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Nov.
14 , 2006: On Sunday, Nov. 19th, Earth will pass
through a stream of debris from comet 55P/Tempel-Tuttle. The
result: a shower of Leonid meteors.
 "We
expect an outburst of more than 100 Leonids per hour,"
says Bill Cooke, the head of NASA's Meteoroid Environment
Office in Huntsville, AL. This pales in comparison to the
Leonid storms of 2001 and 2002, when sky watchers saw thousands
of meteors. Even so, a hundred per hour would make the Leonids
one of the best showers of 2006.
Right:
A Leonid meteor streaks past the Orion Nebula in 2001. Photo
Credit: Mark Brown of Alabama. [More]
The
problem is, you have to be in the right place at the right
time to see them.
Earth's
encounter with the comet dust is going to be brief—"possibly
no more than a few hours long," says Cooke. Forecasters
differ on when the outburst will occur. Estimates range from
0445 UT to 0630 UT on Nov. 19th (11:45 p.m. on Nov. 18th to
1:30 am EST on Nov. 19th). The timing favors western Europe,
Africa, Brazil and eastern parts of North America: map.
Cooke
urges observers to find the darkest possible skies. "These
Leonids are going to be faint." Why? "The stream
contains very small grains of comet dust. Small grains make
faint meteors--it's as simple as that."
The
mid-November region of Earth's orbit is littered with debris
from Comet Tempel-Tuttle. Every time the comet visits the
inner solar system (once every 33 years), it lays down a new
stream of dust, pebbles and rock. This creates a sort of "minefield"
for Earth to navigate every November.
Not
all of these debris streams are alike. For example: "A
Leonid stream we hit in 1998 was full of rock-sized debris.
They made brilliant fireballs when they hit the atmosphere,"
recalls Cooke. "The stream we're hitting this year is
just the opposite. It's mostly fine dust."
Right:
A minefield of Leonid debris streams. The streams intersect
the plot at nearly right angles, so they resemble 2D clouds
rather than 3D filaments. Credit J. Vaubaillon. [More]
 Debris
streams are segregated—dusty vs. rocky—by the force of sunlight.
Consider the stream directly ahead of us: "It was ejected
from the comet in 1933," says Cooke. "At first,
the debris was a mixture of many sizes." But as years
passed, the smaller particles diverged from the larger ones.
Radiation pressure—the delicate pressure of sunlight itself—pushed
the light dust onto a collision course with Earth. Heavier
rock-sized fragments resisted the pressure and lagged behind.
Perhaps
in some future year we'll encounter the larger debris from
1933 and receive an overdue display of fireballs. How would
they get here? "Nudged by Jupiter," suggests Cooke.
Jupiter's gravity is strong enough to alter the course of
heavier fragments. Indeed, by guiding debris toward us, Jupiter
is indirectly responsible for many bright Leonid displays
in the past.
But
this is 2006. So prepare for an outburst of faint
Leonids.
Extra:
Don't believe everything you read. While meteor forecasters
have done a splendid job predicting Leonid outbursts in recent
years—sometimes "nailing the peak within minutes"—they
could be wrong in 2006. The outburst might happen at an unexpected
time or it might be better than expected. Cooke urges enthusiasts
everywhere to keep an eye out for Leonid meteors the nights
of Nov. 17th – 19th. "The best time to look," he
says, "is just before local dawn when the constellation
Leo is high in the sky."
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Author: Dr. Tony
Phillips | Editor:
Dr. Tony Phillips | Credit: Science@NASA
| More
to the story... |
| Leonid
Forecasts: from
David Asher of the Armagh Observatory; from
Jeremie Vaubaillon of the Institut de Mécanique
Céleste.
Where
will the Leonids fall? According to forecasters
David Asher (Armagh Observatory) and Rob McNaught (Australian
National University), this side of Earth will have the
best view:
Note:
The hemisphere on the right is daylit. The hemisphere
on the left is still in darkness.
Leonid
Photo Gallery
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Vision for Space Exploration |
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