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The Quadrantid meteor shower will peak on Friday, January 3, and is a must-see celestial event. The Quadrantids are a notable meteor shower that occurs annually and is one of the best of the year.
Viewing the Quadrantids. Maximum meteor activity is expected to peak between 10 a.m. ET to 1 p.m. ET (15 to 18 Coordinated Universal Time) on January 3, which favors Alaska, Hawaii and far eastern ...
The Quadrantid meteor shower is associated with the near-Earth asteroid (196256) 2003 EH1, with the Earth passing through its trail of debris once a year during its orbit of the Sun.
The Quadrantids (QUA) are a meteor shower that peaks in early January and whose radiant lies in the constellation Boötes.The zenithal hourly rate (ZHR) of this shower can be as high as that of two other reliably rich meteor showers, the Perseids in August and the Geminids in December, [4] yet Quadrantid meteors are not seen as often as those of the two other showers because the time frame of ...
WASHINGTON (AP) — When the Quadrantid meteor shower peaks on Friday, it will be the year's first chance to see fireballs in the sky. A waning crescent moon means good visibility under clear and dark conditions. Most meteor showers are named for the constellations where they appear to originate from in the night sky. But the Quadrantids ...
Peak activity is predicted to occur from 10 p.m. to 1 a.m. EST, during which the Quadrantids can produce about 120 meteors per hour, according to the AMS. Quadrantids, 1st meteor shower of 2025 ...
All-sky view of the 1998 Leonids shower. 156 meteors were captured in this 4-hour image.. In astronomy, the zenithal hourly rate (ZHR) of a meteor shower is the number of meteors a single observer would see in an hour of peak activity if the radiant was at the zenith, assuming the seeing conditions are perfect [1] (when and where stars with apparent magnitudes up to 6.5 are visible to the ...
(196256) 2003 EH 1 is an asteroid, classified as near-Earth object of the Amor group. It was discovered on 6 March 2003, by astronomers of the LONEOS program at Anderson Mesa Station near Flagstaff, Arizona, in the United States. [2] [4] Peter Jenniskens (2003–2004) proposed that it is the parent body of the Quadrantid meteor shower.