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asteroids

For the arcade game, see Asteroids (computer game).

Asteroid, minor planet, and planetoid are synonyms, and are used to indicate a diverse group of small celestial bodies that drift in the solar system in orbit around the Sun. Asteroid (Greek for "star-like") is the word used most in the English literature for minor planets, which has been the term preferred by the International Astronomical Union; some other languages prefer planetoid (Greek: "planet-like"), since this describes more accurately what they actually are. In late August 2006, the IAU introduced the term "small solar system bodies" (SSSBs), which includes most objects thusfar classified as minor planets, as well as comets; they simultaneously introduced "dwarf planet" for the largest such objects. This article deals specifically with the minor planets that orbit in the inner solar system (roughly up to the orbit of Jupiter) and that probably have a mostly "rocky" composition. For other types of objects, such as comets, Trans-Neptunian objects, and Centaurs, see Small solar system body.

In the Solar System, the first discovered and largest asteroid Ceres is now classified as a dwarf planet, while all the rest are currently classified as small solar system bodies. The vast majority of the asteroids are found within the main asteroid belt, with elliptical orbits between those of Mars and Jupiter. It is thought that asteroids are remnants of the protoplanetary disc, and in this region the incorporation of protoplanetary remnants into the planets was prevented by large gravitational perturbations induced by Jupiter during the formative period of the solar system. Some asteroids have moons or are found in pairs known as binary systems.

253 Mathilde, a C-type asteroid.

1 Asteroids in the solar system
2 Asteroid classification
- 2.1 Orbit groups and families
- 2.2 Spectral classification
  - 2.2.1 Problems with spectral classification
3 Asteroid discovery
- 3.1 Historical discovery methods
- 3.2 Modern discovery methods
- 3.3 Latest technology: detecting hazardous asteroids
4 Naming asteroids
- 4.1 Overview: the naming format
- 4.2 Numbering asteroids
- 4.3 Sources for names
- 4.4 Special naming rules
- 4.5 Asteroid symbols
5 Asteroid exploration
6 Asteroids in fiction
7 See also
8 References
9 External links

Asteroids in the solar system

Left to right: 4 Vesta, 1 Ceres, Earth's Moon.

Hundreds of thousands of asteroids have been discovered within the solar system and the present rate of discovery is about 5000 per month. As of September 17, 2006, from a total of 342,358 registered minor planets, 136,563 have orbits known well enough to be given permanent official numbers. Of these, 13,422 ^[1]have official names ^[2]. The lowest-numbered but unnamed minor planet is (3360) 1981 VA; the highest-numbered named minor planet (other than the dwarf planets 136199 Eris and 134340 Pluto) is 129342 Ependes ^[3].

Current estimates put the total number of asteroids above 1 km in diameter in the solar system to be between 1.1 and 1.9 million^[4]. The largest asteroid in the inner solar system is 1 Ceres, with a diameter of 900-1000 km. Two other large inner solar system belt asteroids are 2 Pallas and 4 Vesta; both have diameters of ~500 km. Vesta is the only main belt asteroid that is sometimes visible to the naked eye (in some very rare occasions, a near-Earth asteroid may be visible without technical aid; see 99942 Apophis).

The mass of all the asteroids of the Main Belt is estimated to be about 3.0-3.6×10²¹ kg^[5]^[6], or about 4% of the mass of our moon. Of this, 1 Ceres comprises 0.95×10²¹ kg, some 32% of the total. Adding in the next three most massive asteroids, 4 Vesta (9%), 2 Pallas (7%), and 10 Hygiea (3%), bring this figure up to 51%; while the three after that, 511 Davida (1.2%), 704 Interamnia (1.0%), and 3 Juno (0.9%), only add another 3% to the total mass. The number of asteroids then increases rapidly as their individual masses decrease.

See also a List of noteworthy asteroids in our Solar System, or a sequentially-ordered List of asteroids.

Asteroid classification

Asteroids are commonly classified into groups based on the characteristics of their orbits and on the details of the spectrum of sunlight they reflect.

Orbit groups and families

Main articles: asteroid family and minor planet

Many asteroids have been placed in groups and families based on their orbital characteristics. It is customary to name a group of asteroids after the first member of that group to be discovered. Groups are relatively loose dynamical associations, whereas families are much "tighter" and result from the catastrophic break-up of a large parent asteroid sometime in the past.

