Posts Tagged ‘Meteors’

The 2010 Geminids!

Monday, December 13th, 2010

Credit: Wally Pacholka TWAN


WHAT: Geminid Meteor Shower

WHEN: December 13 / 14

WHERE: The Night Sky!

OBSERVING and SHARING:

While Gemini currently rises from the east horizon around 9pm, tonight’s first-quarter moon sets around 1am local time, when Gemini is higher overhead, so best observations will likely be in the hours between 2am and dawn, local time.

Don’t overlook tonight’s first-quarter Moon with Jupiter, earlier in the evening, and all those celestial goodies surrounding Gemini, throughout the night!

If your skies are too cloudy to see the Geminids, you can listen to their radar echoes on Spaceweather Radio!

NASA is hosting an all-night Geminids webchat, from 11pm – 5am EST, where you can have your questions answered by  NASA astronomer Bill Cooke!

Twitter-users are including the #Geminid hashtag to share their observations from around the world.

Photograph tonight’s meteor shower with helpful hints from this article, by Dennis Bodzash.

Collect tonight’s meteor shower with this micrometeorites how-to from Brian Carusella.

Contribute to meteor science with the International Meteor Organization’s electronic visual report form, here, and the American Meteor Society’s fireball reporting form, here.

FUN FACTS:

Meteor showers occur when our planet encounters the debris fields of passing comets.  Much of the debris is dust-sized particles, but some streams can contain larger objects ranging from gravel to small rocks.  Individually, these particles are known as meteoroids.

Most debris fields are ancient, having been left tens and hundreds of years ago, by comets as they near the Sun.  As the material leaves a comet, it falls into orbit as a collective stream or elongated patch.  Some streams can extend for millions of miles.

As Earth moves through a comet’s debris field, those particles (meteoroids) passing through our atmosphere are vaporized, resulting in the bright streaks that we call meteors.

Meteoroids that survive their encounter with our atmosphere, and actually impact the Earth’s surface as a small rock, are known as meteorites.

Meteor showers are named for the constellation from which the meteors appear to emanate, rather than for their physical origins.  That apparent, or visual, origin point is known as the “radiant.”

Observed nearly every December since the late 1800s, the Geminids are named for the constellation Gemini, with their radiant appearing to be just north of Gemini’s two brightest stars, Castor and Pollux.

Although Geminid meteors are slower and exhibit less trails than most other meteors, Geminids put on a fantastic display as one of the more prolific and consistent meteor showers of the year.

Geminids activity has steadily increased through the decades, with plateau peak rates reaching as high as +/-120 in more recent years.  A 2005 analysis of sixty years of observation data suggests the Geminid stream to be about 6,000 years old.

A meteor shower’s physical origin is known as the “parent body” or “progenitor.”  Geminid meteors originate in Earth’s encounter with the debris field of the near-Earth-object, 3200 Phaethon.

The Geminids’ progenitor, 3200 Phaethon, became the first asteroid discovered by a spacecraft, when scientists spotted it in images from the multi-national Infrared Astronomical Satellite (IRAS.)  Those scientists were Simon F Green and John K Davies, and the year was 1983.

3200 Phaethon is categorized as an Apollo class near-Earth-object, as well as a potentially hazardous asteroid (PHA,) with its closest pass missing Earth’s orbit by a mere 2-million miles.

Although most meteor showers do originate from comets, 3200 Phaethon is not a typical comet, nor does it appear to be a usual asteroid.  While some scientists originally thought that Phaethon may be a “dormant” comet, a more recent study proposes an entirely new kind of object – a “rock comet” possibly even born of an impact event with the large main belt asteroid, Pallas.

A better understanding of Phaethon’s peculiar comet/asteroid characteristics and possible Pallas relationship might also help scientists make more learned determinations about other similar peculiar events, such as the recent comet-like coma detected around the asteroid (596) Sheila.

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Posted in asteroids, Citizen Science, Comets, Meteor Showers, Meteorites, NEO, Night Sky, Uncategorized | 1 Comment »

A Sky Full of (Shooting) Stars!

Monday, December 7th, 2009

GeminidMeteorWatch2009Okay, so they aren’t really stars, and they certainly aren’t shooting, but they are just as exciting and they’ll be here next weekend, December 12 – 14!

Of course, “they” are the slow, bright trails of the Geminid meteors, one of the year’s best showers.  Named for the constellation from where they appear, the Geminids is a comparatively new shower that has steadily intensified through the decades.  First reported with less than 20 streaks per hour in 1862, that original peak rate has now grown to a predicted 120-160 per hour this year!

Join A Sky Full of Stars on AFM*Radio, December 13 at 9pm ET (Dec.14, 0200 UTC), for a special audio/visual presentation, When Planets and Particles Collide! We’ll talk about meteors and the mystery of the Geminids; take live call-in updates from the Geminid #MeteorWatch; and explore Astronomy.FM’s #MeteorWatch Central, where observers can watch all-sky cams, experience live telescope imaging, and even listen for meteor pings.

We encourage everyone to participate in next weekend’s meteor shower.  You can follow Twitter for the latest reports and images from around the world; pick up some great backyard meteor-watching tips from Sean Welton’s Universe Today article, here; and keep your eyes on Astronomy.FM for their MeteorWatch Central, to be unveiled next Saturday night.

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Posted in Cosmology, Light Pollution, Meteor Showers, Night Sky, Outreach, Planets, Podcasts/Vidcasts, Twitter | 2 Comments »

Latest on the Leonids!

