The Leonids are one of the many annual meteor showers. The name comes from how they appear to emerge from the constellation Leo- the term for their apparent point of origin is the Radiant .The Leonids tend to be brighter than average meteors and they are also very fast by meteor standards. They enter EarthòÀÙs atmosphere traveling at speeds of over 253 000 km/h (158 000 mph). In contrast the Stardust capsule, the fastest vehicle ever to re-enter the EarthòÀÙs atmosphere, returned at a snail-like 46 440 km/h.
The Leonids we will see in our skies began their one-way trip to Earth in a dim comet called Tempel-Tuttle (named for its discoverers- Ernst Tempel was an especially prominent comet hunter). The comet was discovered 140 years ago and returns every 33 years. Comets have been traditionally described as òÀØdirty snowballsòÀÙ as they have surfaces rich in frozen water and dusty grit- though results from NASAòÀÙs Deep Impact probeòÀÙs visit to Comet Tempel 1 (another found by Ernst Tempel) suggest the proportions of the ingredients are different from those expected. Perhaps we will have to start to call them òÀØsnowy dirtballsòÀÙ instead. Whatever the exact details, the SunòÀÙs heat releases the dust and grit from the cometòÀÙs surface which ends up spread along the cometòÀÙs orbit. The orbits of the comet and the Earth intersect and every so often, at regular intervals, the Earth ploughs into the oncoming dust, resulting in a shower of meteors.
Every 17-19 November Earth crosses Tempel-TuttleòÀÙs orbit and the Leonids become visible. With clear, dark skies observers may see 10 to 15 Leonid meteors every hour on those mornings. The rate of meteors observed is called the Zenith Hourly Rate, so this is a ZHR of 10-15. You should start watching sometime after about 11:30 pm (1130 UT). Leo will be in the eastern sky.
The density of the material of the trail is not uniform, and tends to be replenished after the comet has been through one of its periodic solar warmings. Occasionally the Earth passes through a thicker than average patch. Then we are treated to an even more spectacular display, a meteor storm. In 196, observers saw thousands of Leonids fall every hour. Almost as remarkable shows have ˆàhappened recently; displays of 250-300 per hour were observed in 1998, an astonishing 3700 per hour occurred in 1999, and 480 per hour occurred in 2000. To see this spectacle you will need to be watching from a dark site with minimal light pollution (note the waning MoonòÀÙs light will make observing difficult this year), if you are fortunate enough to know of such a place, why not have a go at observing? You might just be in for a stunning natural fireworks display!
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