For a full listing of known asteroid groups and families, see minor planet and asteroid family.

Spectral classification

This picture of 433 Eros shows the view looking from one end of the asteroid across the gouge on its underside and toward the opposite end. Features as small as 35 m across can be seen.

In 1975, an asteroid taxonomic system based on colour, albedo, and spectral shape was developed by Clark R. Chapman, David Morrison, and Ben Zellner^[7]. These properties are thought to correspond to the composition of the asteroid's surface material. Originally, they classified only three types of asteroids:

C-type asteroids - carbonaceous, 75% of known asteroids
S-type asteroids - silicaceous, 17% of known asteroids
M-type asteroids - metallic, most of the remaining asteroids

This list has since been expanded to include a number of other asteroid types. The number of types continues to grow as more asteroids are studied. See Asteroid spectral types for more detail or Category:Asteroid spectral classes for a list.

Note that the proportion of known asteroids falling into the various spectral types does not necessarily reflect the proportion of all asteroids that are of that type; some types are easier to detect than others, biasing the totals.

Problems with spectral classification

Originally, spectral designations were based on inferences of an asteroid's composition:^[8]

C - Carbonaceous
S - Silicaceous
M - Metallic

However, the correspondence between spectral class and composition is not always very good, and there are a variety of classifications in use. This has led to significant confusion. While asteroids of different spectral classifications are likely to be composed of different materials, there are no assurances that asteroids within the same taxonomic class are composed of similar materials.

At present, the spectral classification based on several coarse resolution spectroscopic surveys in the 1990s is still the standard. Scientists have been unable to agree on a better taxonomic system, largely due to the difficulty of obtaining detailed measurements consistently for a large sample of asteroids (e.g. finer resolution spectra, or non-spectral data such as densities would be very useful).

Asteroid discovery

243 Ida and its moon Dactyl, the first satellite of an asteroid to be discovered.

Historical discovery methods

Asteroid discovery methods have drastically improved over the past two centuries.

In the last years of the 18th century, Baron Franz Xaver von Zach organized a group of 24 astronomers to search the sky for the "missing planet" predicted at about 2.8 AU from the Sun by the Titius-Bode law, partly as a consequence of the discovery, by Sir William Herschel in 1781, of the planet Uranus at the distance "predicted" by the law. This task required that hand-drawn sky charts be prepared for all stars in the zodiacal band down to an agreed-upon limit of faintness. On subsequent nights, the sky would be charted again and any moving object would, hopefully, be spotted. The expected motion of the missing planet was about 30 seconds of arc per hour, readily discernable by observers.

Ironically, the first asteroid, 1 Ceres, was not discovered by a member of the group, but rather by accident in 1801 by Giuseppe Piazzi director, at the time, of the observatory of Palermo, in Sicily. He discovered a new star-like object in Taurus and followed the displacement of this object during several nights. His colleague, Carl Friedrich Gauss, used these observations to determine the exact distance from this unknown object to the Earth. Gauss' calculations placed the object between the planets Mars and Jupiter. Piazzi named it after Ceres, the Roman goddess of agriculture.

Three other asteroids (2 Pallas, 3 Juno, 4 Vesta) were discovered over the next few years, with Vesta found in 1807. After eight more years of fruitless searches, most astronomers assumed that there were no more and abandoned any further searches.

However, Karl Ludwig Hencke persisted, and began searching for more asteroids in 1830. Fifteen years later, he found 5 Astraea, the first new asteroid in 38 years. He also found 6 Hebe less than two years later. After this, other astronomers joined in the search and at least one new asteroid was discovered every year after that (except the wartime year 1945). Notable asteroid hunters of this early era were J. R. Hind, Annibale de Gasparis, Robert Luther, H. M. S. Goldschmidt, Jean Chacornac, James Ferguson, Norman Robert Pogson, E. W. Tempel, J. C. Watson, C. H. F. Peters, A. Borrelly, J. Palisa, Paul Henry and Prosper Henry and Auguste Charlois.

In 1891, however, Max Wolf pioneered the use of astrophotography to detect asteroids, which appeared as short streaks on long-exposure photographic plates. This drastically increased the rate of detection compared with previous visual methods: Wolf alone discovered 248 asteroids, beginning with 323 Brucia, whereas only slightly more than 300 had been discovered up to that point. Still, a century later, only a few thousand asteroids were identified, numbered and named. It was known that there were many more, but most astronomers did not bother with them, calling them "vermin of the skies".

