Orionids
| Orionids (ORI) | |
|---|---|
An Orionid meteor (center right) streaking across the sky below the Milky Way and to the right of Venus. The zodiacal light can also be seen in the image.
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| Discovery date | October 1839[1] |
| Parent body | 1P/Halley[2] |
| Radiant | |
| Constellation | Orion (near Betelgeuse) |
| Right ascension | 06h 24m[2] |
| Declination | +15°[2] |
| Properties | |
| Occurs during | October 16 – October 27[2] |
| Date of peak | October 21[2] |
| Velocity | 66.9[3] km/s |
| Zenithal hourly rate | typically 20–25[4] |
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The Orionid meteor shower, usually shortened to the Orionids, is the most prolific meteor shower associated with Halley's Comet. The Orionids are so-called because the point they appear to come from, called the radiant, lies in the constellation Orion, but they can be seen over a large area of the sky. Orionids are an annual meteor shower which last approximately one week in late October. In some years, meteors may occur at rates of 50–70 per hour.[5][6]
History
Meteor showers first designated "shooting stars" were connected to comets in the 1800s.[7] E.C. Herrick made an observation in 1839 and 1840 about the activity present in the October night skies. A. S. Herschel produced the first documented record that gave accurate forecasts for the next meteor shower.[8] The Orionid meteor shower is produced by the well known Halley's Comet, which was named after the astronomer Edmund Halley and last passed through the inner solar system in 1986 on its 75- to 76-year orbit.[9] When the comet passes through the solar system, the sun sublimates some of the ice, allowing rock particles to break away from the comet. These particles continue on the comet's trajectory and appear as meteors ("falling stars") when they pass through Earth's upper atmosphere.[7][10] Halley's comet is also responsible for creating the Eta Aquariids, which occur each May.[10]
| Year | Activity Date Range | Peak Date | ZHRmax |
|---|---|---|---|
| 1839 | October 8–15[8] | ||
| 1864 | October 18–20[8] | ||
| 1981 | October 18–21[8] | October 23 | 20 |
| 1984 | October 21–24[8] | October 21–24 | (flat maximum) |
| 2006 | October 2 — November 7[8][11] | October 21–24[11][12] | 23 with peaks at 67 |
| 2007 | October 20–24[13] | October 21 (predicted)[13] | 70[14] |
| 2008 | October 15–29[10] | October 20–22 (predicted)[10] | 39 |
| 2009 | October 18–25 [8] | October 22[15][16][17] | 45[18] |
| 2010 | October 23 | 38 | |
| 2011 | October 22 | 33 | |
| 2012 | October 2 — November 7 | October 20 and October 23 | 43[19] |
| 2013 | October 22 | ~30[20] | |
| 2014 | October 2 — November 7 | October 21 | 20?[21] |
| 2015 | October 2 — November 7 | October 20-21[22] | N/A |
* This meteor shower may give double peaks as well as plateaus, and time periods of flat maxima lasting several days.[8]
Meteor shower and location
The radiant of the Orionids is located between the constellations Orion and Gemini (in the south-eastern sky before dawn, as viewed from mid-northern latitudes.[23][24] The most active time of the meteor shower was stated by Telegraph.uk.co to be in the early morning of October 21, 2009 6 a.m. Eastern Standard Time in the United States or 11 a.m. in the United Kingdom. Tweets and user news articles were shared on Social networking and micro-blogging services such as Twitter and Yahoo! Buzz. Photos and videos of the event were posted on photo and video sharing websites such as YouTube and Flickr.[25] Universe Today reported that the meteor shower arrived at 140,000 miles (230,000 km) per hour on the morning of the 21 when showing was predicted to be at its height, however compared to previous showers in years past, the trail of 2009 appeared narrower without branching out.[26] Cooke, found that the originating points of 30 meteors were from within a very small area of the Orion constellation even though observers observing the small meteor "Halleyids" at Alabama's Space Flight Center saw streaks radiating in all directions with the naked eye.[27]
Gallery
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An Orionid near the center.
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A fish-eye view.
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Two Orionids and the Milky Way.
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A multicolored Orionid.
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An Orionid to the left.
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The brightest meteor, a fireball, leaves a persistent smoky trail drifting in high-altitude winds, which is seen on the right side of the image.
.JPG)
See also
References
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- ↑ Orionids 2007: visual data quicklook
- ↑ Orionids 2009
- ↑ Lua error in package.lua at line 80: module 'strict' not found.
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- ↑ Orionids 2009: visual data quicklook
- ↑ Orionids 2012: visual data quicklook
- ↑ Lua error in package.lua at line 80: module 'strict' not found.
- ↑ http://www.imo.net/calendar/2014#ori
- ↑ http://www.timeanddate.com/astronomy/meteor-shower/orionid.html
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- ↑ Lua error in package.lua at line 80: module 'strict' not found.[dead link]
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External links
- Worldwide viewing times for the 2016 Orionids meteor shower
- Orionids Peak This Weekend (Carl Hergenrother : 2012 Oct 20)
- Orionids 2012: visual data quicklook (International Meteor Organization)
- Spaceweather.com: 2009 Orionid Meteor Shower photo gallery: Page 1
- realclearwx.com: 2009 Orionid Meteor Shower Photos and Video
- Orionids at Constellation Guide
