[AZ-Observing] 2004 JG6

  • From: Brian Skiff <Brian.Skiff@xxxxxxxxxx>
  • To: amastro@xxxxxxxxxxxxxxx, az-observing@xxxxxxxxxxxxx
  • Date: Thu, 20 May 2004 11:44:01 -0700 (MST)

     The bosses decided it was time to grab a headline with one of our
recent asteroid finds.  This may appear in the news in the coming days 
after the usual murder and mayhem.

\Brian

===============================================================================

For Immediate Release

May 20, 2004

contact: Steele Wotkyns
Lowell Observatory
(928) 233-3232
steele@xxxxxxxxxx
this press release online: 
http://www.lowell.edu/press_room/releases/recent_releases/2004JG6_rls.html



LONEOS DISCOVERS ASTEROID WITH THE SMALLEST ORBIT

Flagstaff, AZ     The ongoing search for near-Earth asteroids at Lowell 
Observatory has yielded another interesting object. Designated 2004 JG6, 
this asteroid was found in the course of LONEOS (the Lowell Observatory 
Near-Earth Object Search) on the evening of May 10 by observer Brian Skiff.

"I immediately noticed the unusual motion," said Skiff, "so it was 
certain that it was of more than ordinary interest." He quickly reported 
it to the Minor Planet Center (MPC) in Cambridge MA, which acts as an 
international clearinghouse for asteroid and comet discoveries. The MPC 
then posted it on a Web page for verification by astronomers worldwide. 
It happened that all the initial follow up observations, however, were 
obtained by amateur and professional observers in the Southwest US. The 
additional sky positions measured in the ensuing few days allowed an 
orbit to be calculated.

The official discovery announcement and preliminary orbit were published 
by the MPC on May 13. This showed that the object was located between 
Earth and Venus (presently the very bright "evening star" in the western 
sky). In addition, 2004 JG6 goes around the Sun in just six months, 
making it the asteroid with the shortest known orbital period. Ordinary 
asteroids are located between the orbits of Mars and Jupiter, roughly 
two to four times farther from the Sun than Earth, taking several years 
to go around the Sun.

Instead, 2004 JG6 orbits entirely within Earth's orbit, only the second 
object so far found to do so. "What makes this asteroid unique is that, 
on average, it is the second closest solar system object orbiting the 
Sun," said Edward Bowell, LONEOS Director. Only planet Mercury orbits 
closer to the Sun.

As shown in the included diagram, JG6 crosses the orbits of Venus and 
Mercury, passing less than 30 million miles from the Sun every six 
months. The approximate average orbital speed of this asteroid is more 
than 30 km/sec, or 67,000 miles per hour. Depending on their locations, 
the asteroid may pass as close as 3.5 million miles from Earth and about 
2 million miles from planet Mercury. In the coming weeks 2004 JG6 will 
pass between Earth and the Sun, just inside Earth's orbit. It will move 
through the constellations Cancer and Canis Minor low in the western sky 
at dusk. Because of the near-exact six-month period, the asteroid should 
be observable again in nearly the same spot in the sky next May, having 
gone around the Sun twice while Earth will have made only one circuit.

From present estimates, 2004 JG6 is probably between 500 meters and 1 km
in diameter. Despite its proximity, the object poses no danger of 
colliding with Earth.

Asteroids with orbits entirely within the Earth's orbit have been 
informally called "Apoheles," from the Hawaiian word for orbit. Apohele 
also has Greek roots: "apo" for outside, and "heli" for Sun. Objects 
orbiting entirely within Earth's orbit are thought by dynamicist William 
F. Bottke of Southwest Research Institute and colleagues to comprise 
just two percent of the total near-Earth object population, making them 
rare as well as difficult to discover. This is because they stay in the 
daylight sky almost all of the time. There may exist about 50 Apoheles 
of comparable size to or larger than 2004 JG6, but many of them are 
certain to be unobservable from the ground.

The first asteroid found entirely inside Earth's orbit was 2003 CP20, 
found just over a year ago by the NASA-funded Lincoln Laboratory 
Near-Earth Asteroid Research project, which observes near Socorro, New 
Mexico. Although larger than 2004 JG6, 2003 CP20 is a little more 
distant from the Sun.

LONEOS is one of five programs funded by NASA to search for asteroids 
and comets that may approach our planet closely. The NASA program's 
current goal is to discover 90 percent of near-Earth asteroids larger 
than 1 km in diameter by 2008. There are thought to be about 1,100 such 
asteroids.

#END#


For additional information:

LONEOS = http://asteroid.lowell.edu/asteroid/loneos/loneos_disc.html

MPC = http://cfa-www.harvard.edu/iau/mpc.html

MPC's official discovery announcement:
http://cfa-www.harvard.edu/mpec/K04/K04J60.html

JPL orbit diagram/animations: 
http://neo.jpl.nasa.gov/cgi-bin/db_shm?sstr= 2004+JG6

Static view of 2004 JG6 by Tom Polakis: 
http://www.psiaz.com/polakis/misc/2004JG6.jpg

Diagram of 2004JG6 by Larry Wasserman, Astronomer, Lowell Observatory:
http://www.lowell.edu/press_room/2004JG6.pdf
--
See message header for info on list archives or unsubscribing, and please 
send personal replies to the author, not the list.

Other related posts:

  • » [AZ-Observing] 2004 JG6
  1. Home
  2. az-observing
  3. Archive
  4. 05-2004