PLEASE NOTE:


*

CCNet 6/2001 - 12 January 2001
------------------------------

"Rampaging Muslims burned down scores of hotels and bars in a
northern Nigerian city in reaction to the lunar eclipse which they
blamed on sinners, residents said on Wednesday. Paramilitary police
battled gangs of Muslim youths in the streets of the largely Islamic city
of Maiduguri for hours on Tuesday night. Residents said at least 40 hotels
or drinking houses were set ablaze. Similar violence was reported in
Barma town 50 miles away where youths chanting Allahu Akbar (God is Great)
took to the streets. "The immoral acts committed in these places are
responsible for this eclipse," police quoted a youth leader as saying."
--Space.com, 10 January 2001


(1) CHANDRA LINKS PULSAR TO HISTORIC SUPERNOVA IN 386 AD
    NASA Science News for January 11, 2001

(2) STARDUST CAN SEE CLEARLY NOW -- JUST BEFORE EARTH FLYBY
    NASA News <NASANews@hq.nasa.gov>

(3) LUNATICS AT WORK: MOON ECLIPSE SPARKS RIOTS BY MUSLIM FANATICS
    SPACE.com, 10 January 2001

(4) NASA BALLOON RESEARCH RIDES TO THE EDGE OF SPACE
    Mark Hess <mhess@pop100.gsfc.nasa.gov>

(5) COMA BERENICIDS, YES; COMET CONNECTIONS, NO
    Brian Marsden <brian@cfaps1.harvard.edu>

(6) EARTH IS THE MOST LIKELY PLACE FOR LIFE'S ORIGIN IN OUR SOLAR SYSTEM
    Steve Drury <s.a.drury@open.ac.uk>

(7) GRANDE CHALLENGE: A PRAGMATIC APPROACH TO DISASTER PREVENTION &
MANAGEMENT
    Andy Smith <astrosafe@yahoo.com>

(8) FORMATION OF IRON METEORITES
    G.K. Benedix

(9) ACTIVE REGIONS ON THE SURFACE OF COMET 43P/WOLF-HARRINGTON
    S. Szutowicz

(10) POSITIONAL ERRORS & THE PERTURBED TWO-BODY PROBLEM
     H. Arakida

(11) ASTEROIDAL PROCESSING OF CHONDRITIC MATERIALS
     P.A. Bland

(12) INTERNATIONAL INSTITUTIONS AND THE MANAGEMENT OF GLOBAL RISKS
     P.M. Haas

(13) AND FIMALLY: SPACE RESAERCH SPILLS ZE END FOR DYSLEXIA
     The Scotsman, 12 January 2001

=================
(1) CHANDRA LINKS PULSAR TO HISTORIC SUPERNOVA IN 386 AD

From NASA Science News for January 11, 2001
http://science.nasa.gov/headlines/y2001/ast11jan_1.htm?list20392

New evidence from NASA's Chandra X-ray Observatory suggests that a known
pulsar is the present-day leftover from a stellar explosion witnessed by
Chinese astronomers in 386 AD. The discovery could force astronomers to
rethink what they know about the ages of neutron stars.

January 11, 2001 -- New evidence from NASA's Chandra X-ray Observatory
suggests that a known pulsar is the present-day counterpart to a supernova
that exploded in 386 AD, a stellar explosion witnessed by ancient Chinese
astronomers. If confirmed, this will be only the second known pulsar to be
clearly associated with an historic event.

In roughly the past 2,000 years, less than 10 reports of probable supernovae
have been archived, mostly by Asian astronomers. Until now, the Crab Nebula
has been the only pulsar whose birth is associated with an historic event,
the supernova of 1054 AD, making it the only neutron star with a firm age.

"Determining the true ages of astronomical objects is notoriously
difficult," said Victoria Kaspi of McGill University in Montreal, Canada,
"and for this reason, historical records of supernova are of great
importance."

Kaspi and colleagues, who presented their results yesterday at the American
Astronomical Society meeting in San Diego, CA, used Chandra to locate the
pulsar exactly at the geometric center of the supernova remnant known as
G11.2-0.3. This location provides very strong evidence that the pulsar, a
neutron star spinning 14 times per second, was formed in the supernova of
386 AD, making it 1,615 years old.

Because pulsars, once they are formed, race away from the site of the
supernova explosion, Chandra's ability to pinpoint the pulsar at the
remnant's center implies the system must be very young.

"We believe that the pulsar and the supernova remnant G11.2-0.3 are both
likely to be left over from the explosion seen by the Chinese observers over
1,600 years ago," said Mallory Roberts of McGill University. "While this is
exciting by itself, it also raises new questions about what we know about
pulsars, especially during their infancies."