Modern discovery methods

Until 1998, asteroids were discovered by a four-step process. First, a region of the sky was photographed by a wide-field telescope. Pairs of photographs were taken, typically one hour apart. Multiple pairs could be taken over a series of days. Second, the two films of the same region were viewed under a stereoscope. Any body in orbit around the Sun would move slightly between the pair of films. Under the stereoscope, the image of the body would appear to float slightly above the background of stars. Third, once a moving body was identified, its location would be measured precisely using a digitizing microscope. The location would be measured relative to known star locations^[9].

These first three steps do not constitute asteroid discovery: the observer has only found an apparition, which gets a provisional designation, made up of the year of discovery, a letter representing the week of discovery, and finally a letter and a number indicating the discovery's sequential number (example: 1998 FJ₇₄).

The final step of discovery is to send the locations and time of observations to Brian Marsden of the Minor Planet Center. Dr. Marsden has computer programs that compute whether an apparition ties together previous apparitions into a single orbit. If so, the object gets a number. The observer of the first apparition with a calculated orbit is declared the discoverer, and he gets the honour of naming the asteroid (subject to the approval of the International Astronomical Union) once it is numbered.

Latest technology: detecting hazardous asteroids

2004 FH is the centre dot being followed by the sequence; the object that flashes by during the clip is a satellite.

There is increasing interest in identifying asteroids whose orbits cross Earth's orbit, and that could, given enough time, collide with Earth (see Earth-crosser asteroids). The three most important groups of near-Earth asteroids are the Apollos, Amors, and the Atens. Various asteroid deflection strategies have been proposed.

The near-Earth asteroid 433 Eros had been discovered as long ago as 1898, and the 1930s brought a flurry of similar objects. In order of discovery, these were: 1221 Amor, 1862 Apollo, 2101 Adonis, and finally 69230 Hermes, which approached within 0.005 AU of the Earth in 1937. Astronomers began to realize the possibilities of Earth impact.

Two events in later decades increased the level of alarm: the increasing acceptance of Walter Alvarez' theory of dinosaur extinction being due to an impact event, and the 1994 observation of Comet Shoemaker-Levy 9 crashing into Jupiter. The U.S. military also declassified the information that its military satellites, built to detect nuclear explosions, had detected hundreds of upper-atmosphere impacts by objects ranging from one to 10 metres across.

All of these considerations helped spur the launch of highly efficient automated systems that consist of Charge-Coupled Device (CCD) cameras and computers directly connected to telescopes. Since 1998, a large majority of the asteroids have been discovered by such automated systems. A list of teams using such automated systems includes:^[10]

The Lincoln Near-Earth Asteroid Research (LINEAR) team
The Near-Earth Asteroid Tracking (NEAT) team
Spacewatch
The Lowell Observatory Near-Earth-Object Search (LONEOS) team
The Catalina Sky Survey (CSS)
The Campo Imperatore Near-Earth Objects Survey (CINEOS) team
The Japanese Spaceguard Association
The Asiago-DLR Asteroid Survey (ADAS)

The LINEAR system alone has discovered 67,820 asteroids as of June 13, 2006 ^[11]. Between all of the automated systems, 4076 near-Earth asteroids have been discovered ^[12] including over 600 more than 1 km in diameter.

Naming asteroids

Overview: the naming format

A newly discovered asteroid is given a provisional designation consisting of the year of discovery and an alphanumeric code (such as 2002 AT₄). Once its orbit has been confirmed, it is given a number, and later may also be given a name (e.g. 433 Eros). The formal naming convention uses parentheses around the number (e.g. (433) Eros), but dropping the parentheses is quite common. Informally, it is common to drop the number altogether, or to drop it after the first mention when a name is repeated in running text.

Asteroids that have been given a number but not a name keep their provisional designation, e.g. (29075) 1950 DA. As modern discovery techniques are discovering vast numbers of new asteroids, they are increasingly being left unnamed. The first asteroid to be left unnamed was (3360) 1981 VA. On rare occasions, an asteroid's provisional designation may become used as a name in itself: the still unnamed (15760) 1992 QB₁ gave its name to a group of asteroids which became known as cubewanos.

