Aurora Australis:
Red and green colors predominate in this view of the Aurora Australis photographed from the Space Shuttle in May 1991. The payload bay and tail of the Shuttle can be seen on the left hand side of the picture. Auroras are caused when high-energy electrons pour down from the Earth's magnetosphere and collide with atoms. Red aurora occurs from 200 km to as high as 500 km altitude and is caused by the emission of 6300 Angstrom wavelength light from oxygen atoms. Green aurora occurs from about 100 km to 250 km altitude and is caused by the emission of 5577 Angstrom wavelength light from oxygen atoms. The light is emitted when the atoms return to their original unexcited state. Image Credit: NASA
| Date time | 2012:12:06 16:10:12 |
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| Image width | 1920 |
| Image length | 1264 |
| Bits per sample | 8, 8, 8 |
| Photometric interpretation | 2 |
| Image description | Aurora Australis:
Red and green colors predominate in this view of the Aurora Australis photographed from the Space Shuttle in May 1991. The payload bay and tail of the Shuttle can be seen on the left hand side of the picture. Auroras are caused when high-energy electrons pour down from the Earth's magnetosphere and collide with atoms. Red aurora occurs from 200 km to as high as 500 km altitude and is caused by the emission of 6300 Angstrom wavelength light from oxygen atoms. Green aurora occurs from about 100 km to 250 km altitude and is caused by the emission of 5577 Angstrom wavelength light from oxygen atoms. The light is emitted when the atoms return to their original unexcited state. Image Credit: NASA |
| Orientation | 1 |
| Samples per pixel | 3 |
| X resolution | 300 (3000000/10000) |
| Y resolution | 300 (3000000/10000) |
| Resolution unit | 2 |
| Exif version | 48, 50, 50, 49 |
| Date time digitized | 2012:12:06 14:16:17 |
| Color space | 65535 |
| Pixel X dimension | 1920 |
| Pixel Y dimension | 1264 |