These questions arose when the research team of the Japanese Advanced
Satellite for Cosmology and Astrophysics (ASCA) applied the present spin
rate to current models to determine the pulsar's estimated lifetime and
compared it to the age of G11.2-0.3. The result was an age of roughly 24,000
years -- far predating the birth year of 386 AD.

To explain this contradiction, the Chandra team argues that this pulsar may
have had approximately the same spin rate today as it did at its birth. If
true, this could have important implications for conventional wisdom
regarding pulsars, which may be spinning more slowly than previously
thought.

Between mid-April and mid-May in the year 386 AD, the sudden appearance of a
new star, presumably a supernova, was recorded by Chinese observers in the
direction of the sky now known as the constellation of Sagittarius. In the
1970s, radio astronomers discovered an expanding nebula of gas and
high-energy particles, called G11.2-0.3, believed to be the remnant of that
explosion. In 1997, a team of X-ray astronomers used ASCA to discover a
pulsar in the same area of the sky.

NASA's Marshall Space Flight Center in Huntsville, AL, manages the Chandra
program. The Smithsonian's Chandra X-ray Center controls science and flight
operations from Cambridge, MA. These results were presented by Vicki Kaspi
and Mallory Roberts, of McGill University, at the American Astronomical
Society meeting in San Diego, CA. Also participating in the research were
Gautum Vasisht from NASA's Jet Propulsion Laboratory, Pasadena, CA; Eric
Gotthelf from Columbia University, New York City; Michael Pivovaroff from
Thermawave, Inc., Fremont, CA; and Nobuyuki Kawai from the Institute of
Physical and Chemical Research, Japan. In addition to their appointments at
McGill, Kaspi is also affiliated with the Massachusetts Institute of
Technology, Cambridge, and Roberts is a Quebec Merit Postdoctoral Fellow.
The National Science Foundation and NSERC (Canada) also provided funding for
this work.

===============
(2) STARDUST CAN SEE CLEARLY NOW -- JUST BEFORE EARTH FLYBY

From NASA News <NASANews@hq.nasa.gov>
 
Donald Savage
Headquarters, Washington, DC             January 11, 2001
(Phone:  202/358-1547)

Martha J. Heil
Jet Propulsion Laboratory, Pasadena, CA
(Phone:  818/ 354-0850)

RELEASE:  01-06

STARDUST CAN SEE CLEARLY NOW -- JUST BEFORE EARTH FLYBY

After a few months of foggy vision, NASA's Stardust mission team has
improved the spacecraft's navigation-camera resolution to nearly normal,
just as Stardust is preparing to make a close flyby of the Earth on Monday.

By heating the camera's optical path, the Stardust team was able to help its
nearsighted spacecraft boil away contaminants that had been deposited on
optical surfaces.

One year ago, the imaging team took pictures of a small lamp inside the
optical path of the camera. The camera will be used to navigate Stardust to
its 2004 encounter with Comet Wild 2
(pronounced "vilt-2"). Apparent contamination of the navigation-camera
prevented a clear test-image of the squiggly line of the lamp's filament,
and the lens seemed to be covered with a veil of light-scattering material
that produced a blurry image.

The team concluded that the contamination might have been released with
gases escaping from the spacecraft after its launch, and that heating the
optical path of the camera might evaporate the
contaminant covering the camera lens. After a series of heating cycles, they
retested the camera by taking more pictures of the lamp.

Pictures taken after the heating revealed that the zigzag line of the lamp's
filament was visible again. Images of stars taken by the camera are also
clearer. The team estimates the camera can now photograph stars two
magnitudes (celestial degrees of brightness) better. The navigation camera
has detected stars as faint as 9th magnitude, which should allow the
spacecraft to perform its final navigation maneuvers during approach to the
comet nearly at the time originally planned.

Now Stardust, on its journey to collect comet dust, is getting ready to
springboard from Earth -- in a maneuver called a "gravity-assist" -- when
the spacecraft passes closest to Earth on January 15, 2001.

Stardust was launched on February 7, 1999, into its first loop around the
Sun. When Stardust passes by Earth at about 22,400 miles per hour (or 10
kilometers per second), it will go into a slightly wider orbit that will
allow it to reach the comet on January 2, 2004.

On Monday, January 15, Stardust will fly by a point just southeast of the
southern tip of Africa, slightly more than 3,700 miles (6,000 kilometers)
from the surface at about 5:15 a.m. EST (3:15 a.m. PST).

Stardust may be visible to observers using sophisticated telescopes with
charge-coupled device (CCD) detectors from the Pacific Ocean and the Western
United States just after the spacecraft flies by Earth. Stardust will not be
visible using binoculars.

A gravity-assist works like this: when a spacecraft closely approaches a
planet, the planet's gravitational pull accelerates the spacecraft and bends
the flight path. Mission designers account for this extra pull and use it to
their advantage to boost spacecraft speed and direct interplanetary
spacecraft to their targets. Like a windup before the pitch, the Earth
gravity-assist will sling Stardust into the right path to meet Comet Wild 2.

