Asteroids (Minor Planets)

There were 100 by 1868, 200 by 1879, 500 by 1903, 1000 by 1923, and 2000 by 1960.

By then, the counting gets murky because asteroids are not assigned a number until their orbits are well determined. Asteroids 1998-2001 were discovered in 1938, 1973, 1960 and 1973, respectively. By 1981 the count was 3000; it was 4000 by 1989 and 5000 by 1987. Interspersed among these are often clusters of discoveries decades old that were finally rediscovered and tracked conclusively.

By 1997 the count was 10,000, 20,000 by 2000, and 30,000 the next year. By the end of 2002 it was over 65,000. Improved automated search techniques and satellite imagery, and just a touch of beginning to take the impact hazard seriously, account for the explosive rate of discovery. The count topped 100,000 in early 2005. As of 2008 it had passed 150,000.

The Asteroid Belt

A snapshot of the inner solar system.

• Large white dots: planets. The outermost large white dot is Jupiter.
• Green dots: main belt asteroids orbiting between Mars and Jupiter
• Red dots: Asteroids that pass within Earth's orbit
• Purple dots: comets
• Small yellow dots: Trojan asteroids. They orbit 60 degrees ahead of or behind Jupiter, in the same orbit. They can drift around the average location, accounting for the broad scatter.

Most asteroids really do form a well defined belt. The belt is densest from just beyond Mars to halfway between Mars and Jupiter, roughly 250 to 500 million kilometers. The orbits, for the most part are not extremely inclined to the ecliptic, though of course there are exceptions. We can estimate a thickness of about 100 million kilometers. So the volume of the asteroid belt is

• (pi x 500 million ² [area within outer boundary]) minus (pi x 250 million ² [area of inner empty core])
• times 100 million (thickness)
• = (785,400 x 10¹² - 196,400 x 10¹²) x 10⁶ = 589,000 x 10¹⁸ cubic kilometers

Now, how far apart are the asteroids? If we estimate there are a million, that's 589,000 x 10¹² cubic kilometers per asteroid. If we assume they're uniformly spaced (they're not), we can assume each asteroid occupies a cube. The cube root of 589,000 x 10¹² cubic kilometers is 84 x 10⁴ kilometers or 840,000 kilometers. If there are a million asteroids, they are still almost a million kilometers apart on the average. If there are ten million asteroids, they will still be almost as far apart as the earth and moon. The seven planetary missions that have passed through the asteroid belts (Pioneer 10 and 11, Voyager 1 and 2, Galileo, Cassini and New Horizons, plus the missions that have been sent specifically to comets and asteroids, have seen only a handful of asteroids, and then only by careful planning. From the surface of any given asteroid, you couldn't even see the next one.

Spacecraft Imagery

	Gaspra was the first asteroid ever photographed close-up by the Galileo spacecraft in 1991. It measures 20 x 12 x 11 km (12.5 x 7.5 x 7 miles).
	Ida was the first asteroid discovered to have a satellite, a 1-km object given the name Dactyl. It was viewed by the Galileo spacecraft in 1993, and measures 56 x 24 x 21 kilometers (35 x 15 x 13 miles)
	Mathilde is the largest asteroid directly imaged so far, measuring 52 kilometers (33 miles) in diameter. It was viewed by the Near Earth Asteroid Rendezvous mission in 1997
	Comparison of Mathilde, Gaspra and Ida

Hubble Space Telescope Imagery

	Vesta is oval with a large bump at the south pole, apparently the central peak of a huge impact crater.
	These images show the largest asteroid, Ceres, at left and Vesta at right. Ceres at 1000 km in diameter is large enough to have assumed a spherical shape and qualifies as a dwarf planet. It is far enough from the Sun that it may contain ice.

Radar Imagery

	Geographos is the most elongated object yet observed in the solar system.
	Castalia looks like two dinner rolls stuck together
	Toutatis appears to be a double object, possibly a contact binary, a pair of asteroids held loosely in contact by gravity, perhaps with a layer of rubble in between.
	Another view of Toutatis from a different angle.

