Comets & Asteroids

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INDEX

  1. Count of Potentially Hazardous Asteroids Grows to 200...11/14/99
  2. Leonids on the Moon...11/03/99
  3. Near Earth Asteroid Prospector (NEAP) Asteroid Rendezvous Launch Period: 3 April 2001...09/26/99
  4. Probe Captured Asteroid Science Data...08/05/99
  5. NASA Captures Images Of Asteroid...08/02/99
  6. Spacecraft Begins Transmitting Infrared Images Of Asteroid...07/31/99
  7. NASA Probe Heads To Asteroid Flyby...07/29/99
  8. NASA Unveils Plans For Comet...07/09/99
  9. JPL'S New Deep Impact Asteroid Mission Ok'd By NASA...07/08/99
  10. Meteor Crater, Arizonia Created By An Asteroid, Shock Melt...07/02/99
  11. Say Hello to Comet C/1999 H1 (LEE)...06/12/99
  12. Hale-Bopp: A cosmic leftover...03/19/99
  13. Asteroid Eros apparently solid, smaller than expected...02/11/99
  14. NASA tracks comet "Wild-2"...02/04/99
  15. NASA footage shows asteroid in motion...01/27/99
  16. Great ball of fire Flash in sky likely exploding meteor...1/11/99
  17. Argentina extinctions linked to asteroid...1/8/99
  18. January's Chilly Meteors - The 1999 Quadrantids...12/28/98
  19. Space probe sends new asteroid pictures...12/26/98
  20. Scientists regain contact with NEAR asteroid probe...12/24/98
  21. NEAR Spacecraft to Flyby Asteroid Eros today...12/23/98
  22. NEAR Near Earth Asteroid Rendezvous ... 12/21/98
  23. NASA's NEAR spacecraft may find that asteroids need dusting ... 12/16/98
  24. Scientist claims to have found part of deadly asteroid ... 11/19/98
  25. NASA to inspect meteorite shower for signs of life ... 11/16/98


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Comets INDEX

Count of Potentially Hazardous Asteroids Grows to 200...11/14/99

By Robert Roy Britt Senior Science Writer

Officials at the Minor Planet Center announced Thursday the addition of a 200th asteroid to a list of Potentially Hazardous Asteroids (PHAs).

These rocks in space can pass within 5 million miles of Earth and are brighter than magnitude 22, a measurement that suggests the asteroids are more than about 600 feet across.

The Massachusetts Institute of Technology's Lincoln Laboratory Near-Earth Asteroid Research project, known as LINEAR found the newly discovered asteroid, designated 1999 VP11, on Nov. 7. The project is responsible for the discovery of about one-third of all known PHAs, according to a statement from the Minor Planet Center.

The first PHA, known as Apollo, was discovered in 1932. But the search for Near-Earth Asteroids (NEOs) has only recently gained steam, and all but 15 of the PHAs have been found during the past 20 years. Most pose no real threat to Earth, experts say, though a handful could have their orbits altered by other bodies in the solar system, possibly sending them on a collision course with our planet at some point in the distant future.

"Only a fraction warrant any serious examination for a possible impact during the next half-century or so," said Brian Marsden, director of the International Astronomical Union's Minor Planet Center.

Other significant Earth-approaching asteroid search programs include the University of Arizona's Spacewatch project (12 PHAs discovered), the Jet Propulsion Laboratory's Near-Earth Asteroid Tracking program (six), the University of Arizona's Catalina Sky Survey (five), and the Lowell Observatory Near-Earth Object Program (four). Amateur astronomer Roy Tucker has discovered two PHAs.

Comets INDEX

Leonids on the Moon...11/03/99

(NASA) Leonid meteorite impacts on the Moon might be visible from Earth and provide a means for long-distance lunar prospecting. When the Leonid meteor shower strikes on the morning of November 18, 1999, our planet won't be the only place in the cross hairs. The Moon will also pass very close to the debris stream of comet Tempel-Tuttle. Here on Earth, space-borne meteoroids will plummet into the atmosphere and burn up, creating streaks of light called meteors. The vast majority of meteoroids will burn and disintegrate well before they hit the ground. The situation on the Moon, where there is no appreciable atmosphere, is different. Every bit of comet debris that rains down on our satellite will hit its surface. Some meteor enthusiasts hope that will create a different sort of display. Rather than streaks of light in lunar skies, there could be flashes of light on the Moon's surface each time a sizable meteoroid hits the ground.

