Earth's Busy Neighborhood (2)

Legend - object IDs plus links to more info

Data compiled at 1528 UTC on 22 May 2013 for ten known objects during a period of seven days from 19 to 25 May 2013. Orange type highlights objects with just reported observation and new JPL orbit solution.

ID	Full ID	Period Closest	Passage Uncertainty	Status
FE	2009 FE	20.73 LD		approaching
JD34	2013 JD34	54.8 LD	+/- 10 minutes	departed
JF1	2013 JF1	31.84 LD		departed
JM22	2013 JM22	17.69 LD		departed
JV17	2013 JV17	25.09 LD	+/- 2 minutes	departed
KA	2013 KA	2.67 LD		outbound
KB	2013 KB	3.2 LD	+/- 15 minutes	passing
KQ1	2013 KQ1	7.04 LD		outbound
KS1	2013 KS1	4.80 LD		passing
KT1	2013 KT1	3.19 LD		outbound

Date	Tfc.	Time
19 May '13	Rept.	Line
20 May '13	Rept.	Line
21 May '13	Rept.	Line
22 May '13	Rept.	Line
23 May '13	Rept.	Line
24 May '13		Line
25 May '13		Line

Object Details - Skychart objects presented in reverse designation order, newest first
("designation assigned to" indicates unofficial discovery credit)

2013 KT1 - outbound
Approximate diameter	17 meters (H=26.517)
Closest Earth approach	3.19 LD at 1425 UT on 21 May 2013
Inside Earth's Hill sphere	19 to 23 May 2013
Inside ten LD of Earth	14 to 28 May 2013
Data based on	JPL SSD orbit solution #3 downloaded from JPL on 21 May 2013 UTC based on 82 observations spanning 2 days
Optical observation	reported from 11 observing codes during 2.1930 days: 595, 703, 711, C73, E12, E23, H06, H21, H36, I93, J95 designation assigned to Catalina Sky Survey observation at 0744 UT 18 May 2013 last observed at 1222 UT on 20 May 2013 by the Siding Spring Survey
Links	JPL Small-Body Database NEODyS Close Approaches
2013 KS1 - passing
Approximate diameter	15 meters (H=26.813)
Closest Earth approach	4.80 LD at 1139 UT on 22 May 2013
Inside ten LD of Earth	18 to 26 May 2013
Data based on	JPL SSD orbit solution #2 downloaded from JPL on 22 May 2013 UTC based on 24 observations spanning 4 days
Optical observation	reported from 5 observing codes during 3.6045 days: 291, C95, G96, H01, H21 designation assigned to Mt. Lemmon Survey observation at 0943 UT 17 May 2013 last observed at 0013 UT on 21 May 2013 by SATINO-1
Links	JPL Small-Body Database NEODyS Close Approaches
2013 KQ1 - outbound
Approximate diameter	15 meters (H=26.829)
Closest Earth approach	6.57 LD at 2316 UT on 16 May 2013
Inside ten LD of Earth	10 to 22 May 2013
Data based on	JPL SSD orbit solution #2 downloaded from JPL on 20 May 2013 UTC based on 25 observations spanning 3 days
Optical observation	reported from 6 observing codes during 3.5701 days: 703, G96, H01, H21, I93, J95 designation assigned to Catalina Sky Survey observation at 0913 UT 16 May 2013 last observed at 2254 UT on 19 May 2013 by St. Pardon de Conques Obs.
Links	JPL Small-Body Database NEODyS Close Approaches
2013 KB - passing
Approximate diameter	12 meters (H=27.174)
Closest Earth approach	3.16 LD at 0605 UT on 22 May 2013 - Note: JPL reports an approach uncertainty of +/- 15 minutes
Inside Earth's Hill sphere	20 to 23 May 2013
Inside ten LD of Earth	15 to 28 May 2013
Data based on	JPL SSD orbit solution #1 downloaded from JPL on 18 May 2013 UTC based on 15 observations spanning one day
Optical observation	reported from 2 observing codes during 1.0889 days: G96, H01 designation assigned to Mt. Lemmon Survey observation at 0330 UT 16 May 2013 last observed at 0538 UT on 17 May 2013 by Magdalena Ridge Obs.
Links	JPL Small-Body Database NEODyS Close Approaches
2013 KA - outbound
Approximate diameter	8 meters (H=28.209)
Closest Earth approach	2.06 LD at 1238 UT on 17 May 2013
Inside Earth's Hill sphere	14 to 20 May 2013
Inside ten LD of Earth	8 to 26 May 2013
Closest Moon approach	1.89 LD at 0050 UT on 17 May 2013
Data based on	JPL SSD orbit solution #1 downloaded from JPL on 18 May 2013 UTC based on 19 observations spanning one day
Optical observation	reported from 3 observing codes during 22.613 hours: G96, H36, J95 first observed at 0535 UT on 16 May 2013 by the Mt. Lemmon Survey designation assigned to Mt. Lemmon Survey observation at 0626 UT 16 May 2013 last observed at 0412 UT on 17 May 2013 by Sandlot Obs.
Links	JPL Small-Body Database NEODyS Close Approaches
2013 JD34 - departed
Approximate diameter	33 meters (H=25.052)
Closest Earth approach	2.31 LD at 0334 UT on 7 May 2013 - Note: JPL reports an approach uncertainty of +/- 10 minutes
Inside Earth's Hill sphere	6 to 7 May 2013
Inside ten LD of Earth	5 to 9 May 2013
Data based on	JPL SSD orbit solution #2 downloaded from JPL on 22 May 2013 UTC based on 19 observations spanning 6 days
Optical observation	reported from 4 observing codes during 5.9826 days: 291, G96, H01, K93 designation assigned to Mt. Lemmon Survey observation at 0911 UT 15 May 2013 last observed at 0846 UT on 21 May 2013 by the Spacewatch 1.8m telescope
Notes	risk
Links	JPL Small-Body Database NEODyS Close Approaches
2013 JM22 - departed
Approximate diameter	77 meters (H=23.23)
Closest Earth approach	7.89 LD at 1411 UT on 16 May 2013
Inside ten LD of Earth	15 to 17 May 2013
Data based on	JPL SSD orbit solution #12 downloaded from JPL on 21 May 2013 UTC based on 69 observations spanning 4 days
Optical observation	reported from 14 observing codes during 3.7723 days: 033, 300, 448, 703, 854, 932, A53, C47, C77, H21, H36, H45, I93, J95 designation assigned to Catalina Sky Survey observation at 0816 UT 12 May 2013 last observed at 0248 UT on 16 May 2013 by Great Shefford Obs.
Links	JPL Small-Body Database NEODyS Close Approaches
2013 JV17 - departed
Approximate diameter	9 meters (H=27.826)
Closest Earth approach	4.10 LD at 1115 UT on 6 May 2013 - Note: JPL reports an approach uncertainty of +/- 2 minutes
Inside ten LD of Earth	1 to 11 May 2013
Data based on	JPL SSD orbit solution #1 downloaded from JPL on 12 May 2013 UTC based on 9 observations spanning one day
Optical observation	reported from 3 observing codes during 1.5804 days: 568, F51, J95 designation assigned to Pan-STARRS 1 observation at 0922 UT 10 May 2013 last observed at 2317 UT on 11 May 2013 by Great Shefford Obs.
Links	JPL Small-Body Database NEODyS Close Approaches
2013 JF1 - departed
Approximate diameter	35 meters (H=24.911)
Closest Earth approach	9.91 LD at 0822 UT on 29 April 2013
Inside ten LD of Earth	28 to 30 April 2013
Data based on	JPL SSD orbit solution #14 downloaded from JPL on 22 May 2013 UTC based on 131 observations spanning 17 days
Optical observation	reported from 20 observing codes during 16.9582 days: 033, 203, 204, 448, 474, 595, 703, 807, 900, A13, C73, F51, G58, H01, H21, H36, I52, I93, J84, J95 designation assigned to Catalina Sky Survey observation at 0931 UT 2 May 2013 last observed at 0831 UT on 19 May 2013 by Robert Holmes via Cerro Tololo Inter-American Obs.
Links	JPL Small-Body Database NEODyS Close Approaches
2009 FE - approaching
Approximate diameter	184 meters (H=21.323)
Closest Earth approach	9.60 LD at 0505 UT on 4 June 2013
Inside ten LD of Earth	2 to 5 June 2013
Data based on	JPL SSD orbit solution #18 downloaded from JPL on 21 May 2013 UTC based on 104 observations spanning 2009-2013
Optical observation	reported from 3 observing codes during 13.0364 days: 291, 568, G96 first observed at 0324 UT on 8 May 2013 by the Mt. Lemmon Survey last observed at 0416 UT on 21 May 2013 by the Spacewatch 1.8m telescope
Links	JPL Small-Body Database NEODyS Close Approaches