Eros

	Eros is one of the best-known asteroids that passes close to earth. NEAR (Near-Earth Asteroid Rendezvous) was designed to intercept and orbit Eros.
	A series of pictures showing Eros' rotation.
	Orbiting Eros involved some space firsts. Not only was it the first targeted asteroid encounter, it was the first orbiting of an irregular object, and the first of an object whose mass was not well known. The spacecraft handled much of the orbital maneuvering automatically.
	End-on view of Eros
	Once orbit was achieved, the spacecraft was maneuvered into progressively closer orbits.
	Left and below: Eros' small gravity made it possible to direct the spacecraft to land gently even though it was not originally designed to do so. The picture at right below was taken from an altitude of 250 meters. This was the first landing on an asteroid.

Itokawa

	Asteroid 25143 Itokawa is only about 300 meters long, the size of an aircraft carrier. In 2005 it was visited by the Japanese spacecraft Hayabusa. Itokawa appears to be a loosely compacted mass of rubble.
	Hayabusa landed on the asteroid twice in an effort to collect samples. The sample capsule is scheduled to land in Australia in 2010.
	Hayabusa photographs its own shadow. The bright halo around it is called backscatter, and is seen whenever sunlight reflects from rough surfaces.

Annefrank

5535 Annefrank, named for the World War II memoir writer, was viewed by the Stardust mission in 2002. It is about 8 kilometers long.