Last year, during the 1998 Leonid meteor shower, the phase of the moon was new. It was so close to the sun in the sky that observing faint lunar meteorite flashes was impossible. This year is different. During the 1999 Leonid shower the phase of the Moon will be just 2 days past first quarter. That means the moon will visible in the night sky during the early evening on November 17, and approximately 35% of the lunar disk as seen from Earth will not be illuminated by sunlight. There will be plenty of dark lunar terrain where flashes might be visible.

Comets INDEX

Near Earth Asteroid Prospector (NEAP) Asteroid Rendezvous Launch Period: 3 April 2001...09/26/99

SpaceDev The Near Earth Asteroid Prospector (NEAP) is a spacecraft being built and operated by a private company, SpaceDev. The NEAP spacecraft will be a hexagonal prism approximately 1.2 m tall by 2.5 m wide with a mass of 300 - 700 kg. After launch the NEAP will enter a phasing orbit and will make at least six close passes over the north and south poles of the Moon. In January 2002 NEAP will fire its kick motor to put it on course for a rendezvous with asteroid 4660 Nereus in May 2002. Observation of the asteroid will take place over 1 to 3 months, and will include dropping one or more instruments on the surface. Finally the spacecraft itself will land on the asteroid in July 2002. SpaceDev plans to claim ownership of Nereus after the landing.

Comets INDEX

Probe Captured Asteroid Science Data ... 08/05/99

PASADENA, Calif. (AP) - A NASA spacecraft that failed to get close-up pictures during its flyby of an asteroid last week captured enough science data to determine the rock's makeup and raise questions about its past, researchers said Tuesday. Scientists believe Asteroid Braille may have once been part of a larger asteroid, Vesta, which is also cruising through the solar system. Deep Space 1 flew within 16 miles of Braille, a peanut-shaped object about 1.3 miles long. The July 26 flyby was the closest ever by a spacecraft - twice the distance of a jetliner cruising above the Earth's surface.

Comets INDEX

NASA Captures Images Of Asteroid...08/02/99

PASADENA, Calif. (AP) - A NASA spacecraft that made the closest flyby ever of an asteroid has sent mission controllers infrared images of the asteroid, though it failed to capture closeup pictures. The Deep Space 1 probe, which flew within an estimated 10 miles of the Asteroid Braille Wednesday, began transmitting data from its infrared camera Friday, NASA's Jet Propulsion Laboratory said. Four black-and-white images were taken by the spacecraft's camera - two about 70 minutes before its closest approach and two of poorer quality about 15 minutes after the encounter more than 117 million miles from Earth. The spacecraft was unsuccessful in capturing close-ups of the giant orbiting rock because of a failure to aim the spacecraft's camera correctly.

Comets INDEX

Spacecraft Begins Transmitting Infrared Images Of Asteroid...07/31/99

PASADENA, California (AP) -- A NASA spacecraft that made the closest flyby ever of an asteroid has sent mission controllers infrared images of the asteroid, though it failed to capture closeup pictures. The Deep Space 1 probe, which flew within an estimated 10 miles of the Asteroid Braille on Wednesday, began transmitting data from its infrared camera on Friday, NASA's Jet Propulsion Laboratory said. Four black-and-white images were taken by the spacecraft's camera -- two about 70 minutes before its closest approach and two of poorer quality about 15 minutes after the encounter more than 117 million miles from Earth. The spacecraft was unsuccessful in capturing close-ups of the giant orbiting rock because of a failure to aim the spacecraft's camera correctly. Pictures sent back showed only empty space. The barrel-shaped, 8-foot spacecraft was launched in October and designed primarily to test new forms of technology for future deep-space flights. The mission costs $152 million. Deep Space 1 will remain functional when its prime mission officially ends Sept. 18, and could fly by two comets in 2001 if an extended mission is funded.

Comets INDEX

NASA Probe Heads To Asteroid Flyby...07/29/99

LOS ANGELES (AP) - A NASA spacecraft headed toward a close encounter with an asteroid Wednesday 188 million miles from Earth. Deep Space 1, a barrel-shaped, 8-foot probe that was launched from Cape Canaveral, Fla., last October, was scheduled to make a flyby that would bring it to within nine miles of Asteroid Braille, a rocky, mile-wide object orbiting between Earth and Mars. The spacecraft was expected to make the close approach at a relative speed of 35,000 mph. The maneuver was considered risky. This is the closest a probe has been ordered to come to a solar system object without landing.