Footnotes

1. Ten lunar distances: A "lunar distance" (LD) is the average distance between Earth and Moon (about 384,400 km., the same as 238,855 miles or nearly ten [9.59] times around Earth's equator). Ten lunar distances has no special astronomical importance but is a useful arbitrary "bubble" within which to organize this reporting. An approach by a small Solar-System body starts to become interesting at less than four LD out from Earth as it encounters our planet's "Hill sphere" (distance indicated by the blue line in this illustration at about 3.9 LD). This is a region within which Earth's gravitational influence can change the orbits of passing objects. The Moon also has a Hill sphere, outlined here as a gray circle. (Earth and Moon are not shown to scale.) The "Earth-Moon system" is generally defined as that region of space within a radius of one lunar distance from Earth, so an object can pass very close to the Moon yet not be described as coming "inside" the E-M system.

2. Data credit: All data on this page derived from orbit solutions comes from the NASA JPL Solar System Dynamics (SSD) Group through its Horizons system. All information about optical observations comes from the IAU Minor Planet Center (MPC) and info about radar observations comes from JPL SSD. The MPC, NASA, and JPL are not associated with this page or A/CC, and responsibility for the interpretation of this information and its use here rests entirely with A/CC. Important note: Approach times presented here as to-the-minute may have unstated uncertainties of a few minutes, or many minutes or even hours for objects with old or very short observation spans, which is significant because the Earth moves through its own diameter in about seven minutes. Thus actual encounter distances may vary, occasionally by as much as ten lunar distances. See JPL's Close Approach Tables for nominal vs. minimum possible passage distances and times and for their note about uncertainties.

3. Size estimates: Object diameters are rough approximations derived by standard formula from H, an object's "absolute magnitude" (brightness), where higher numbers represent dimmer (thus usually smaller) objects.

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