Numbering asteroids

Asteroids are awarded with an official number once their orbits are confirmed. With the increasing rapidity of asteroid discovery, asteroids are currently being awarded six-figure numbers. The switch from five figures to six figures arrived with the publication of the Minor Planet Circular (MPC) of October 19, 2005, which saw the highest numbered asteroid jump from 99947 to 118161. This change caused a small "Y2k"-like crisis for various automated data services, since only five digits were allowed in most data formats for the asteroid number. Most services have now widened the asteroid number field. For those which did not, the problem has been addressed in some cases by having the leftmost digit (the ten-thousands place) use the alphabet as a digit extension. A=10, B=11,…, Z=35, a=36,…, z=61. A high number such as 120437 is thus cross-referenced as C0437 on some lists.

Sources for names

Main article: Meanings of asteroid names

The first few asteroids were named after figures from Graeco-Roman mythology, but as such names started to run out, others were used —famous people, literary characters, the names of the discoverer's wives, children, and even television characters.

The first asteroid to be given a non-mythological name was 20 Massalia, named after the city of Marseilles. For some time only female (or feminized) names were used; Alexander von Humboldt was the first man to have an asteroid named after him, but his name was feminized to 54 Alexandra. This unspoken tradition lasted until 334 Chicago was named; even then, oddly feminised names show up in the list for years afterward.

As the number of asteroids began to run into the hundreds, and eventually the thousands, discoverers began to give them increasingly frivolous names. The first hints of this were 482 Petrina and 483 Seppina, named after the discoverer's pet dogs. However, there was little controversy about this until 1971, upon the naming of 2309 Mr. Spock (which was not even named after the Star Trek character, but after the discoverer's cat who supposedly bore a resemblance to him). Although the IAU subsequently banned pet names as sources, eccentric asteroid names are still being proposed and accepted, such as 6042 Cheshirecat, 9007 James Bond, or 26858 Misterrogers.

Special naming rules

Asteroid naming is not always a free-for-all: there are some types of asteroid for which rules have developed about the sources of names. For instance Centaurs (asteroids orbiting between Saturn and Neptune) are all named after mythological centaurs, Trojans after heroes from the Trojan War, and trans-Neptunian objects after underworld spirits.

Another well-established rule is that comets are named after their discoverer(s), whereas asteroids are not. One way to "circumvent" this rule has been for astronomers to exchange the courtesy of naming their discoveries after each other. A particular exception to this rule is 96747 Crespodasilva, which was named after its discoverer, Lucy d'Escoffier Crespo da Silva, because she sadly died shortly after the discovery, at age 22 ^[13] ^[14].

Asteroid symbols

The first few asteroids discovered were assigned symbols like the ones traditionally used to designate Earth, the Moon, the Sun and planets. The symbols quickly became ungainly, hard to draw and recognise. By the end of 1851 there were 15 known asteroids, each (except one) with its own symbol. The first four's main variants are shown here:

1 Ceres

2 Pallas

3 Juno

4 Vesta

Johann Franz Encke made a major change in the Berliner Astronomisches Jahrbuch (BAJ, "Berlin Astronomical Yearbook") for 1854. He introduced encircled numbers instead of symbols, although his numbering began with Astraea, the first four asteroids continuing to be denoted by their traditional symbols. This symbolic innovation was adopted very quickly by the astronomical community. The following year (1855), Astraea's number was bumped up to 5, but Ceres through Vesta would be listed by their numbers only in the 1867 edition. A few more asteroids (28 Bellona, 35 Leukothea, and 37 Fides) would be given symbols as well as using the numbering scheme.

The circle would become a pair of parentheses, and the parentheses sometimes omitted altogether over the next few decades.^[15]

Asteroid exploration

Until the age of space travel, asteroids were merely pinpricks of light in even the largest telescopes and their shapes and terrain remained a mystery.

The first close-up photographs of asteroid-like objects were taken in 1971 when the Mariner 9 probe imaged Phobos and Deimos, the two small moons of Mars, which are probably captured asteroids. These images revealed the irregular, potato-like shapes of most asteroids, as did subsequent images from the Voyager probes of the small moons of the gas giants.

951 Gaspra, the first asteroid to be imaged in close up.

The first true asteroid to be photographed in close-up was 951 Gaspra in 1991, followed in 1993 by 243 Ida and its moon Dactyl, all of which were imaged by the Galileo probe en route to Jupiter.

The first dedicated asteroid probe was NEAR Shoemaker, which photographed 253 Mathilde in 1997, before entering into orbit around 433 Eros, finally landing on its surface in 2001.