References

• Husdon, R. Scott; Ostro, Steven J. Shape of asteroid 4769 Castalia (1989 PB) from inversion of radar images Science v263 p940-3 February 18 1994 
• Castalia revealed Sky and Telescope v87 p11 May 1994 Galileo spies Ida Sky and Telescope v86 p9 December 1993 
• Chapman, Clark R.; Morrison, David Impacts on the Earth by asteroids and comets: assessing the hazard Nature v367 p33-40 January 6 1994 
• Cowen, Ron First image: Ida's moon stars on film Science News v145 p214 April 2 1994 
• Burnham, Robert Here's looking at Ida Astronomy v22 p38-9 April 1994
• Binzel, Richard P.; Xu, Shui; Bus, Schelte J. Discovery of a main-belt asteroid resembling ordinary chondrite meteorites Science v262 p1541-3 December 3 1993 
• Asteroid-meteorite links--at last! Sky and Telescope v86 p11 November 1993
•  Not just a big, boring rock--a space rock Discover v15 p18 February 1994
•  Melosh, H. J.; Nemchinov, I. V. Solar asteroid diversion Nature v366 p21-2 November 4 1993 
• Hiroi, Takahiro; Pieters, Carle M.; Zolensky, Michael E. Evidence of thermal metamorphism on the C, G, B, and F asteroids Science v261 p1016-18 August 20 1993 
• Kerr, Richard A. Galileo reveals a badly battered Ida Science v262 p33 October 1 1993 
• Watson, Traci When worlds don't collide: Earth escapes Science v261 p159 July 9 1993 
• Galileo looks at Ida Astronomy v21 p18 December 1993 
• Rabinowitz, D. L.; Gehrels, T.; Scotti, J. V. Evidence for near-Earth asteroid belt Nature v363 p704-6 June 24 1993 
• Kerr, Richard A. A source found for Earth's commonest meteorites Science v261 p427 July 23 1993 
• Chyba, Christopher F. Explosions of small Spacewatch objects in the Earth's atmosphere Nature v363 p701-3 June 24 1993 
• An asteroid buzzes Earth (1993 KA2) Sky and Telescope v86 p9 September 1993 
• Gaspra's magnetic personality Sky and Telescope v86 p11-12 July 1993
• McKinnon, William B. Solar system: vestal voyagers unveiled (meteorites from the asteroid Vesta) Nature v363 p211-12 May 20 1993 
• Asteroid collision causes extinction Geotimes v38 p6-7 April 1993 Discussion. v38 p4 Je 1993 
• Powell, Corey S. Asteroid hunters Scientific American v268 p34+ April 1993
• Tunguska: an asteroid Sky and Telescope v85 p15 March 1993 
• A glimpse of "two"-tatis Sky and Telescope v85 p8 March 1993 Binzel, Richard P.; Xu, Shui 
• Chips off of asteroid 4 Vesta: evidence for the parent body of basaltic achondrite meteorites Science v260 p186-91 April 9 1993 
• Gaffey, Michael J. Forging an asteroid-meteorite link Science v260 p167-8 April 9 
• Talcott, Richard Toutatis seen with radar (contact-binary asteroid) Astronomy v21 p36-7 April 1993 
• Asteroid Gaspra surprises astronomers Astronomy v21 p20-1 April 1993
• Toutatis is a binary asteroid Astronomy v21 p18 March 1993 
• MacRobert, Alan M. A tiny visitor departs (4179 Toutatis) Sky and Telescope v85 p76+ January 1993 
• Kerr, Richard A. A lumpy Gaspra hints at a shattering secret Science v259 p28 January 1 1993 
• MacRobert, Alan M. Toutatis performs a near-earth flyby Sky and Telescope v84 p673-5 December 1992 
• Ahrens, Thomas J.; Harris, Alan W. Deflection and fragmentation of near-Earth asteroids (review article) Nature v360 p429-33 December 3 1992 
• Belton, M. J. S.; Veverka, J.; Thomas, P. Galileo encounter with 951 Gaspra: first pictures of an asteroid Science v257 p1647-52 September 18 1992 
• Binzel, Richard P.; Xu, Shui; Bus, Schelte J. Origins for the near-Earth asteroids Science v257 p779-82 August 7 1992 
• Kerr, Richard A. A battered Gaspra revealed Science v256 p1622 June 19 1992 
• King, Trude V. V.; Clark, R. N.; Calvin, W. M. Evidence for ammonium-bearing minerals on Ceres Science v255 p1551-3 March 20 1992 
• Matthews, Robert A rocky watch for Earthbound asteroids (sidebar: Giving a nudge to an asteroid) Science v255 p1204-5 March 6 1992 
• Kerr, Richard A. Galileo hits its target Science v254 p1109 November 22 1991 
• Kerr, Richard A. Galileo's frustrating asteroid pursuit Science v254 p381-2 October 18 1991 
• Ostro, S. J.; Campbell, D. B.; Chandler, J. F. Asteroid 1986 DA: radar evidence for a metallic composition Science v252 p1399-404 June 7 1991 
• Margolis, Stanley V.; Claeys, Philippe; Kyte, Frank T. Microtektites, microkrystites, and spinels from a late Pliocene asteroid impact in the Southern Ocean Science v251 p1594-7 March 29 1991 
• Kerr, Richard A. Dinosaurs and friends snuffed out? (New paleontological evidence favoring catastrophic impact) Science v251 p160-2 January 11 1991 
• Ostro, Steven J.; Chandler, John F.; Hine, Alice A. Radar images of asteroid 1989 PB Science v248 p1523-8 June 22 1990 
• Kerr, Richard A. The great asteroid roast: was it rare or well-done? Science v247 p527-8 February 2 1990 
• Kerr, Richard A. Largest radar detects dumbbell in space Science v246 p999 November 24 1989 
• Vilas, Faith; Gaffey, Michael J. Phyllosilicate absorption features in main-belt and outer-belt asteroid reflectance spectra Science v246 p790-2 November 10 1989 
• Kerr, Richard A. Asteroid and comet dust in space . . . and in the laboratory Science v241 p1603-4 September 23 1988 
• Kerr, Richard A. Another asteroid has turned comet Science v241 p1161 September 2 1988
• Cruikshank, D. P.; Brown, R. H. Organic matter on asteroid 130 Elektra Science v238 p183-4 October 9 1987 
• Kerr, Richard A. No satellites of asteroids Science v237 p250 July 17 1987 
• Kerr, Richard A. IRAS puts astronomers out of (one) business Science v235 p30-1 January 2 1987 
• Kerr, Richard A. More clues to asteroid-dead comet connections Science v235 p29-30 January 2 1987 
• Kerr, Richard A. Where are all the satellites of asteroids? Science v230 p1026-7 November 29 1985 
• Ostro, Steven J.; Campbell, Donald B.; Shapiro, Irwin I. Mainbelt asteroids: dual-polarization radar observations Science v229 p442-6 August 2 1985 
• McFadden, Lucy A.; Gaffey, Michael J.; McCord, Thomas B. Near-earth asteroids: possible sources from reflectance spectroscopy Science v229 p160-3 July 12 1985 
• Kerr, Richard A. Could an asteroid be a comet in disguise? Science v227 p930-1 February 22 1985 
• Powell, Corey S. Asteroid hunters Scientific American v268 p34+ April 1993 
• Powell, Corey S. Rocky rendezvous (image of Gaspra asteroid from Galileo spacecraft) Scientific American v266 p20 January 1992
• Binzel, Richard P.; Barucci, M. Antonietta; Fulchignoni, Marcello The origins of the asteroids Scientific American v265 p88-94 October 1991

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