About 15 hours after its closest approach to Earth, the spacecraft will pass
about 61,000 miles (98,000 kilometers) from the Moon. Because of the greater
distance, the Moon's gravity will have essentially no influence on the
spacecraft's flight path.

Stardust, a part of NASA's Discovery Program of low-cost, highly focused
science missions, is managed by the Jet Propulsion Laboratory (JPL),
Pasadena, CA, for NASA's Office of Space Science, Washington, D.C. JPL is a
division of the California Institute of Technology, Pasadena. More
information on the Stardust mission is available at: 

          http://stardust.jpl.nasa.gov/index.html

=================
(3) LUNATICS AT WORK: MOON ECLIPSE SPARKS RIOTS BY MUSLIM FANATICS

From SPACE.com, 10 January 2001
http://www.space.com/scienceastronomy/solarsystem/eclipse_unrest_010110_wg.html   

Moon Eclipse Sparks Unrest in Nigerian City

MAIDUGURI, Nigeria (Reuters) -- Rampaging Muslims burned down scores of
hotels and bars in a northern Nigerian city in reaction to the lunar eclipse
which they blamed on sinners, residents said on Wednesday.

Paramilitary police battled gangs of Muslim youths in the streets of the
largely Islamic city of Maiduguri for hours on Tuesday night.

Residents said at least 40 hotels or drinking houses were set ablaze.
Similar violence was reported in Barma town 50 miles (80 kilometers) away
where youths chanting Allahu Akbar (God is Great) took to the streets.

"The immoral acts committed in these places are responsible for this
eclipse," police quoted a youth leader as saying.

Police chief Uba Bala Ringim told Reuters in Maiduguri that five people had
been detained and more arrests were expected.

Religious violence has been a major problem in the largely Islamic north
over the past year. Hundreds of people were killed in two bouts of
Muslim-Christian bloodletting in the northern city of Kaduna over plans to
introduce Islamic sharia law in the area.

Copyright 2001, Space.com

MODERATOR'S NOTE: The tragicomical events in Nigeria should serve as a
timely reminder and a warning from history that apocalyptic scaremongers and
doomsday fanatics (both in the shape of religious *and* secular/new age
movements) have frequently turned fear-ridden aggressive impulses into
violence against their opponents whenever an extraordinary cosmic event was
declared a "threat." If a perfectly harmless spectacle such as a lunar
eclipse can trigger mob violence, many readers, I am sure, can imagine what
may happen if, God forbid, an asteroid were ever verified to be on a
collision course with Earth. Let's not fool ourselves: the impact hazard is
as much a potential environmental risk as it is a challenge to societal
order and stability. After all, history has shown time and again that civil
war, upheaval and genocidal violence lucks behind every apocalyptic mass
movement. BJP

==============
(4) NASA BALLOON RESEARCH RIDES TO THE EDGE OF SPACE

From Mark Hess <mhess@pop100.gsfc.nasa.gov>

Dolores Beasley
Headquarters, Washington, DC                January 11, 2001
(Phone: 202-358-1753)

Keith Koehler
Wallops Flight Facility, Wallops Island, VA
(Phone: 757-824-1579)

Betty Flowers
Balloon Launching Station, Alice Springs Airport, Australia
(Phone: 61-8-8952-6315)

RELEASE: 01-03

NASA BALLOON RESEARCH RIDES TO THE EDGE OF SPACE

The countdown is underway for the launch of a revolutionary research-balloon
designed to fly higher and longer than anything before it, and the flight
could open a new era in scientific research.

NASA's new Ultra-Long Duration Balloon (ULDB) is scheduled to lift off Jan.
16 from Alice Springs, Australia, and will carry the hopes of many
scientists who see balloon technology
as an economical means of studying the Earth and space.

"Although balloons have been flying for more than 200 years and scientists
have long used them for a variety of research missions, the length of time
balloons can stay aloft has always constrained their efforts," said Steve
Smith, Chief of the Balloon Program Office, NASA Goddard Space Flight
Center's Wallops Flight Facility, Wallops Island, VA. "Thanks to greatly
enhanced computer technologies, high-tech materials and advanced designs,
longer-range balloons are poised to open a new frontier for high-altitude
research".

The balloon is expected to float over the Southern Hemisphere at an altitude
of approximately 115,000 feet (35 kilometers), 3 to 4 times higher than
passenger planes. While the test
flight is expected to last only about two weeks and circumnavigate the
globe, the ULDB is designed to support missions for up to 100 days.

