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The 19 - 43 metre wide asteroid 2010 KK37 will make a close pass (2.3 lunar distances, 0.0058 AU), travelling at 10.94 km/second, to the Earth-Moon system on the 19th May, 2012 @ 10:36 UT ±1 day 03:50.
source: http://astronomy.activeboard.com/t36061305/asteroid-2010-kk37/
the above video poster says-
Published on Apr 24, 2012 by EarthChangeNews
The 19 - 43 metre wide asteroid 2010 KK37 will make a close pass (2.3 lunar distances, 0.0058 AU), travelling at 10.94 km/second, to the Earth-Moon system on the 19th May, 2012
The asteroid was discovered by the Mt. Lemmon Survey on the 23rd May, 2010.
JPL http://ssd.jpl.nasa.gov/sbdb.cgi?sstr=2010%20KK37;orb=1
Website: http://www.earthchangenews.com
Forum: http://earthchangenews.forumotion.co.uk/
The asteroid was discovered by the Mt. Lemmon Survey on the 23rd May, 2010.
JPL http://ssd.jpl.nasa.gov/sbdb.cgi?sstr=2010%20KK37;orb=1
Website: http://www.earthchangenews.com
Forum: http://earthchangenews.forumotion.co.uk/
Forum
Bill gave the link to the data for 2010 KK37 on JPL's HORIZONS system
http://ssd.jpl.nasa.gov/sbdb.cgi?sstr=20…
If you look at the encounter data for 2012-May-19 you'll see that the uncertainty in the time of closest approach to the Earth is 1 day 3 hours 50 minutes, which is to say quite a lot.
The nominal distance is 0.0058 AU (about 870,000 km) but the minimum range is given as 0.00041 AU (only about 62,000 km from the centre of the Earth) while the maximum range is 0.036 AU (about 5.4 million km). The semi-major axis of the uncertainty ellipse is just over 1 million km.
Now you might ask why, if the nominal distance is 870,000 km and the semi-major axis of the uncertainty ellipse is 1 million km, isn't an impact considered a possibility? Doesn't the uncertainty ellipse include the Earth? Well the answer lies in the fact that the uncertainty ellipse is usually very narrow with its major axis in the along track direction. In this case the semi-minor axis is only 4 km wide. Couple that with the fact that the angle between the Line of Variations (LOV, the long axis of the ellipse) and the range vector (the direction to the centre of the Earth) at the nominal closest approach is 4.3 degrees (see column labelled 'range-LOV angle' in the table) results in the line of variations missing the Earth entirely.
You can construct a triangle. Draw a long line. This is the line of variations. Put a small dot in the middle of the line. This is the asteroid. Draw a small-ish circle a bit to the side of the line some distance from the dot. This is the Earth. Draw a line from the dot to the centre of the circle. This is the range vector. Draw another line from the centre of the circle to make a right angle with the long line of variations. This is the closest perpendicular distance from the LOV to the Earth. You now have a right triangle. The small angle between the range and the LOV is 4.3 degrees. The range is the hypotenuse and is the nominal approach distance, 0.0058 AU. The short perpendicular distance from Earth to the LOV is thus 0.0058 sin 4.3 = 0.0004 AU. Thus the uncertainty ellipse does stretch either side of the Earth but it passes to one side (or above or below depending on your point of view) of the Earth and thus no impact is possible.
2010 KK37 is only about 40 degrees from the Sun in the sky at present and remains so right up until the close pass so we don't have any chance of seeing it again until the day of the passage. I hope the survey telescopes manage to pick it up again and nail down its orbit.
source: http://answers.yahoo.com/question/index?qid=20120430143858AAeSmCK
Recent & Upcoming Earth-Asteroid Encounters: May 2012 – July 2012
Published Thursday, May 10, 2012 By Croman. Under Asteroids, Astro Science, Earth Hazards, Other Astronomy,Physics Tags: Asteroid, Near Earth Asteroid
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