Comets INDEX

NASA Unveils Plans For Comet...07/09/99

LOS ANGELES (AP) - A spacecraft named Deep Impact will fire a 1,100-pound copper bullet at the nucleus of a comet, blasting out a crater the size of a football field and as deep as a seven-story building. The radical $240 million mission, approved Wednesday by NASA, may sound more like fiction than science, but its primary purpose will be to study the makeup of comets. It's a coincidence that the project has the same name as last summer's disaster movie "Deep Impact," which was about a comet smacking Earth, mission planners said Thursday. Deep Impact is scheduled to be launched in Jan. 2004 and will arrive at comet Tempel 1 July 4, 2005. The projectile will separate from the spacecraft and hit the comet at 22,300 mph.

 

Comets INDEX

JPL'S New Deep Impact Asteroid Mission Ok'd By NASA...07/08/99

MEDIA RELATIONS OFFICE
JET PROPULSION LABORATORY
CALIFORNIA INSTITUTE OF TECHNOLOGY
NATIONAL AERONAUTICS AND SPACE ADMINISTRATION
PASADENA, CALIFORNIA 91109.

http://www.jpl.nasa.gov

FOR IMMEDIATE RELEASE

July 8, 1999

JPL'S NEW DEEP IMPACT ASTEROID MISSION OK'D BY NASA

A radical mission to excavate the interior of a comet has been selected as one of the next two flights in NASA's Discovery Program, the agency announced today.

The comet mission, called Deep Impact, will be managed by Jet Propulsion Laboratory, led by Dr. Michael A'Hearn from the University of Maryland in College Park, and built by Ball Aerospace in Boulder, Colo. The mission will send a 500-kilogram (1,100-pound) copper projectile into comet P/Tempel 1, creating a crater as big as a football field and as deep as a seven-story building. A camera and infrared spectrometer on the spacecraft, along with ground-based observatories, will study the resulting icy debris blasted off the comet, as well as the pristine interior material exposed by the impact. "

Comets are leftovers from the birth of the Sun and the planets, and Deep Impact will punch through the dark crust of P/Tempel 1 to give us our first look at what's inside," said JPL director Dr. Edward Stone.

James E. Graf will serve as project manager at JPL. Graf currently heads NASA's QuikScat mission to measure sea surface winds over the global ocean, successfully launched last month.

Deep Impact will be launched in January 2004 toward an explosive July 4, 2005 encounter with P/Tempel 1. Those impacts will occur at an approximate speed of 10 kilometers per second (22,300 mph). The total cost of Deep Impact to NASA is $240 million.

NASA also today announced the selection of another new Discovery mission, one that will map the pockmarked surface of Mercury. That spacecraft, to be built and managed by the Johns Hopkins University's Applied Physics Laboratory, Laurel, MD, is known as Mercury Surface, Space Environment, Geochemistry and Ranging mission, or Messenger.

"These low-cost missions are both fantastic examples of the creativity of the space science community," said Dr. Edward Weiler, associate administrator for space science at NASA Headquarters in Washington, DC. "Deep Impact presents a special chance to do some truly unique science, and it is a direct complement to the other two comet missions already in the Discovery Program."

Those missions, both managed by JPL, are Stardust, launched in February 1999 on a journey to gather samples of comet dust and return them to Earth, and the Comet Nucleus Tour (CONTOUR that will launch in June 2002 and fly closely by three comets.

Another Discovery mission managed by JPL was Mars Pathfinder, which landed successfully on the red planet in 1997, accompanied by a small robotic rover named Sojourner. The Pathfinder mission returned hundreds of images and thousands of measurements of the Martian environment.

In this latest round of Discovery missions, NASA selected Deep Impact and Messenger from 26 proposals made in early 1998. The missions must be ready for launch no later than Sept. 30, 2004, within the Discovery Program's development cost cap of $190 million in fiscal 1999 dollars over 36 months and a total mission cost of $299 million. The Discovery Program emphasizes lower-cost, highly focused scientific missions.

JPL will manage the Deep Impact mission for NASA's Office of Space Science, Washington, DC. JPL is a division of the California Institute of Technology, Pasadena, Calif.