"Balloons provide cost-effective platforms for near-space observations,"
said Dr. Vernon Jones, Office of Space Science, NASA Headquarters,
Washington, DC. "This January flight provides an excellent opportunity to
test the newly designed ULDB system."

The full-scale ULDB is the largest single-cell, super-pressure (fully
sealed) balloon ever flown. At launch, the balloon is partially inflated
with helium and expands as it rises. When fully inflated, the massive ULDB
would barely fit inside a domed football stadium.The ULDB floats above 99
percent of the Earth's atmosphere and can carry a 3,500-pound
(1.588-kilogram) payload. The balloon system comes down in a controlled
descent. It may be visible from the ground with a telescope and, in some
cases, with the naked eye.

The ULDB's unique pumpkin-shaped design and its novel material, a
lightweight polyethylene film about the thickness of ordinary plastic
food-wrap, were successfully tested during a prototype flight from Ft.
Sumner, NM, last June.

"Recent development of new balloon materials and associated technologies
will enable challenging, important investigations to be done at relatively
modest cost," said Jones. He added that the ability to fly balloons for
months or years at a time would create a multitude of scientific and
business opportunities.

Conventional high-altitude, scientific balloon flights typically last a few
days to a week because temperature changes from day to night ultimately
cause the balloon to lose altitude. The ULDB is completely sealed, so gas is
not vented to relieve pressure. The new super-pressure balloon will maintain
lift, size and shape, and will not lose significant altitude due to
atmospheric influences.

Future science missions for the ULDB will study the source of cosmic rays
generated from shock waves emanating from supernovae and will perform
surveys of X-ray emiting objects in the universe, search for planets around
other nearby stars and will study other objects in space, including the Sun.

The Wallops Flight Facility manages NASA's scientific balloon program for
the Office of Space Science. Launch operations are conducted by the National
Scientific Balloon Facility, Palestine, TX, which is managed for NASA by the
Physical Sciences Laboratory of New Mexico State University, Las Cruces.
Australian operational support to NASA is provided by the Commonwealth
Scientific Industrial Research Organization.

More information on the Ultra-Long Duration Balloon mission and tracking of
the balloon flight can be found at:

   http://www.wff.nasa.gov/pages/scientificballoons.html

============================
* LETTERS TO THE MODERATOR *
============================

(5) COMA BERENICIDS, YES; COMET CONNECTIONS, NO

From Brian Marsden <brian@cfaps1.harvard.edu>

Dear Benny,

I was quite startled to read in the Jan. 11 CCNet, not only of the suggested
association of a recently observed meteor shower with "the poorly observed
Comet Lowe 1913 I", but also of the suggested identity of the 1913 object
with another comet, "observed, again rather badly, in 1750".

The fact is that the 1913 object was recorded only by its discoverer, an
"enthusiastic" Australian amateur astronomer, who on Jan. 7 of that year
reported to the Adelaide Observatory _very_ rough (and initially quite
erroneous) positional data obtained by him with a 3-inch telescope on four
mornings during the previous week. Even when the data were amended and
attempts made to compute an orbit, no observations by others came to light,
which was a little surprising since the object should have been an easy
object for northern-hemisphere astronomers at and before its alleged
discovery. This situation is reminiscent of many that continue to arise at
the IAU Central Bureau for Astronomical Telegrams, and perusal of the Lowe
information preserved in the Astronomische Nachrichten and the Journal of the British
Astronomical Association cannot help but place the existence of the object
in doubt. Although the various orbits computed at the time by Viljev and
Crommelin agreed on a nodal longitude of 300 to 305 degrees (and the
possibility of a very close approach to the earth around Jan. 25 if the
comet had come to perihelion some weeks later than indicated), there was
disagreement as to whether the orbital inclination was 80 degrees or 120
degrees: if I wish to contend with residuals of well over a degree, I get an
inclination of something like 110 degrees.  Nevertheless, as stated in the
introduction to the Catalogue of Cometary Orbits already in the 1972
edition, I felt it wise to exclude this comet from consideration, and it was
not given a new-style designation when the comet-designation system was
revised at the end of 1994.

What about the comet of 1750? The positional information was also provided
by just a single observer, who saw the comet on three nights in January of
that year. In this case the recorder was the distinguished astronomer and
demographer and secretary of the Royal Swedish Academy of
Sciences, Pehr Wargentin. The observations were made with the naked eye and
two different telescopes, and the comet was also seen by a colleague. Given
that this was in the days before comet hunting became a sport (with comets
named for their discoverers), I have little doubt that the object existed
and discussed it in my paper in the Astronomical Journal in 1973 on the
orbit of the comet associated with the Perseid meteors. Interestingly, the
nodal longitude is also around 300 degrees, and the inclination could be as
low as 120 degrees. The orbit I actually published does in fact bear a
superficial resemblance to some computed from Lowe's 1913 data, although the
published perihelion distance, 0.2 AU, is only half that derived in 1913.
Furthermore--as I actually remarked in my paper--if the 1750 perihelion
distance were as large as 0.4 AU, the argument of perihelion would drop to
240 degrees, which is significantly less than the 280-degree value that best
fits the 1913 data.