Monday, November 16th, 2009

Checking the latest data for the Leonids, that shower is expected to peak Tuesday, November 17 at 2150UT, with peak rates of 150-300 streaks per hour.  While this time does favor Asia, a third stream offers the possibility of an earlier, smaller outburst at around 0730UT on November 17 – perfect timing for a Tuesday morning show for east coast U.S. and Canada!

Wherever you are, watch your eastern-facing predawn sky on Tuesday and Wednesday mornings for the fast bright streaks of the Leonids. While you’re watching for meteors, don’t miss two of our brighter planets, Mars and Saturn, coincidentally positioned above and beneath the shower’s radiant! And if you’re on Twitter, be sure to share your observations with a “meteorwatch” or “Leonids” hashtag (#meteorwatch #Leonids)!

Leonids

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Posted in Citizen Science, Earth, Meteor Showers, NEO, Night Sky, Planets | No Comments »

Longing for Leonids

Monday, November 9th, 2009
Leonids1999

1999 Leonids - Credit: Shinsuke Abe and Hajime Yano of the Institute for Space and Astronautical Sciences, Japan

(*Note: It has been brought to my attention, by Daniel Fischer, that the predicted outburst rate of 500zhr, noted herein, has been amended to 200zhr)

Surprisingly, I did not experience my first meteor shower until I was 35 years old.  But, that first shower was the Leonids “storm” of 1999, and it was worth a lifetime of meteor showers.

In 1999, I wasn’t yet involved in astronomy, and having never experienced a meteor shower, I really didn’t know what to expect.  But, I’d heard that an outburst had been predicted, and I was intent on finally experiencing a meteor shower.  So, on the night of November 17, I dawdled around the house until about 3am, then I roused my husband and youngest son from bed and we headed for the safest, darkest spot we could find.

As it happened, we needn’t drive far.  Even as we pulled out of our neighborhood, fast bright meteors were streaking across the sky.  Within minutes, the streaks were so many that we simply pulled over to the side of the road and set-up camp right there, in a small field.

I’ll never forget that night.  It was bitterly cold, but we were properly dressed and had plenty of blankets.  Though no stars were visible through the clouds, hundreds of colorful meteors filled the sky.  Not only could we see them, we heard them fizzing and popping.  It was as though you could reach out and grab them; some even seemed as though they’d strike us.  At one point, my two-year-old son even began to cry, thinking that we were under fire from some angry farmer.  And all up and down that road, late-night drivers were pulling over as the brilliant sky came raining down.

Now it is ten years later, and it looks like we may experience that once-in-a-lifetime event, yet again.  Astronomers from CalTech and NASA are predicting an outburst of 500 streaks per hour, with Asia being favored for the greatest activity.  While this is less than one-quarter the activity of the 1999 event, and half that required for a real “storm”, 500 meteors per hour is intense!

Scientists are basing this year’s prediction on Earth’s movement through the debris field of the periodic comet, 55P/Tempel-Tuttle.  We orbit through this material every year, but this year Earth will pass within 42,000 miles of the center of a particularly rich stream, left by the comet’s pass in 1466, as well as through two additional streams, dating back to 1533 and 1567.  As we move through that expelled material, tiny particles will impact our atmosphere at speeds of 160,000 mph, creating the fiery display of a meteor shower.  It is a fascinating scenario to envision, and even more exciting to witness, as one sits under a dark moon-less sky, counting the bright streaks.

The best time to view most meteor showers is in the early hours before sunrise.  With the Leonids, the streaks will appear to originate from the constellation Leo, near a curved group of stars, known as the “sickle” and representing the mane of the Lion that is Leo.  Although Asia will be best-placed for the main outburst, as Earth moves through that denser 1466 stream at 21:40 GMT on November 17, North and South America should experience significantly-heightened activity when we encounter the 1567 stream some 12 hours earlier, on the morning of the 17th.

Of course, peak nights are not the only time one can enjoy the Leonids, and watching is not the only way to experience them.  Nights immediately preceding and following the 17th should also see notable activity, offering extended viewing and listening opportunities.  You’ll also likely find a number of Leonids-related events in your region and online, or you could even consider hosting your own meteor-watching party to introduce friends and neighbors to the wonders of the night sky!

* Wanna know more about meteor showers?  Check out Space.com’s “Meteors and Meteor Showers: The Science“!

* Source Material: NASAMeteor Showers Online, Society for Popular AstronomySpace.com, Quick Phase Pro, Stellarium

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Posted in asteroids, Citizen Science, Cosmology, Meteor Showers, NEO, Night Sky, Planets, Podcasts/Vidcasts, Uncategorized | 2 Comments »

A Perseids Party!

Wednesday, August 5th, 2009
2007 Perseids Meteor Shower - Cloudbait Observatory

2007 Perseids Meteor Shower - Cloudbait Observatory

Are you ready for some … meteors?!   One of the year’s best meteor showers peaks next week, and some are saying that this year’s event could be even better than usual, possibly even peaking at two-hundred streaks per hour!

Each August, our planet passes through the ancient debris stream of Comet 109P/Swift-Tuttle, resulting in our usual Perseids meteor shower of about one-hundred streaks per peak hour.  This year, Earth will encounter two anomalies with the Swift-Tuttle stream that some scientists believe could result in an especially prolific shower.  The first is a filament shed during the comet’s pass nearly four-hundred years ago – Earth only occasionally meets this filament.  The second is the possibility of a denser-than-usual stream due to Saturn’s gravitational influence.

(more…)

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Posted in Citizen Science, Meteor Showers, Night Sky, Twitter | 12 Comments »