Article ID Journal Published Year Pages File Type
8142575 Planetary and Space Science 2017 40 Pages PDF
Abstract
The extraordinary Chelyabinsk airburst of 15 February 2013 is considered in the frame of quasi-liquid model (QL model), in which the entering body is treated as a strengthless quasi-liquid object, and its deformation and the flow are described by the hydrodynamic equations. Despite the QL model was originally proposed to model the impacts of the cosmic objects, which size is larger than a few tens of meters, the model predicts overpressure and radiation distributions on the ground in reasonable agreement with observational data for Chelyabinsk event. This model can be used for assessment of impact hazards for the whole range of dangerous cosmic objects. The influence of entry angle on surface effects is considered.
Related Topics
Physical Sciences and Engineering Earth and Planetary Sciences Geophysics
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