A steel ball impacting on a bed of very loose, fine sand results in a surprisingly vigorous jet which shoots up from the surface of the sand [D. Lohse et al., Phys. Rev. Lett. 93, 198003 (2004)]. When the ambient pressure p is reduced, the jet is found to be less vigorous [R. Royer et al., Nature Phys. 1, 164 (2005)]. In this Letter we show that p also affects the rate of penetration of the ball: Higher pressure increases the rate of penetration, which makes the cavity created by the ball close deeper into the sand bed, where the hydrostatic pressure is stronger, thereby producing a more energetic collapse and jetting. The origin of the deeper penetration under normal ambient pressure is found to lie in the extra sand fluidization caused by...
The radius of the steel ball is 1.25cm, the falling height 2.5 m. For more information, see: Lohs...
The impingement of high-velocity water jets on unlined plunge pools causes scour on the rock foundat...
The presence of ambient air in liquid-slamming events plays a crucial role in influencing the shape ...
A steel ball impacting on a bed of very loose, fine sand results in a surprisingly vigorous jet whic...
When a heavy sphere is dropped onto a bed of loose, fine sand, a remarkable phenomenon occurs: a lar...
Very fine sand is prepared in a well-defined and fully decompactified state by letting gas bubble th...
When an object is dropped into a bed of fine, loosely packed sand, a surprisingly energetic jet shoo...
Sand is a granular material, and therefore it consists of individual grains arranged in a packing. T...
When a solid sphere impacts on a granular bed, a high-speed vertical jet can arise following the col...
When a ball is dropped in fine very loose sand, a splash and subsequently a jet are observed above t...
A lot of information on impacts of solid bodies on planets has been extracted from remote observatio...
When a solid sphere impacts on a deep layer of granular medium, it generates an ejecta sheet and a t...
The impact of an object on a granular solid is an ubiquitous phenomenon in nature, the scale of whic...
A prefluidized sand bed consisting of fine particles compactifies when it is subjected to a shock. W...
When a 6-mm layer of fine sand with an average grain size of 40 µm is poured into a cylindrical cont...
The radius of the steel ball is 1.25cm, the falling height 2.5 m. For more information, see: Lohs...
The impingement of high-velocity water jets on unlined plunge pools causes scour on the rock foundat...
The presence of ambient air in liquid-slamming events plays a crucial role in influencing the shape ...
A steel ball impacting on a bed of very loose, fine sand results in a surprisingly vigorous jet whic...
When a heavy sphere is dropped onto a bed of loose, fine sand, a remarkable phenomenon occurs: a lar...
Very fine sand is prepared in a well-defined and fully decompactified state by letting gas bubble th...
When an object is dropped into a bed of fine, loosely packed sand, a surprisingly energetic jet shoo...
Sand is a granular material, and therefore it consists of individual grains arranged in a packing. T...
When a solid sphere impacts on a granular bed, a high-speed vertical jet can arise following the col...
When a ball is dropped in fine very loose sand, a splash and subsequently a jet are observed above t...
A lot of information on impacts of solid bodies on planets has been extracted from remote observatio...
When a solid sphere impacts on a deep layer of granular medium, it generates an ejecta sheet and a t...
The impact of an object on a granular solid is an ubiquitous phenomenon in nature, the scale of whic...
A prefluidized sand bed consisting of fine particles compactifies when it is subjected to a shock. W...
When a 6-mm layer of fine sand with an average grain size of 40 µm is poured into a cylindrical cont...
The radius of the steel ball is 1.25cm, the falling height 2.5 m. For more information, see: Lohs...
The impingement of high-velocity water jets on unlined plunge pools causes scour on the rock foundat...
The presence of ambient air in liquid-slamming events plays a crucial role in influencing the shape ...