PLEASE NOTE:
*
Date sent: Mon, 19 Jan
1998 15:12:03 -0500 (EST)
From:
Benny J Peiser B.J.PEISER@livjm.ac.uk
Subject:
Re: IS THE COLORADO BOLIDE A FRAGMENT OF HALE-BOPP?
To:
cambridge-conference@livjm.ac.uk
Priority: NORMAL
SCEPTICISM ABOUT COLORADO HALE-BOPPIDS
From: Graeme Waddington wgw@bioch.ox.ac.uk
Re. IS THE COLORADO BOLIDE A FRAGMENT OF HALE-BOPP?
Quite apart from the fact that I would not expect any
Hale-Boppids at
the current epoch (see my note in "The
Astronomer's" Hale-Bopp
Handbook) the cited article at
http://www.denverpost.com:80/news/news1941.htm
specifically mentions a west-to-east track of the observed
object. This
would appear to rule out any connection with Hale-Bopp since the
radiant of
any putative Hale-Boppids is in the same area of sky as that of
the
Quandrantids and at the time of observation would have been north
of east in
the sky.
Graeme Waddington
MRC Magnetic Resonance Spectroscopy Unit
John Radcliffe Hospital
Oxford
*
Date sent: Mon, 19 Jan
1998 09:13:19 -0500 (EST)
From:
Benny J Peiser B.J.PEISER@livjm.ac.uk
Subject:
CC-DIGEST, 19/01/98
To:
cambridge-conference@livjm.ac.uk
Priority: NORMAL
CAMBRIDGE-CONFERENCE DIGEST, 19 January
---------------------------------------
(1) BOLIDE EXPLODES OVER DENVER, COLORADO, AND POSSIBLY LEAVES
FRAGMENTS
(2) IS THE COLORADO BOLIDE A FRAGMENT OF HALE-BOPP?
(3) WHAT IS THE PHYSICAL NATURE OF ASTEROID 253 MATHILDE?
(4) ASTRONOMY GETS FLESHY: LOOKING OUT FOR EROS
(5) THE CURRENT STATE OF RESEARCH ON THE DECEMBER 9TH GREENLAND EVENT
====================================================================
(1) BOLIDE EXPLODES OVER DENVER, COLORADO AND POSSIBLY LEAVES
FRAGMENTS
From: Phil Burns pib@nwu.edu
A bright bolide exploded over Denver, Colorado last Sunday
evening
(January 12, 1998) according to an article published in the
Denver
Post.
http://www.denverpost.com:80/news/news1914.htm
A teenager says he has located fragments of the bolide in the
Hampden Memorial Gardens cemetery in Denver, Colorado. He
claims
he saw a baseball sized object crash and fragment in the cemetery
around the same time as the bolide exploded. He reports the
fragments were "still glowing bright orange like coals"
shortly after
the impact.
http://InsideDenver.com/extra/space/0113mete.html
Jack Murphy, curator of geology at the Denver Museum of
Natural
History, has been looking at samples collected from the
cemetery. No
word yet as far as I can tell about their composition. It
will be
interesting to see if the fragments turn out to be meteoric or
not.
========================================================================
From: Phil Burns pib@nwu.edu
(2) IS THE COLORADO BOLIDE A FRAGMENT OF HALE-BOPP?
Bob Stencel of the University of Colorado suggests that the
eastern
Colorado bolide of January 11 may have been a fragment of comet
Hale-Bopp. Details may be found in a story published in The
Denver
Post at:
http://www.denverpost.com:80/news/news1941.htm
=========================================================================
(3) WHAT IS THE PHYSICAL NATURE OF ASTEROID 253 MATHILDE?
From: Don Yeomans Donald.K.Yeomans@ccmail.Jpl.Nasa.Gov
Dear Dr. Peiser,
Thank you for including me on your Cambridge Conference
e-mailing
list. The news notes that you issue are timely, informative, and
I'll
look forward to receiving them in the future. With regard to the
nature and density of asteroids, I'd guess that asteroid
densities
cover the range from solid iron to rubble piles and extremely
fragile
dust clumps.
I'd like to draw your attention to the two companion articles
in the
Dec. 19, 1997 issue of Science magazine concerning the NEAR
spacecraft's flyby of asteroid 253 Mathilde (Science, vol.278,
pp.2106-2109, pp. 2109-2114). Based upon the imaging data during
the
encounter, the asteroid's volume was estimated to be 78,000 km**3
to
about 15% (Veverka et al.) while the asteroid's mass was
determined
to within about 5% to be 1.033 x 10**20 grams (Yeomans et al.).
Thus
the asteroid's bulk density is 1.3 g/cm**3. According to
Veverka et
al., the asteroid's albedo and colors are similar to CM
chondrites.
If Mathilde is composed of similar material, its porosity would
be
more than 50% and either it formed as a loosely bound collection
of
fragments or it has evolved into a rubble pile of material as a
result of repeated impacts by other asteroids.
