A picture of a Geminid fireball exploding over the Mojave Desert in California. The Geminid meteor shower makes its annual appearance in mid December, and this year's is unusually spectacular with more than 100 meteors streaking through the night sky every hour.
Try to get as far from city lights as possible on August 11 and you will be able to see meteor showers in the sky.
The Perseid meteors should put on the peak of their yearly display late this Saturday night and early Sunday morning (August 11-12, 2012).
“December’s Geminids often outperform them by a bit,” said Alan MacRobert, a senior editor of Sky and Telescope magazine, “but the Perseids are probably the most-watched meteor shower, because they come in the warm vacation season.
Like all meteor showers, the Perseids are named for the constellation from which they appear to radiate.
Perseus will hang low in the northeast early on the night of the 11th. The shower will really get under way after 11 or midnight local time, predicts Sky and Telescope, when from a dark site you may spot one or perhaps two Perseids a minute on average.
The rate should increase as Perseus gains altitude in the early hours of the 12th. A thick waning crescent Moon will rise around 1 or 2 a.m., “but its glare at this phase won’t be a big problem,” said MacRobert.
Though the Perseids are named for Perseus, the constellation has nothing to do with where the meteors were born. Most meteors come from comets shedding dust and debris as they travel through our region of the solar system. We see a shower when Earth, in its annual travels around the Sun, passes through a meteoroid stream strung along a comet’s orbit. It’s only from this perspective that we see the Perseids appearing to come from Perseus.
And that’s only if you trace their paths backward far enough across the sky. The meteors can flash into view anywhere in the sky as long as Perseus is above the horizon.
“So,” said MacRobert, “the best part the sky to watch is wherever is darkest, probably straight up.”
The Perseids are pieces of Periodic Comet Swift-Tuttle. As Earth passes near the comet’s orbit, tiny chunks of debris -- mostly the size of grains of sand, but some as large as peas or bigger -- enter the atmosphere at 60 kilometers per second (134,000 mph).
Starting at an altitude of about 100 km (60 miles), a meteoroid compresses the air in front of it like water before a speedboat, creating a white-hot shock wave. This is what you mostly see -- not the little bit of debris itself.
Meteors that come from comets are more like dust clumps than rocks. Even big ones are too fragile to make it down to the ground as meteorites -- unlike pieces of rock and iron, which come from asteroids.
Earth passed closest to Comet Swift-Tuttle in 1992, and the Perseids put on particularly spectacular displays during the years around then. The shower has since returned to normal.
The comet won’t approach so close again until around 2125, but that doesn’t mean this year’s Perseids won’t be worth finding your own patch of dark sky.
And don’t drag out your telescopes or binoculars; they restrict your field of view too much for meteor-watching.
“For this,” said MacRobert, “your unaided eyes work best.”