Other asteroids briefly visited by spacecraft en route to other destinations include 9969 Braille (by Deep Space 1 in 1999), and 5535 Annefrank (by Stardust in 2002).

In September 2005, the Japanese Hayabusa probe started studying 25143 Itokawa in detail and will return samples of its surface to earth. Following that, the next asteroid encounters will involve the European Rosetta probe (launched in 2004), which will study 2867 Šteins and 21 Lutetia in 2008 and 2010.

NASA is planning to launch the Dawn Mission in 2007, which will orbit 1 Ceres and 4 Vesta in 2011-2015, with its mission possibly then extended to 2 Pallas.

It has been suggested that asteroids might be used in the future as a source of materials which may be rare or exhausted on earth (asteroid mining).

Asteroids in fiction

Main article: Asteroids in fiction

A common depiction of asteroids (and less often, of Comets) in fiction is as a threat, whose impact on Earth could result with incalculable damage and loss of life^[16]^[17]. This has a basis in scientific hypotheses regarding such impacts in the distant past as responsible for the extinction of the Dinosaurs and other past catastrophes —though, as they seem to occur within tens of millions of years of each other, there is no special reason (other than creating a dramatic story line) to expect a new such impact at any close millennium.

Another way in which asteroids could be considered a source of danger is by depicting them as a hazard to navigation, especially threatening to ships travelling from Earth to the outer parts of the Solar System and thus needing to pass the Asteroid Belt (or make a time- and fuel-consuming detour around it). Asteroids in this context provide to space travel stories a space equivalent of reefs and underwater rocks in the older genre of sea-faring adventures stories^[18]. And like reefs and rocks in the ocean, asteroids as navigation hazards can also be used by bold outlaws to avoid pursuit. Representations of the Asteroid Belt in film tend to make it unrealistically cluttered with dangerous rocks. In reality asteroids, even in the main belt, are spaced extremely far apart.

Before colonization of the asteroids became an attractive possibility, a main interest in them was theories as to their origin - specifically, the theory that the asteroids are remnants of an exploded planet. This naturally leads to SF plotlines dealing with the possibility that the planet had been inhabited, and if so - that the inhabitants caused its destruction themselves, by war or gross environmental mismanagement. A further extension is from the past of the existing asteroids to the possible future destruction of Earth or other planets and their rendering into new asteroids.^[19]^[20]

When the theme of interplanetary colonization first entered SF, the Asteroid Belt was quite low on the list of desirable real estate, far behind such planets as Mars and Venus (often conceived as a kind of paradise planet, until probes in the 1960s revealed the appalling temperatures and conditions under its clouds). Thus, in many stories and books the Asteroid Belt, if not a positive hazard, is still a rarely-visited backwater in a colonized Solar System.^[21]

The prospects of colonizing the Solar System planets became more dim with increasing discoveries about conditions on them. Conversely, the potential value of the asteroids increased, as a vast accumulation of mineral wealth, accessible in conditions of minimal gravity, and supplementing Earth's dwindling resources. Stories of asteroid mining became more and more numerous since the late 1940s, with the next logical step being depictions of a society on terraformed asteroids —in some cases dug under the surface, in others having dome colonies and in still others provided with an atmosphere which is kept in place by an artificial gravity. An image developed and was carried from writer to writer, of "Belters" or "Rock Rats" as rugged and independent-minded individuals, resentful of all Authority (in some books and stories of the military and political power of Earth-bound nation states, in others of the corporate power of huge companies)^[22]. As such, this sub-genre proved naturally attractive to writers with Libertarian tendencies^[23]. Moreover, depictions of the Asteroid Belt as The New Frontier clearly draw (sometimes explicitly) on the considerable literature of the Nineteenth-Century Frontier and the Wild West.

