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| <<EmbedObject(gs11.swf,play=true,loop=true,width=480,height=560)>> | || <<EmbedObject(gs11.swf,play=true,loop=true,width=480,height=560)>> || [[attachment:gs11.c | source file ]], requires png2swf and libgd, produced with Scientific Linux. This is 1002 thinsats arranged in a radially-flattened icosahedral geodesic sphere, with V=10 or 9 thinsats between vertices. The array appears to rotate because each thinsat is in a slightly elliptical orbit around the 4 hour circular equatorial orbit. The array is XXX meters across. The size of the array in the orbiting top view is greatly exaggerated, with the sun to the left, looking from the north pole.<<BR>> The array makes 6 orbits per solar day, while the earth turns once per solar day, appearing as 5 overhead passes from the ground. |
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| [[attachment:gs11.c | source file ]], requires png2swf and libgd, produced with Scientific Linux. | MoreLater |
Rotating Geodesic Array
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|| source file, requires png2swf and libgd, produced with Scientific Linux. This is 1002 thinsats arranged in a radially-flattened icosahedral geodesic sphere, with V=10 or 9 thinsats between vertices. The array appears to rotate because each thinsat is in a slightly elliptical orbit around the 4 hour circular equatorial orbit. The array is XXX meters across. The size of the array in the orbiting top view is greatly exaggerated, with the sun to the left, looking from the north pole.
The array makes 6 orbits per solar day, while the earth turns once per solar day, appearing as 5 overhead passes from the ground.