles. But when large solar flares bombard the Earth, the aurora can dip south to lower latitudes.
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