References

^ Minor Planet Names. Retrieved on 2006-10-11.
^ trivia: about 650 of these names require diacritics
^ Discovery Circumstances: Numbered Minor Planets (125001)-(130000). Retrieved on 2006-07-12.
^ New study reveals twice as many asteroids as previously believed. Retrieved on 2006-03-28.
^ Krasinsky, G. A.; Pitjeva, E. V.; Vasilyev, M. V.; Yagudina, E. I. (2002). "Hidden Mass in the Asteroid Belt". Icarus 158: 98-105.
^ Pitjeva, E. V. (2005). "High-Precision Ephemerides of Planets - EPM and Determination of Some Astronomical Constants". Solar System Research 39: 176.
^ Chapman, C. R., Morrison, D., & Zellner, B. (1975). "Surface properties of asteroids: A synthesis of polarimetry, radiometry, and spectrophotometry". Icarus 25: 104-130.
^ McSween Jr., Harry Y.. Meteorites and Their Parent Planets. ISBN 0-521-58751-4.
^ Carolyn Shoemaker. Retrieved on 2003-06-23.
^ Near Earth Object Program. Retrieved on 2004-06-23.
^ Minor Planet Discover Sites. Retrieved on 2006-07-12.
^ Unusual Minor Planets. Retrieved on 2006-07-14.
^ Citation from MPC 55988. Retrieved on 2006-06-05.
^ MIT News Office: Lucy Crespo da Silva, 22, a senior, dies in fall. Retrieved on 2006-06-05.
^ When Did the Asteroids Become Minor Planets. James L. Hilton. Retrieved on 2006-03-26.
^ Clarke, Arthur C. (1993). The Hammer of God.
^ Niven, Larry (1977). Lucifer's Hammer.
^ Asimov, Isaac (1953). Lucky Starr and the Pirates of the Asteroids.
^ Hogan, James P. (1977). Inherit the Stars.
^ Heinlein, Robert (1948). Space Cadet.
^ Isaac Asimov (March 1939). "Marooned off Vesta". Amazing Stories.
^ Williamson, Jack (1950). Seetee Ship.
^ Smith, L. Neil (1993). Pallas.

External links

Wikimedia Commons has media related to:

Asteroids

Known Asteroid Impacts & Their Effects
Alphabetical list of minor planet names (ASCII) (Minor Planet Center)
Alphabetical and numerical lists of minor planet names (Unicode) (Institute of Applied Astronomy)
Near Earth Objects Dynamic Site
Asteroids Dynamic Site Up-to date osculating orbital elements and proper orbital elements
Asteroid naming statistics
Near Earth Asteroid Tracking (NEAT)
Everything you wanted to know about comets and asteroids — Provided by New Scientist.
Spaceguard UK
When Did the Asteroids Become Minor Planets?
Large amount of information on asteroid groups collected by Gérard Faure, translation Richard Miles.
Asteroid Simulator with Moon and Earth

(asteroid navigator) | First asteroid | ...

v·d·e Small Solar System bodies
Vulcanoids \| Near-Earth asteroids \| Main belt \| Jupiter Trojans \| Centaurs \| Damocloids \| Comets \| Trans-Neptunians (Kuiper belt · Scattered disc · Oort cloud)
For other objects and regions, see: asteroid groups and families, binary asteroids, asteroid moons and the Solar system For a complete listing, see: List of asteroids. See also Pronunciation of asteroid names and Meanings of asteroid names.

The Solar System

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The Sun · Mercury · Venus · Earth · Mars · Ceres · Jupiter · Saturn · Uranus · Neptune · Pluto · Eris

Planets · Dwarf planets · Moons: Terran · Martian · Asteroidal · Jovian · Saturnian · Uranian · Neptunian · Plutonian · Eridian

SSSBs: Meteoroids · Asteroids (Asteroid belt) · Centaurs · TNOs (Kuiper belt/Scattered disc) · Comets (Oort cloud)

See also astronomical objects and the solar system's list of objects, sorted by radius or mass.

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asteroids news and asteroids articles

Here's our top rated asteroids links for the day:

Getting set to deflect asteroids that may one day head for the earth

The Hindu - Nov 17 12:07 PM

NASA evokes Hollywood in bold bid to avoid a possible catastrophe -- to land an astronaut on an asteroid as it hurtles through space

Lyrics by The Dead Schembechlers

The Plain Dealer - Nov 17 1:44 AM

Who built the Sphinx and pyramids, who built the Eiffel Tower? Then who tore down the Berlin Wall with Marvel superpower? Who fought off giant asteroids to keep the earth from dyin'?

Mac wins shot at state title

News-Register - Nov 16 4:42 PM

The last time McMinnville High School won a state championship in a team sport, Jimmy Carter was occupying the White House, ESPN had just been launched and Atari had just released a video game called Asteroids. The News-Register's newest sports reporter, Brian Gjurgevich, hadn't even been born yet.

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asteroids

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