 

 

 

 

Comets INDEX

Meteor Crater, Arizonia Created By An Asteroid, Shock Melt...07/02/99

By: Lori Stiles, The University of Arizona

Scientists Discover That Most Of The Asteroid That Formed The Meteor Crater Was Shock Melted.

TUCSON, ARIZ. ? Most of the asteroid that blasted Meteor Crater out of the Colorado Plateau melted, according to new evidence released today by an international team of scientists. This new finding contradicts a previously held theory that the Canyon Diablo meteor vaporized and gives a glimpse of what happens when similar-sized meteors slam into Earth every 6,000 years or so.

Meteor Crater, near Winslow, Ariz., the best-preserved impact crater in the world, was formed 50,000 years ago -- just yesterday on the geological time scale. Although modest by geological standards -- the equivalent of a 20-to-40 megaton bomb -- it grabs our attention because of its close proximity to our own time and for the story it tells about what could happen again.

The bowl-shaped depression measures 1.2 kilometers (four-fifths of a mile) wide and 180 meters (570 feet) deep and scientists say events like this occur every 1,600 years, with a Canyon-Diablo-sized meteor slamming into a land mass every 6,000 years. In research published today (July 2) in Science, scientists conclude that more than four-fifths of the Earth-crossing asteroid completely melted and spread over the Four Corners Region where Colorado, Arizona, New Mexico and Utah meet.

Most of the iron asteroid, which was 30 meters (100 feet) or more in diameter, spread as an enormous expansion plume produced by gases released from Colorado Plateau limestone. A fraction of the melted material survived to form sand-grain-sized particles called "spheroids." By using complex measurements of radioactive nickel 59 and computer modeling, the researchers determined the probable depth within the asteroid at which these spheroids were formed. Their experimental measurements and modeling results indicate that Canyon Diablo was travelling faster on impact that previously believed.

The scientists include faculty members from Rutgers University, The University of Arizona in Tucson, Australian National University, University of Rhode Island and University of California-Berkeley. Keith Fifield of the Australian National University, led the team in systematically measuring long-lived radioisotope nickel 59 in Canyon Diablo meteorites and spheroids. Nickel 59 is a "cosmogenic nuclide" produced in space when cosmic rays penetrate objects containing nickel 58. Nickel 58 changes to nickel 59 by absorbing an extra neutron from cosmic radiation.

Fifield used accelerator mass spectrometry to make the measurements. Canyon Diablo meteorites contain seven times more nickel 59 than do recovered spheroids, meaning they had come from the surface or outer shell of the asteroid, where exposure to cosmic radiation is greatest, said Greg Herzog of Rutgers University. Scientists find nickel 59 to be a far more useful cosmogenic nuclide for such analysis than some more commonly used ones. That's because of the mechanism by which it forms, its long half-life (76,000 years), its low volatility and its resistance to weathering, team members add. Elisabetta Pierazzo, a post-doctoral researcher at the UA Lunar and Planetary Laboratory, used numerical models to simulate the impact.

The simulation, based on models developed at Sandia National Laboratories, factored in the size and composition of Canyon Diablo and its target. Pierazzo determined which parts of the Earth-smashing asteroid remained solid and which melted and became spheroids. This was done by using experimentally measured shock pressure values for melting iron/nickel alloys. The composition of these alloys is close to that of meteorites. The team concludes that the precursor material of the spheroids probably came from depths of 1.3 to 1.6 meters (four to five feet) beneath the surface of the meteor before it entered Earth's atmosphere.

Pierazzo says that only about 15 percent of the rear, outer part of the asteroid remained solid after impact and that the other 85 percent of the projectile melted. She bases this conclusion on combined observational, experimental and theoretical evidence. Impact velocities by Earth-crossing asteroids average around 15 to 20 kilometers per second. The 20 km/s velocity -- or 45,000 mph -- would produce a melting profile that agrees with the experimental measurements, she said. At lower velocities, a much larger fraction of the projectile would have remained solid, leaving behind far more meteorites. "The model really makes sense when you match it with the hard evidence," Pierazzo said. "The modeling confirms the experimental results that say the Canyon Diablo meteorites came from the outer part of the projectile, and the spheroids from a depth of 1.5 to 2 meters below the surface. "I feel confident that this impact was at higher velocity than many people have believed it to be," she added. "This work gives no evidence for vaporization. From what we know about shock pressure, melting and vaporization of iron, the model indicates little or no vaporization of the impact."

