Alan MacRobert, Senior Editor, Sky & Telescope
855-638-5388 x2151, amacrobert@SkyandTelescope.com
Tony Flanders, Associate Editor, Sky & Telescope
855-638-5388 x2173, tflanders@SkyandTelescope.com
If it’s clear late Monday night, December 13th, 2010, keep a lookout high overhead for the shooting stars of the Geminid meteor shower. “The Geminids are usually one of the two best meteor showers of the year,” says Robert Naeye, editor in chief of Sky & Telescope magazine. “They may beat out the Perseids of August.”
Under a clear, dark sky, you may see one or two shooting stars per minute from about 11 p.m. local time Monday until dawn Tuesday morning. If you live under the artificial skyglow of light pollution the numbers will be less, but the brightest meteors will still shine through.
Lower counts of Geminid meteors should be visible earlier that evening, but the first-quarter Moon will brighten the sky somewhat. The Moon sets around midnight or 1 a.m. local time. A few Geminids should also flash into view on the nights of December 11, 12, and 14.
To watch for meteors, you need no equipment other than your eyes. Find a dark spot with an open view of the sky and no glary lights nearby. Bundle up as warmly as you can in many layers. “Go out late in the evening, lie back, and gaze up into the stars,” says Sky & Telescope senior editor Alan MacRobert. “Relax, be patient, and let your eyes adapt to the dark. The best direction to watch is wherever your sky is darkest, probably straight up.”
Geminids can appear anywhere in the sky. Small ones appear as tiny, quick streaks. Occasional brighter ones may sail across the heavens for several seconds and leave a brief train of glowing smoke.
If you trace each meteor’s direction of flight backward far enough across the sky, you’ll find that this imaginary line crosses a spot in the constellation Gemini near the stars Castor and Pollux. Gemini is in the eastern sky during evening and high overhead in the hours after midnight (for skywatchers at north temperate latitudes). This special spot is called the shower’s radiant. It’s the perspective point from which all the Geminids would appear to come if you could see them approaching from the far distance, rather than just in the last second or so of their lives as they dive into Earth’s upper atmosphere.
Click here for more about meteors and meteor watching.
Click here for a general-interest article about this year’s Geminids.
More about the Geminid Meteoroids
The Geminid meteors are created by tiny bits of rocky debris (the size of sand grains to peas) shed from a small asteroid named 3200 Phaethon. Over the centuries these bits have spread all along the asteroid’s orbit to form a sparse, moving “river of rubble” hundreds of millions of miles long. Earth’s annual orbit around the Sun carries us through this stream of particles every mid-December.
The particles are traveling 22 miles per second with respect to Earth at the place in space where we encounter them. So when one of them strikes Earth’s upper atmosphere (about 50 to 80 miles up), air friction vaporizes it in a quick, white-hot streak.
More about Light Pollution
Light pollution in the sky doesn’t interfere just with meteor watching. It’s the bane of everyone from backyard nature lovers to professional deep-space researchers. But most light pollution is unnecessary. It results from wasted light beamed uselessly sideways or upwards from all of the poorly designed and improperly aimed outdoor light fixtures for many miles around.
This waste can be prevented by installing modern “fully shielded” fixtures, and by aiming fixtures at the ground where the light is wanted. These simple steps not only reduce light pollution in the sky but allow great savings of electricity. Says Sky & Telescope’s Robert Naeye, “If 100% of a bulb’s light is directed where it’s wanted, instead of only 50%, a bulb with half the wattage does the same job.”