Even if one accepts the reality of the 1913 data, there is no reason to
believe that the comet had a period as short as a century or two, and there
is in any case no way to satisfy both apparitions of data with the same
orbit. Given my predilection for the reality of the 1750 comet, one might
wish to consider it a better candidate for the parent of the Coma Berenicid
meteors.  But it does not seem that the orbit of the 1750 comet comes particularly
close to the earth.  Although the date was close to the anticipated previous
perihelion passage of the 1862 parent of the Perseid meteors, Wargentin's
comet was clearly not it. My acceptance instead of Kegler's 1737 comet as "a
far better candidate" and consequent prediction of the late-1992 return was
of course later amply demonstrated.

So while I give Gorelli and McBeath credit for attempting a meteor-comet
association, the least said about the 1913 and the 1750 events, the better.

Regards
Brian

===============
(6) EARTH IS THE MOST LIKELY PLACE FOR LIFE'S ORIGIN IN OUR SOLAR SYSTEM

From Steve Drury <s.a.drury@open.ac.uk>

Benny,

I don't want to make a meal of this, but the most likely place for life to
start up in the Solar System has always been the Earth, because of its
proximity to the Sun and its high content of volatiles, including water. A
cooler Sun in the appropriate period (4500 to 3600 million years ago)
narrows the focus to Earth and possibly Venus even more.  Indeed, for the
pre 3600 million-year Earth, it is necessary to postulate an atmosphere with a strong
"greenhouse" effect for liquid water to exist at the surface (we know from
water transported sediments from Greenland that such conditions did exist
here on a permanent basis at around 3800-4000 million years ago).  The
"cool, young Sun" constraint applies even more stringently for Mars, except
during periods of bombardment.

What seems to be overlooked in the speculation about panspermia and the
possibility of former life on Mars as its source, is that any (as yet
undiscovered)bio-materials shifted from planet to planet by debris from
impacts are a great deal more likely to have come from Earth than anywhere
else.

That is made even more probable by the Earth's greater gravitational cross
section, and its increased likelihood of being bombarded by projectiles of a
suitable size to achieve that.

Since the heaviest terrestrial bombardment took place around 4000 to 3800
Ma, when living processes almost certainly had taken a hold on Earth, that
is the period when such an outward delivery might have taken place.

Steve Drury
Earth Sciences
Open University
UK

================
(7) GRANDE CHALLENGE: A PRAGMATIC APPROACH TO DISASTER PREVENTION &
MANAGEMENT

From Andy Smith <astrosafe@yahoo.com>

Hello Benny and CCNet,

Congratulations on the four successful years of CCNet publication. This well
organized and presented open-forum is helping us...the people of this fine
planet... to rally to our own defense and to discuss and to plan to
successfully meet the Grande Challenge....and it is certainly appropriate
for us to do this.

Our toil to prevent the next impact is as much a test of ourselves, as it is
a test of our technology. We cannot win this ultimate contest unless we are
finally able to work togeather and to share what we know.  We are very
optimistic, here in New Mexico, and we think humanity can pass this great
test.

Early-Warning Progress

We made it. For the first time, the global asteroid/comet hunting community
found one new NEO per
day....and this is the third year of 3-digit NEO discovery. The discoveries
in these three years have more than doubled all of the other NEO finds, in
the last 100 years.

About a third of the discoveries were a kilometer or more, wide. LINEAR
found about 71% of the total. LONEOS was second, with about 10% and
SPACEWATCH was third, with about 7%.

The next goal is to reach the four digit level, annually. The MPC credited
ten sites and teams with the recent discoveries and it would seem this group
could get us to that next level....and they will certainly have help from
several new programs (including the excellent new facility in Japan). Even
at 3,000 NEO discoveries per year, it will take decades to find the 100,000
or so space bombs (bigger than Tunguska) which we need to identify and
track.

We congratulate and thank all who have contributed to the tremendous
progress which has been made, in NEO discovery, and we wish them a great
hunting year.

Defense Progress

Recent developments in asteroid/comet spacecraft design and testing are also
very encouraging
(NEAR/EROS, etc.) and the studies of deflection technology, conducted by the
Russian institutions, are clearly pointing-the-way to the first generation
of interception/deflection systems.

We are strongly encouraging the conduct of all of the engineering studies
needed to permit a rapid emergency deployment (few months or weeks from
alarm-to-launch, instead of years).

International Communications

Thanks to the CCNet, we are starting to have some very productive exchanges
of ideas and information and the content contributions, by Michael Paine and
many others, are helping, tremendously.