Comets INDEX

Say Hello to Comet C/1999 H1 (LEE)...06/12/99

A MILLENNIUM GROUP SPECIAL REPORT

Earl L. Crockett, Writer http://www.millenngroup.com/repository/cometary/lee.htm

Comets INDEX

Hale-Bopp: A cosmic leftover...03/19/99

(AP) - Comet Hale-Bopp, which blazed across the sky in 1997, may be brimming with some of the primordial material from which the sun and the planets formed more than 4 billion years ago.

California Institute of Technology scientists who tuned radio telescopes onto the comet's nucleus as it cut across the solar system found vents spewing a volatile mixture of gas and dust into space.

The images suggest that 15% to 40% of Hale-Bopp's mass is pristine interstellar material, while the rest has been transformed extensively during the comet's passage through space.

The images are among the finest ever obtained of a comet with radio telescopes.

The findings were published in Thursday's issue of the journal Nature.

Comets are often called dirty snowballs. Most orbit far from the sun in the deep freeze beyond Pluto's orbit. That enables them to remain virtually unchanged over billions of years.

"Nothing has changed much out there since that time. Therefore it's a way of sampling some of the chemistry, or very close to what it was, when the solar system formed," said Paul Weisman, a scientist at NASA's Jet Propulsion Laboratory in Pasadena, California, who was not involved in the work.

The CalTech researchers found two icy jets erupting with forms of primordial deuterium-hydrogen, the poisonous gas hydrogen cyanide and a form of hydrogen called heavy water. The material may be rising from deep within the comet, said Geoffrey Blake, a CalTech professor of cosmochemistry and planetary sciences.

Actual proof that comets contain the primordial material of the solar system may have to wait until a spacecraft can dig inside one.

A NASA probe that is set for launch in 2003 will try to do that for the first time ever in 2006. If it survives the landing, it will drill into Comet Temple 1 to sample what's inside.

 

Comets INDEX

 

Asteroid Eros apparently solid, smaller than expected...02/11/99

(CNN) Eros isn't as grand as had been expected, NASA scientists studying the asteroid said Monday. Also known as asteroid 433, Eros was studied by the Near Earth Asteroid Rendezvous satellite in late December. NASA said Eros was found to be slightly smaller than predicted, with at least two medium-sized craters, a long surface ridge and a density comparable to the Earth's crust.

 

Comets INDEX

 

NASA tracks comet "Wild-2"...02/04/99

The Stardust spacecraft is set to blast off for an historic rendezvous with Comet Wild-2 This weekend a NASA spacecraft will blast off from the Kennedy Space Center for an historic rendezvous with periodic comet Wild-2. Its ambitious goal is to intercept Wild-2 in 2004, to capture tiny bits of comet dust and debris, and then return them to Earth for analysis in 2006. Stardust is the first comet rendezvous mission since since the European Giotto spacecraft's fly-by of Halley in 1986, and the first ever to attempt to return a comet sample to Earth. It's a long, 7-year mission, but one most scientists feel is worth the wait. Right: Comet P/Wild-2 photographed by K. Meech on Dec. 17, 1990 using an 88 inch reflector telescope on Mauna Kea, Hawaii. Scientists are curious about comets because they are thought to be the oldest, most primitive bodies in the solar system. Comets are made up of the same stuff as the early Solar Nebula that collapsed to form the sun and planets. It is now known that comets contain significant amounts of water ice, dust, and carbon based compounds. They may have been an important source of water and organic molecules for Earth when many comets collided with our planet during a period of heavy bombardment over 4 billion years ago. Modern-day comets are like a time machine. They offer a window into the past when the Solar System was young and life on Earth was just beginning.

 