With kind regards,
Don Yeomans - JPL
======================================================================
(4) ASTRONOMY GETS FLESHY: LOOKING OUT FOR EROS
From: Ron Baalke BAALKE@kelvin.jpl.nasa.gov
John Hopkins Univerity Applied Physics Laboratory Press
Release
15 January 1998
FOR IMMEDIATE RELEASE
EARTH SWINGBY PUTS NEAR SPACECRAFT ON FINAL APPROACH TO EROS
NASA's Near Earth Asteroid Rendezvous (NEAR) spacecraft, built
by The
Johns Hopkins University Applied Physics Laboratory (APL) in
Laurel,
Md., will become the first interplanetary spacecraft to be seen
with
the naked eye when it swings by Earth Jan. 22-23. The
spacecraft's
solar panels will reflect the sun's rays onto the Earth in a
greeting
as it flies by for an adjustment of its trajectory to correctly
align
the spacecraft for a rendezvous with asteroid 433 Eros, its
mission
target.
Launched Feb. 17, 1996, NEAR completed a flyby of the asteroid
Mathilde in June 1997 and is now on its way back to Earth. Late
Thursday, Jan. 22, the spacecraft approaches Earth over the
Pacific
Ocean traveling at about 20,000 mph. Because the United States
will
be in darkness as NEAR approaches, if there is no cloud cover,
several geographic areas will be able to see the sun reflecting
off
the spacecraft's solar panels, which will act as large mirrors.
These
sunglints will be visible on the East Coast, Friday, Jan. 23, at
about 1:30 a.m. EST and the West Coast at about 1:45 a.m. EST
(Thursday, 10:45 p.m. PST). (See below for more details.)
The spacecraft then swings around the Aleutian Islands and
over
Siberia before reaching its closest point to Earth, about 336
miles
above Ahvaz in southwest Iran, Friday, Jan. 23, at 11:23 a.m.,
local
time (2:23 a.m. EST), traveling at about 29,000 mph-its fastest
speed
for the swingby. Although NEAR will be close to Earth at this
time,
daylight may obscure its image.
The spacecraft then swings over Africa and on to Antarctica
before
pulling away from the Earth at a speed of about 15,000 mph. The
swingby will have changed NEAR's trajectory to approximately 11
degrees south of the Earth's ecliptic plane, the orbital path the
Earth takes as it circles the sun, and put the spacecraft on
target
for its Jan. 10, 1999, rendezvous with Eros.
NEAR scientists and engineers are using the swingby as an
opportunity
to test performance and calibration of the spacecraft's six
instruments and to practice coordinated multi-instrument
observations
of the type that will be used at Eros. The spacecraft's Laser
Rangefinder will be used to conduct a two-way laser link with the
Goddard Geophysical and Astrophysical Observatory, operated by
the
NASA Goddard Space Flight Center in Greenbelt, Md. Weather
permitting, the laser test will take place between Jan. 15-19.
If successful, this will be the first-ever two-way (ground to
space
and back again) laser link to an interplanetary spacecraft.
The Multispectral Imager, a visible light camera that will
help
determine the physical characteristics of Eros, and the
NEAR-Infrared
Spectrograph, used to study surface minerals, will be calibrated
by
comparing their readings of geological features with proven
measurements of the same areas.
These instruments will also be used to take images of the
Earth along
the spacecraft's path. The images will be combined to produce a
movie
from a series of images taken over Asia, Africa, and Antarctica,
which will be released several weeks after the swingby. NEAR's
Magnetometer will be calibrated by comparing swingby data with
known
measurements of the Earth's magnetic field.
Other activities during the swingby will include using the
X-Ray/Gamma-Ray Spectrometer to observe celestial gamma ray
bursts
and to collect data on gamma ray and x-ray backgrounds. These
data
are needed so scientists can better remove background impurities
from
the measurements to be made at Eros.
NEAR is expected to capture its first images of Eros, a
25-mile-long
near-Earth asteroid, a few months prior to the 100th anniversary
of
the asteroid's discovery on Aug. 13, 1898. After reaching Eros a
year
from now the spacecraft will start its orbit about 600 miles
above
the asteroid's surface, descending to 200 miles by February and
coming as close as 10 miles during its yearlong study. Scientists
will thoroughly map Eros and will examine its surface composition
and
physical properties. On Feb. 6, 2000, the mission is expected to
end
with a controlled descent onto the asteroid, sending dozens of
high-resolution pictures as it closes in on Eros.
The NEAR mission will be the first close-up study of an
asteroid.
APL, the first non-NASA center to conduct a NASA planetary
mission,
is managing the mission for NASA's Office of Space Science.
For more information contact Helen Worth, JHU/APL Office of
Public
Affairs.
Phone: (301) 953-5113; e-mail: Helen.Worth@jhuapl.edu; or fax:
(301)
953-6123, or visit the APL NEAR Web page:
http://sd-www.jhuapl.edu/NEAR/
B-roll animation of NEAR's Earth swingby and animation photos
are
available. See Web page for images.
========================================================================
(5)
THE CURRENT STATE OF RESEARCH ON THE DECEMBER 9TH GREENLAND EVENT
From: Patrick Helminger phelming@pop2.restena.lu
A good summary of the state of research on the Dec. 9, 1997
Greenland
event is available at:
http://www.astro.ku.dk/~holger/meteor/TR980112.html
Greetings, Pat