http://arxiv.org/abs/1912.11784
We report a comprehensive analysis of the instrumentally observed meteorite fall \v{Z}\v{d}\’ar nad S\’azavou, which occurred in the Czech Republic on 9 December 2014 at 16:16:45-54 UT. The original meteoroid with an estimated initial mass of 150 kg entered the atmosphere with a speed of 21.89 km/s and began a luminous trajectory at an altitude of 98.06 km. At the maximum, it reached -15.26 absolute magnitude and terminated after an 9.16 s and 170.5 km long flight at an altitude of 24.71 km with a speed of 4.8 km/s. The average slope of the atmospheric trajectory to the Earth’s surface was only 25.66{\deg}. Before its collision with Earth, the initial meteoroid orbited the Sun on a moderately eccentric orbit with perihelion near Venus orbit, aphelion in the outer main belt, and low inclination. During the atmospheric entry, the meteoroid severely fragmented at a very low dynamic pressure 0.016 MPa and further multiple fragmentations occurred at 1.4 – 2.5 MPa. Based on our analysis, so far three small meteorites classified as L3.9 ordinary chondrites totaling 87 g have been found almost exactly in the locations predicted for a given mass. Because of very high quality of photographic and radiometric records, taken by the dedicated instruments of the Czech part of the European Fireball Network, \v{Z}\v{d}\’ar nad S\’azavou belongs to the most reliably, accurately, and thoroughly described meteorite falls in history.
P. Spurný, J. Borovička and L. Shrbený
Mon, 30 Dec 19
1/51
Comments: 35 pages, 23 figures, 4 tables. Accepted to Meteoritics and Planetary Science, December 13, 2019
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