Comets INDEX

NASA footage shows asteroid in motion...01/27/99

(CNN) -- Humankind will have to wait at least another year to see the first closeup views of an asteroid. But in the meantime, NASA has released some unprecedented footage of one of the mysterious space rocks as it rotates slowly in the solitude of space. The NEAR spacecraft captured a series of images of 430 Eros as it flew within 2,320 miles (3,830 km) of the asteroid on December 23. Presented in sequence, the images show Eros, a very elongated, cratered object about 18-by-eight miles (30-by-14 km) across, rotating with a period of just over five hours. The movie shows about two-thirds of a rotation of Eros. The first view, taken at 10:44 a.m. EST from a range of 7,150 miles (11,890 km), shows about half of the dayside of Eros. The movie ends at 2:05 PM EST, just after closest approach, when only a tiny portion of the dayside of Eros is visible. During the movie, the spacecraft's view of the asteroid changed dramatically. As is the case with most asteroids, Eros is rotating uniformly about a fixed axis, and is not tumbling randomly through space. NEAR had been scheduled to begin orbiting Eros in February, but the rendezvous was delayed for a year after the spacecraft's main engine shut down during a series of crucial firings on December 20. In a matter of hours, mission controllers were able to program an alternate command sequence that put the spacecraft on a trajectory about 2,500 miles (4,100 km) from the surface of the asteroid. However, plans to orbit Eros -- the first such attempt in history -- were postponed until February 2000. NEAR was one of the first NASA robot crafts built under a program that emphasizes less expensive and more effective ways of exploring the universe. It cost $129 million to build, and the entire mission so far has stayed within its planned budget of $211.5 million. Launched in February 1996, NEAR is to spend almost a year orbiting within 9 miles (15 km) of the surface of the potato-shaped asteroid. If the spacecraft succeeds in orbiting Eros, it then is expected to possibly land on its surface. Scientists hope the mission will provide answers to fundamental questions about the nature and origin of near-Earth objects, such as the numerous asteroids, meteoroids, and comets in the vicinity of Earth's orbit.

Comets INDEX

Great ball of fire Flash in sky likely exploding meteor...1/11/99

By ELIZABETH MANNING Daily News reporter

A brilliant flash and earthshaking boom noticed by thousands of Alaskans late Friday were likely a meteor exploding in Earth's atmosphere, scientists said Saturday. Donald Martins, an astronomy professor at the University of Alaska Anchorage, wasn't lucky enough to see the object that streaked blue, green and red across the Southcentral Alaska sky. But based on witness accounts, Martins and other scientists believe the flash came from a meteor or comet fragment - probably the size of a pumpkin - that exploded about 50 miles above Earth's surface. "That's almost certainly what it was," Martins said. "They aren't uncommon. But it is very rare to have one explode and hear it."

Dozens of people phoned authorities late Friday to report the event, which happened about 10:25 p.m. Most eyewitnesses described a brilliant and colorful flash, followed several minutes later by a boom. The boom was so loud it shook houses in Palmer and Wasilla and was heard from South Anchorage to Sutton and beyond. "I wish I could describe it," said Gina Gilmore, who watched the fireball from a hot tub near Palmer. "It was an eerie blue and green color and lit up the whole area. Then we heard an explosion, and it stilled our conversations." Gilmore said she thought at first that the object was a shooting star or meteor, but its intensity made the group in the hot tub wonder: Could it have been a missile, an electrical explosion or something from the "X-Files"?

"It was greenish, and it was loud," said Rachael Wagner, 16, another observer from Wasilla. She was inside her home and noticed the flash through the window. Assuming the object was a meteor, Martins said, it's possible that the fireball was part of the Quandrantid meteor shower, which was expected to be active from Dec. 28 through Thursday.

On Tuesday, Anchorage residents reported an object streaking low in the sky across the backdrop of the Chugach Mountains. The Quandrantids are one of the year's most intense meteor showers but are among the least observed because of their location high in the Northern sky. The meteors appear to emanate from the obsolete constellation Quadrans Muralis, hence the name Quandrantids. Though the origin of the Quandrantids is unknown, most meteor showers are caused by fragments of comets - dust and ice debris - that boil away from a comet's nucleus when it passes close to the sun.

A meteor shower results when Earth passes through a comet's debris stream. Martins said most meteors burn up from friction as they enter Earth's atmosphere. When the chunks are large enough, they sometimes explode because the core of the object is much cooler than the outside. "Imagine a cold rock coming in and getting very hot," said Greg Durocher, a scientist with the U.S. Geological Survey. "It's under tremendous stress." Durocher and other observers of the fireball said they heard the boom about three or four minutes after they saw the flash.

Based on that information, Martins estimated that the object was about 50 miles away at the time of the explosion. The noise people reported may have been a sonic boom. However, a single noise heard at the same time by everyone would indicate an explosion, he said. Martins said he once heard of a fireball so loud it almost deafened several fishermen in the South Pacific.

