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Leonids

From Wikipedia, the free encyclopedia

The most famous depiction of the 1833 meteor storm actually produced in
1889 for the Adventist book Bible Readings for the Home Circle based on
a first-person account of the 1833 storm by a minister, Joseph Harvey
Waggoner on his way from Florida to New Orleans.

The most famous depiction of the 1833 meteor storm actually produced in
1889 for the Adventist </wiki/Adventist> book /Bible Readings for the
Home Circle/ based on a first-person account of the 1833 storm by a
minister, Joseph Harvey Waggoner on his way from Florida to New Orleans.

The *Leonids* are a prolific meteor shower </wiki/Meteor_shower>
associated with the comet </wiki/Comet> Tempel-Tuttle
</wiki/Comet_Tempel-Tuttle>. The Leonids get their name from the
location of their radiant </wiki/Radiant_%28meteor_shower%29> in the
constellation </wiki/Constellation> Leo </wiki/Leo_%28constellation%29>:
the meteors appear to stream from that point in the sky </wiki/Sky>.

Contents

* 1 Meteor Shower <#Meteor_Shower>
* 2 History <#History>
* 3 See also <#See_also>
* 4 External links <#External_links>

The meteor shower is visible every year around November 17
</wiki/November_17>, plus or minus a week, when the Earth </wiki/Earth>
moves through the meteoroid stream of particles left from the passages
of the comet. The stream comprises solid particles, known as meteoroids
</wiki/Meteoroid>, ejected by the comet as its frozen gases evaporate
under the heat of the Sun </wiki/Sun> which begins to warm the comet as
it comes within the orbit of Jupiter </wiki/Jupiter>. A typical particle
is no bigger than fine dust. The main source of light of a meteor
</wiki/Meteor> is caused by the air molecules ramming the meteoroid,
which fragments and atomizes the dust [1]
<http://www.space.com/scienceastronomy/astronomy/leonids_science_021112.html>,
and the resulting spray of microscopic debris collides with individual
atoms of the atmosphere which then cool by glowing (not by friction as
commonly thought). Larger particles leave a stream of smaller particles
and form a bolide </wiki/Bolide> or fireball </wiki/Fireball>, which can
leave a glowing trail in the atmosphere. Leonids in particular are well
known for having such bright meteors.

The passage of the comet leaves these meteoroid particles distributed in
similar orbits </wiki/Orbits> to the comet itself and the average peak
of activity, when the Earth passes the middle of the loose clouds of
particles, is November 17. In most years the rate
</wiki/Zenithal_Hourly_Rate> at which meteors are likely to be seen is
not great - one meteor every two or more minutes. However, in addition
to the random distribution </wiki/Random_distribution> of particles some
can be shepherded by gravitational and radiation influences and form
some clumping of orbits of the meteoroids. These are not trains of
particles - one lined up behind the other. These are places where the
orbits of particles nearly meet though at other parts of their orbits
they may be far apart. When such a place intersects with the passage of
the Earth a meteor storm results and counts can far exceed both
background levels of meteors (of about one per hour) and of even the
strongest regular meteor shower (of about one per minute.)

[edit </w/index.php?title=Leonids&action=edit&section=2>] History

Woodcut print depicts the shower as seen at Niagara Falls, New York.
Mechanics' Magazine said this illustration was made by an editor named
Pickering "who witnessed the scene." </wiki/Image:Leonids-Pickering.jpg>
</wiki/Image:Leonids-Pickering.jpg>
Woodcut print depicts the shower as seen at Niagara Falls, New York.
/Mechanics' Magazine/ said this illustration was made by an editor named
Pickering "who witnessed the scene."

The Leonids are famous because their meteor showers, or storms, can be,
and have been in a few cases, among the most spectacular. Because of the
superlative storm of 1833 and the recent developments in scientific
thought the Leonids have had a major effect on the development of the
scientific study of meteors which had previously been thought to be
atmospheric phenomena. The meteor storm of 1833 was of truly superlative
strength. One estimate is over one hundred thousand meteors an hour[2]
<http://www.space.com/scienceastronomy/astronomy/leonids_1833_011114.html>,
but another, done as the storm abated, estimated in excess of two
hundred thousand meteors an hour[3]
<http://leonid.arc.nasa.gov/history.html> over the entire region of
North America east of the Rocky Mountains. It was marked by the Native
Americans </wiki/Native_Americans_in_the_United_States>, slaves
</wiki/Slaves> and owners, and many others. It was, in a word,
unignorable. Many thought it was the end of the world.

