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      Dropping the Ball: The effect of anisotropic granular materials on ejecta and impact crater shape

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          Abstract

          In this fluid dynamics video, we present an experimental investigation of the shape of impact craters in granular materials. Complex crater shapes, including polygons, have been observed in many terrestrial planets as well as moons and asteroids. We release spherical projectiles from different heights above a granular bed (sand). The experiments demonstrate two different techniques to create non-circular impact craters, which we measure by digitizing the final crater topography. In the first method, we create trenches in the sand to mimic fault lines or valleys on a planetary target. During impact, ejecta move faster in the direction of the trenches, creating nearly elliptical craters with the major axis running parallel to the trench. Larger trenches lead to more oblong craters. In the second method, a hose beneath the surface of the sand injects nitrogen gas. The pressure of the gas counters the hydrostatic pressure of the sand, greatly reducing static friction between grains above the injection point, without disturbing the surface. The affected sand has lower resistance to impact, creating a knob in the otherwise circular crater rim.

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          Polygonal impact craters in the solar system: Observations and implications

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            Author and article information

            Journal
            11 October 2013
            Article
            1310.3290
            0be72edc-d938-4ca5-8edf-f0d7416acae3

            http://arxiv.org/licenses/nonexclusive-distrib/1.0/

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            Custom metadata
            Two videos for submission in the 2013 Gallery of Fluid Motion at the 66th Annual Meeting of the APS Division of Fluid Dynamics
            physics.flu-dyn

            Thermal physics & Statistical mechanics
            Thermal physics & Statistical mechanics

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