We want to encourage efforts to provide translations of CCNet, if possible,
on the Web and we urge both the Spaceguard and Space Shield Foundations to
promote more open dialogue. We also want to encourage the Planetary Society
to continue to promote information exchange.

Civil Emergency Preparedness

We plan to continue to encourage both FEMA and the coastal cities to develop
emergency tsunami evacuation plans and we invite all who want to help to
contact us. The guidelines we are developing include quick exodus public
training, with maps and marked routes. Some planning has started, in the
Pacific, but the Atlantic coastal cities are still largely unprepared. With
help from FEMA, the media and the State and local emergency preparedness
organizations, we might save
millions of lives, with such planning and training.

Governmental Support

We cheer our colleagues, in the United Kingdom, for the progress they made,
last year, in getting this important issue before their government and we
hope a good program will result.

Asteroid Winter (AW) Emergency Food

We are also beginning to look at the kinds of things we could do to feed
ourselves, during an AW. The extinction survivors are the good scavengers.
We are looking at the compounding of synthetic foods, ways to significantly
increase both national and family emergency provisioning - especially with
dried grains and beans and at ways to farm, in low-light and temperature
environments. We invite more dialogue, in this area.

We are also drafting a legislative proposal which is aimed at increasing the
national emergency food reserve, in the U.S., and we are encouraging similar
efforts, in other countries.

Asteroid/Comet and Planetary Defense Sessions for the International Space
Development Conference (ISDC 2001), May 2001 and SPACE 2001, August 2001.

We are still accepting abstracts for SPACE 2001. Both meetings will be
hosted in Albuquerque and both now have good Web pages. Please join us, if
you can. We will also summarize the presentations and discussions, on the
CCNet.`

Cheers

Andy Smith  

============
* ABSTRACTS *
============

(8) FORMATION OF IRON METEORITES

Benedix GK, McCoy TJ, Keil K, Love SG: A petrologic study of the IAB iron
meteorites: Constraints on the formation of the IAB-Winonaite parent body
METEORITICS & PLANETARY SCIENCE 35: (6) 1127-1141 NOV 2000

We studied 26 IAB iron meteorites containing silicate-bearing inclusions to
better constrain the many diverse hypotheses for the formation of this
complex group. These meteorites contain inclusions that fall broadly into
five types: (1) sulfide-rich, composed primarily of troilite and containing
abundant embedded silicates; (2) nonchondritic, silicate-rich, comprised of
basaltic, troctolitic, and peridotitic mineralogies; (3) angular, chondritic
silicate-rich, the most common type, with approximately chondritic
mineralogy and most closely resembling the winonaites in composition and
texture; (4) rounded, often graphite-rich assemblages that sometimes contain
silicates; and (5) phosphate-bearing inclusions with phosphates generally
found in contact with the metallic host. Similarities in mineralogy and
mineral and O-isotopic compositions suggest that IAB iron and winonaite
meteorites are from the same parent body.
We propose a hypothesis for the origin of IAB iron meteorites that combines
some aspects of previous formation models for these meteorites. We suggest
that the precursor parent body was chondritic, although unlike any known
chondrite group. Metamorphism, partial melting,and incomplete
differentiation (i.e., incomplete separation of melt from residue) produced
metallic, sulfide-rich and silicate partial melts (portions of which may
have crystallized prior to the mixing event), as well as metamorphosed
chondritic materials and residues. Catastrophic impact breakup and
reassembly of the debris while near the peak temperature mixed materials
from various depths into the re-accreted parent body. Thus, molten metal
from depth was mixed with near-surface silicate rock, resulting in the
formation of silicate-rich IAB iron and winonaite meteorites. Results of
smoothed particle hydrodynamic model calculations support the feasibility of
such a mixing mechanism. Not all of the metal melt bodies were mixed with
silicate materials during this impact and reaccretion event, and these are
now represented by silicate-free IAB iron meteorites. Ages of silicate
inclusions and winonaites of 4.40-4.54 Ga indicate this entire process
occurred early in solar system history.

Addresses:
Benedix GK, Virginia Tech, Dept Geol Sci, Blacksburg, VA 24061 USA.
Arizona State Univ, Dept Geol, Tempe, AZ 85287 USA.
Smithsonian Inst, Natl Museum Nat Hist, Dept Mineral Sci, Washington, DC
20560 USA.
NASA, Lyndon B Johnson Space Ctr, Houston, TX 77058 USA.
Univ Hawaii Manoa, Sch Ocean & Earth Sci & Technol, Hawaii Inst Geophys &
Planetol, Honolulu, HI 96822 USA.
Hawaii Ctr Volcanol, Honolulu, HI USA.