Other great Leonid storms were seen in 1866 </wiki/1866> and 1867
</wiki/1867>. When the storms failed to return in 1899 </wiki/1899>, it
was generally thought that the dust had moved on and storms were a thing
of the past. Then, in 1966 </wiki/1966> a spectacular storm was seen
over the Americas. Leading up to the 1998 </wiki/1998> return, an
airborne observing campaign was organized to mobilize modern observing
techniques by Peter Jenniskens </wiki/Peter_Jenniskens> at NASA Ames
Research Center. This resulted in spectacular footage from the 1999
</wiki/1999>, 2001 </wiki/2001> and 2002 </wiki/2002> storms. Initially,
the exact location of the dust was unknown. A graph
<http://www.iltrails.org/leokin4.gif> published in Sky and Telescope
</wiki/Sky_and_Telescope> adapted from Comet 55P/Tempel-Tuttle and the
Leonid Meteors
<http://trs-new.jpl.nasa.gov/dspace/bitstream/2014/19339/1/98-0663.pdf>(1996,
see p.6) shows relative positions of the Earth and Comet and marks where
Earth encountered dense dust. This showed basically that the particles
are behind and outside the path of the comet, but paths resulting in
powerful storms were very near paths of nearly no activity. The work of
David Asher </wiki/David_J._Asher>, Armagh Observatory
</wiki/Armagh_Observatory> and Robert H. McNaught
</wiki/Robert_H._McNaught>, Siding Spring Observatory
</wiki/Siding_Spring_Observatory>, and independently that by Esko
Lyytinen of Finland, following on from research by Kondrat'eva, Reznikov
and colleagues at Kazan </wiki/Kazan_University>, is generally
considered the breakthrough in modern analysis of meteor storms. Whereas
previously it was hazardous to guess if there would be a storm or little
activity, the predictions of Asher and McNaught timed bursts in activity
down to five minutes, although the relative brightness of the meteors is
still not understood. The double spikes in Leonid activity in 2001 and
in 2002 were due to the passage of the comet's dust ejected in 1767 and
1866.[4] <http://www.meteorobs.org/lunar.html> The 1833 storm was not
due to the recent passage of the comet, but from a direct hit with the
1800 dust [5] <http://www.arm.ac.uk/leonid/dust1833.html> and the 1966
storm was from the 1899 passage of the comet.[6]
<http://www.arm.ac.uk/leonid/dust1966.html> Examples of other streams
accounting for spikes in activity include the 2004 June Bootids. Peter
Jenniskens </wiki/Peter_Jenniskens> has published predictions for the
next 50 years.^[1] <#_note-0>

However, a close encounter with Jupiter </wiki/Jupiter> is expected to
perturb the comet's path, and many streams, making storms of historic
magnitude unlikely for many decades.

[edit </w/index.php?title=Leonids&action=edit&section=3>] See also

* Meteor showers </wiki/Meteor_shower>
* List of meteor showers </wiki/List_of_meteor_showers>
* Stars Fell on Alabama </wiki/Stars_Fell_on_Alabama>, based on the
1833 Leonid shower

[edit </w/index.php?title=Leonids&action=edit&section=4>] External links

* Leonid History <http://meteorshowersonline.com/leonids.html> by
Gary W. Kronk
* Leonid dust trails <http://www.arm.ac.uk/leonid/dustexpl.html> by
David Asher
* The Great Leonid Meteor Storm of 1833.
<http://science.nasa.gov/newhome/headlines/ast22jun99%5F2.htm> A
first-hand account by Elder Samuel Rogers
* The Discovery of the Perseid Meteors
<http://skytonight.com/observing/objects/meteors/3304116.html?page=1&c=y>
(after the Leonids and) Prior to 1837, nobody realized the
Perseids were an annual event, by Mark Littmann
* The Night the Stars Fell My Search for Amanda Young
<http://www.angelfire.com/ar/freedmen/stars.html> a slave narrative.
* Winter Counts <http://www.native-voice.com/fullstory.cfm?ID=1013>
/The Native Voice/ By Lise Balk King
* Lunar Leonids: Encounters of the Moon with Leonid dust trails
<http://www.spaceweather.com/meteoroutlook/lunarleonids.html> by
Robert H. McNaught
* Brilliant Leonid storm likely fodder for later Lincoln speech
<http://www.chron.com/content/interactive/space/astronomy/news/1999/solarsys/991121.html>
by Jim Vertuno

* NASA: Background facts on meteors and meteor showers
<http://leonid.arc.nasa.gov/meteor.html>
* NASA: Estimate the best viewing times for your part of the world
<http://leonid.arc.nasa.gov/estimator.html>
* Science at NASA: Leonids 2006
<http://science.nasa.gov/headlines/y2006/14nov_leonids.htm?list67038>
* How to hear the Leonid Meteor Shower
<http://www.space.com/spacewatch/061116_leonids_listen.html>

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