Although the object may have been fairly large for a meteor, Martins said, it is unlikely that anyone will find a meteorite, which is a fragment of a meteor that falls to Earth. There were rumors Friday of objects striking the Parks Highway at Mile 141 and reports by pilots of debris falling, but meteorites are extremely hard to find, Martins said. "Unless you can actually determine where the impact occurred, you're worse off than finding a needle in a haystack," he said. And if the object was part of a comet, Martins said, most of the fireball was probably composed of ice, which would have melted before hitting the ground. Martins said the colors people described suggest that the fragment was part of a comet. "It had a good tail on it," Gilmore said. "And it was amazing to watch it going across the sky. I probably won't ever see that again."

* Reporter Elizabeth Manning can be reached at emanning@adn.com

 

Comets INDEX

Argentina extinctions linked to asteroid...1/8/99

(ENN) An asteroid or comet that crashed into Argentina some 3.3 million years ago led to a regional climate change and the disappearance of 36 types of animals, according to a study published in the Dec. 11 issue of Science. The impact may have directly caused the regional extinction or triggered a climate change that led to the disappearance of the animals in what is now southeastern Argentina. "Unlike what impacts did to dinosaurs and other prehistoric creatures, this was not an event that led to global extinctions," said principal investigator Peter Schultz, professor of geological sciences at Brown University and an impact specialist. "We've found something linked to much more recent land history. The advantage to studying something this young is that you can really examine the forensics."

"This is a threshold event. It may have been just large enough to cause regional damage and extinctions and may have triggered a climate change. El Niño or a volcanic eruption produces small tweaks to the climate compared to what one of these impacts can do." The cyclical cooling of the Earth's temperatures that began soon after the impact 3.3 million years ago continues today, he said.

 

Comets INDEX

January's Chilly Meteors - The 1999 Quadrantids...12/28/98

(NASA) One of the year's most intense meteor showers, the Quadrantids, begins tonight. The shower stretches from Dec. 28 through Jan. 7 with a sharp maximum on Jan. 3, 1999. The Quadrantids are the only major annual meteor shower whose source, presumably a comet or an asteroid, remains unknown. Readers are invited to observe the upcoming shower and to submit their data for analysis by scientists studying the structure and origin of the Quadrantid meteoroid stream.

Comets INDEX

Space probe sends new asteroid pictures...12/26/98

(CNN) -- Space scientists began the daunting task Thursday of interpreting hundreds of pictures taken by a robotic space probe that completed its planned flyby of the asteroid Eros on Wednesday.

The images of the giant space rock will provide scientists with valuable information on the size, shape and surface characteristics of Eros and whether it has any moons, officials said. The Web site for the Near Earth Asteroid Rendezvous started posting the mages on Thursday as they were being processed.

A montage of the first nine images shows Eros completing nearly half a rotation. The smallest resolved detail is approximately 1650 feet (500 meters) across. Scientists were still trying to determine why they lost contact with the spacecraft for 27 hours and why it shut itself down during a series of engine firings Sunday that would have put it on course to reach Eros next month. Within hours, mission controllers were able to program an alternate command sequence that put the spacecraft on a trajectory about 2,500 miles (4,100 km) from the surface of the asteroid.

 

Comets INDEX

Scientists regain contact with NEAR asteroid probe...12/24/98

They are not telling us all the story, hairs are up on this one!... Mitch

(CNN) -- To the relief of mission controllers, a robot spacecraft tracking a giant asteroid phoned home Tuesday following a mysterious 27-hour blackout. But its much-anticipated mission to orbit the space rock called Eros has been postponed, possibly until spring.

Comets INDEX

NEAR Spacecraft to Flyby Asteroid Eros today...12/23/98

A Dec. 20 spacecraft abort of the initial rendezvous burn of the Near Earth Asteroid Rendezvous (NEAR) spacecraft has resulted in a postponement of NEAR’s orbit of asteroid 433 Eros, originally scheduled for Jan. 10, 1999. However, a flyby of the asteroid is planned for Dec. 23, 1998, at 1:43 p.m. EST, that will provide valuable information for its later study.

.“While the engine burn abort was unfortunate, we still expect to accomplish the rendezvous objectives, but at a later date,” says NEAR Mission Manager, Dr. Robert W. Farquhar, of The Johns Hopkins University Applied Physics Laboratory, which manages the NASA mission. “We expect that the later rendezvous date will not diminished the overall science return.”

During the Dec. 23, 1998, flyby, scientists will gain a preview look at the asteroid and gain a global perspective that will provide important information in planning an orbit insertion. Mission designers are now expecting the rendezvous will take place by May 2000. Data obtained from the flyby will help determine the shape and size of the asteroid and if it has any moons.