Copyright 2001 Institute for Scientific Information

==============
(9) ACTIVE REGIONS ON THE SURFACE OF COMET 43P/WOLF-HARRINGTON

Szutowicz S: Active regions on the surface of Comet 43P/Wolf-Harrington
determined from its nongravitational effects
ASTRONOMY AND ASTROPHYSICS 363: (1) 323-334 NOV 2000

The nongravitational perturbations in the motion of the periodic comet
Wolf-Harrington are investigated during its nine observable apparitions in
the period 1924-1998. To explain the irregular variations in the
nongravitational acceleration, two different models are considered and
successfully used to link all the apparitions: a) Model of nucleus with the
activation and deactivation of discrete outgassing sources on the surface;
b) Forced precession model of the spin axis of the nucleus with an activity
described by nonlinear changes of the perihelion shift of the gas production
curve. The first model is represented by two slightly different orbital
solutions in which the northern active region is persistent and the
initiations and disappearances of two southern regions are responsible for
the observed variability of the nongravitational acceleration. Profiles of
the modelled gas production rates are compared with observed light curves of
the comet and used for an estimation of the effective outgassing area and
the activity level of the cometary nucleus. According to all employed models
of the nongravitational acceleration similar shifts of the maximum of the
comet activity with respect to successive perihelion passages over the whole
examined interval of the motion have been detected.
The model parameters describing physical properties of the comet nucleus
such as the nucleus orientation, the localization and the size of the active
regions or the oblateness of the nucleus are derived from numerical fitting
of the models to positional observations of the comet.

Addresses:
Szutowicz S, Polish Acad Sci, Space Res Ctr, Bartycka 18A, PL-01237 Warsaw,
Poland.
Polish Acad Sci, Space Res Ctr, PL-01237 Warsaw, Poland.

Copyright 2001 Institute for Scientific Information

===============
(10) POSITIONAL ERRORS & THE PERTURBED TWO-BODY PROBLEM

Arakida H, Fukushima T: Long-term integration error of Kustaanheimo-Stiefel
regularized orbital motion
ASTRONOMICAL JOURNAL 120: (6) 3333-3339 DEC 2000

We confirm that the positional error of a perturbed two-body problem
expressed in the Kustaanheimo-Stiefel (K-S) variable is proportional to the
fictitious time s, which is the independent variable in the K-S
transformation. This property does not depend on the type of perturbation,
on the integrator used, or on the initial conditions, including the nominal
eccentricity. The error growth of the physical time evolution and the Kepler
energy is proportional to s if the perturbed harmonic oscillator part of the
equation of motion is integrated by a time-symmetric integration formula,
such as the leapfrog or the symmetric multistep method, and is proportional
to s(2) when using traditional integrators, such as the Runge-Kutta, Adams,
Stormer, and extrapolation methods. Also, we discovered that the K-S
regularization avoids the step size resonance/instability of the symmetric
multistep method that appears in the unregularized cases. Therefore, the K-S
regularized equation of motion is useful to investigate the long-term
behavior of perturbed two-body problems, namely, those used for studying the
dynamics of comets, minor planets, the Moon, and other natural and
artificial satellites.

Addresses:
Arakida H, Grad Univ Adv Studies, Dept Astron Sci, 2-21-1 Osawa, Mitaka,
Tokyo 1818588, Japan.
Grad Univ Adv Studies, Dept Astron Sci, Mitaka, Tokyo 1818588, Japan.
Natl Astron Observ, Tokyo 1818588, Japan.

Copyright 2001 Institute for Scientific Information

=================
(11) ASTEROIDAL PROCESSING OF CHONDRITIC MATERIALS

Bland PA, Lee MR, Sexton AS, Franchi IA, Fallick AET, Miller MF, Cadogan JM,
Berry FJ, Pillinger CT: Aqueous alteration without a pronounced
oxygen-isotopic shift: Implications for the asteroidal processing of
chondritic materials
METEORITICS & PLANETARY SCIENCE 35: (6) 1387-1395 NOV 2000

Primitive meteorites exhibit certain features that are consistent with
aqueous and thermal alteration on asteroids, but O-isotopic analyses show
only a modest heavy-isotope shift, interpreted as indicating modification in
the nebula. To understand the isotopic effects of asteroidal alteration, we
take the L-group ordinary chondrites weathered in Antarctica as an analogue.
The data show that alteration is a two-stage process, with an initial phase
producing only a negligible isotopic effect. Although surprising, a possible
explanation is found when we consider the alteration of terrestrial
silicates. Numerous studies report pervasive development of channels a few
to a few tens of nanometer wide in the incipient alteration of silicates. We
observe a similar texture. Alteration involves a restructuring of clay
minerals along these narrow channels, in which access of water is
restricted. The clay shows a topotactic relationship to the primary grain,
which suggests either epitaxial growth of the clay using the silicate as a
substrate or inheritance of the original O structure by the clay. Our data
suggests the latter: with extensive inheritance of structural polymers by
the weathering product, the bulk O-isotopic composition is comparatively
unaffected. This offers an explanation for the lack of an isotopic effect in
the weathering of the L chondrites. If substantial modification of
chondritic materials may occur without a pronounced isotopic effect, it also
reconciles existing O analyses of CV chondrites with an asteroidal model of
aqueous alteration.

