Search results
Results from the WOW.Com Content Network
The Taurids are an annual meteor shower, associated with the comet Encke.The Taurids are actually two separate showers, with a Southern and a Northern component. The Southern Taurids originated from Comet Encke, while the Northern Taurids originated from the asteroid 2004 TG 10, possibly a large fragment of Encke due to its similar orbital parameters.
Unlike most meteor showers, the Quadrantid meteor shower doesn't originate from a comet, but from an asteroid. For many years, the origin of the Quadrantids remained unknown. Though the ...
The Leonid meteor shower peaks around 17 November of each year. The Leonid shower produces a meteor storm, peaking at rates of thousands of meteors per hour. Leonid storms gave birth to the term meteor shower when it was first realised that, during the November 1833 storm, the meteors radiated from near the star Gamma Leonis. The last Leonid ...
This list of meteor streams and peak activity times is based on data from the International Meteor Organization while most of the parent body associations are from Gary W. Kronk book, Meteor Showers: A Descriptive Catalog, Enslow Publishers, New Jersey, ISBN 0-89490-071-4, and from Peter Jenniskens's book, "Meteor Showers and Their Parent ...
The Geminid meteor shower peak is a week away, but this year it might be a good idea to keep an eye out early, according to NASA. Dedicated skywatchers might want to check the sky not only in the ...
The Leonid meteor shower will see up to 15 meteors shoot across the sky every hour, according to Nasa, with each space rock reaching speeds of up to 71 kilometres per second (44 miles per second).
The new year will kick off with the Quadrantid meteor shower, which is set to peak early on Friday. The Quadrantids have the potential of 200 meteors an hour under perfect conditions, but most ...
The Perseids are a prolific meteor shower associated with the comet Swift–Tuttle that are usually visible from mid-July to late-August.The meteors are called the Perseids because they appear from the general direction of the constellation Perseus and in more modern times have a radiant bordering on Cassiopeia and Camelopardalis.