The rescheduling of the NEAR mission was made necessary by the abort of a planned 20-minute engine burn on Dec. 20, 1998. The spacecraft aborted just seconds after initiation of the bipropellant burn, causing communications with the spacecraft to be lost for about 27 hours. Contact was reestablished early Dec. 22, after NASA’s Deep Space Network locked onto a radio signal from the NEAR spacecraft at about 8 p.m. EST, on Dec. 21.

Responding to a command from the Mission Operations Center, NEAR started downloading stored data early Dec. 22, which the mission team has been analyzing to determine the cause of the abort and why the spacecraft lost attitude control.

“We’ve looked at the data and we believe there has been no damage to the spacecraft or the propulsion system,” says spacecraft systems engineer, Andrew G. Santo. “Our fault protection software identified the problem and switched NEAR to a safe mode. Essentially, it worked as designed.”

During the Dec. 23 flyby NEAR will take approximately 500 images from as close as 4,100 kilometers (2,500 miles). Although the images will be of lower resolution than those taken June 27, 1997, during the flyby of asteroid 253 Mathilde, they will provide scientists with important information about the asteroid.

NEAR will then travel in an orbit around the sun that nearly matches that of Eros. In May 2000, the spacecraft and Eros will meet, making it possible to insert NEAR into orbit around the asteroid

NEAR was launched Feb. 17, 1996 as the first launch of NASA’s Discovery Program. Updates of mission activities and science returns will be posted on the Web site

http://near.jhuapl.edu.

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NEAR (Near Earth Asteroid Rendezvous...12/21/98

Spacecraft will initiate a series of rocket engine firings that accelerate it toward a rendezvous with a faster-moving asteroid, 433 Eros. NEAR will reach Eros next month to begin the first close-up and comprehensive study of an asteroid in space history. "This is the first time ever a spacecraft will orbit an asteroid," said Professor William V. Boynton of the Lunar and Planetary Laboratory at The University of Arizona in Tucson. "There have been flybys and snapshots, but not much in the way of quantitative scientific data." Boynton is on one of six science teams that will study 433 Eros on the year-long NEAR mission that begins on Jan. 10 and is scheduled to end Feb. 6, 2000. The asteroid, which measures 24 miles in length and 10 miles in diameter (40 kilometers x 17 kilometers) was the first near-Earth asteroid (those whose orbits come close to or cross the orbit of Earth) spotted by astronomers. Boynton is a scientist on the X-Ray/Gamma Ray Spectrometer, or XGRS, experiment. It is the primary experiment for determining the elemental composition of the surface and layers just beneath the surface. The instrument will begin taking data next spring while NEAR is orbiting above the asteroid's surface, coming as close as 9 miles (15 kilometers).
 

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NASA's NEAR spacecraft may find that asteroids need dusting...12/16/98

NASA scientists think that asteroids scoop up dust from space over the eons, possibly blanketing themselves in layers up to a meter thick. Asteroids are too small for gravity to capture dust, but static electricity might do the job instead. If this idea is correct, then asteroids could provide storehouses of primordial matter from the early Solar System for future exploration.

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Scientist claims to have found part of deadly asteroid...11/19/98

(CNN) For years, the scientific community has theorized that a giant cosmic "impactor" slammed the Earth 65 million years ago in what is now Central America, wiping out the dinosaurs and much of the rest of life on the planet. UCLA scientist Frank Kyte has analyzed a small piece of a fossilized meteorite excavated from the North Pacific Ocean and contends it must have broken off from the asteroid when it shattered on impact. Kyte said the tiny iridium-and-iron chip in his sample makes it "highly" likely that the rock came from that asteroid.

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NASA to inspect meteorite shower for signs of life...11/16/98

WASHINGTON (Reuters) - Researchers looking for extraterrestrial life will examine next week's Leonid meteorite shower for clues, NASA said Friday. Governments and companies with satellites orbiting Earth are worried and many have turned them so dust and fragments do not damage their delicate equipment. But other scientists view the shower of extraterrestrial material as a chance to see what other-worldly stuff is made of and NASA will send up two research aircraft to study the dust trail. The Leonids come from dust and debris tailing the comet Tempel-Tuttle, which orbits the Sun every 33 years. Earth crosses through the trail every November, but once in 33 years this dust is very heavy and causes a bright meteorite shower.

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