Addresses:
Bland PA, Nat Hist Museum, Dept Mineral, Cromwell Rd, London SW7 5BD,
England.
Nat Hist Museum, Dept Mineral, London SW7 5BD, England.
Univ Edinburgh, Dept Geol & Geophys, Edinburgh EH9 3JW, Midlothian,
Scotland.
Open Univ, Planetary Sci Res Inst, Milton Keynes MK7 6AA, Bucks, England.
Scottish Univ Res & Reactor Ctr, Glasgow G75 0QF, Lanark, Scotland.
Univ New S Wales, Sch Phys, Sydney, NSW 2052, Australia.
Open Univ, Dept Chem, Milton Keynes MK7 6AA, Bucks, England.

Copyright 2001 Institute for Scientific Information

================
(12) INTERNATIONAL INSTITUTIONS AND THE MANAGEMENT OF GLOBAL RISKS

Haas PM: International institutions and social learning in the management of
global environmental risks
POLICY STUDIES JOURNAL 28: (3) 558-575 2000

This article investigates the role played by formal international
institutions in the broader process of international efforts to respond to
and manage global and transboundary environmental risks. Because few
international institutions are designed to deal with the broad nature of
environmental risks, it focuses on institutional learning. By analyzing the
experiences of the United Nations Environment Program, World Meteorological
Organization, and other international institutions involved with global
warming, this article identifies institutional properties (or functions)
that encourage or inhibit social learning in the management of global
environmental risks by international institutions, and that influence the
adoption of such lessons by their constituent members.

Addresses:
Haas PM, Univ Massachusetts, Amherst, MA 01003 USA.
Univ Massachusetts, Amherst, MA 01003 USA.

Copyright 2001 Institute for Scientific Information

==============
(13) AND FIMALLY: SPACE RESAERCH SPILLS ZE END FOR DYSLEXIA

From The Scotsman, 12 January 2001
http://www.thescotsman.co.uk/uk.cfm?id=38724&keyword=the

Jennifer Trueland Health Correspondent

DYSLEXIA could be eradicated within a decade for most children using
exercises developed for disorientated spacemen returning to earth, British
experts said yesterday.

A private clinic in Warwickshire has harnessed discoveries made by the US
space administration NASA to help affected children improve their reading
and writing ability.

Initial results of a study into the exercise method are to be presented at a
conference held by the British Dyslexia Association in York in April.

NASA had found that astronauts suffered a kind of temporary dyslexia,
thought to be caused by weightlessness, which disrupts the way the
connections between their brain and actual functions. To help the
astronauts, they developed a balance and measurement machine and exercises
to retrain the eyes to track smoothly and the brain to listen to the body's
balance mechanisms.

The programme is now being pioneered at the Dyslexia, Dyspraxia and
Attention Treatment Centre (DdAT) in Kenilworth, which is funded by Wynford
Dore, whose own daughter, Susie, suffered from dyslexia.

His programme is based on work conducted by Professor Rod Nicholson and
Angela Fawcett at the University of Sheffield which focuses upon the area of
the brain which manages co-ordination.

The British clinic uses one of the 100,000 NASA machines to screen children
with dyslexia and prescribe individual exercise programmes at a cost of
about 475.

According to Mr Dore, the clinic has shown results no one could have dreamt
of, with 97 per cent of children showing significant improvement within
three months.

"I hope that within ten years every child starting school will be screened
and treated so that they can go through school without the stigma and
difficulties they suffer at the moment.

"I think every child who has been through the programme has shown some
improvement and adults too, who have tried it have found an explanation why
they have always found some things difficult. It's like a sigh of relief for
adults and for children it's the chance to ride a bike, catch a ball and do
all the other things that they want to do."

The programmes work on posture, balance and eye control. Exercises include
encouraging children to recite a times table while standing one-legged on a
cushion and throwing a bean bag from one hand to the other at eye level.

A formal research programme to evaluate the technique's success will be
started this month, overseen by Professor David Reynolds of Exeter
University.

He said: "Best-case scenario is that there's a powerful treatment effect
which could live up to the claim that it will eradicate dyslexia within ten
years. But we need the scientific evidence to back the impressionistic
evidence that there appears to be something there."

He said the clinic had already treated more than 90 children.

Copyright 2001, The Scotsman

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