How sharks change directions while moving at full speed
November 24th, 2010 - 2:33 pm ICT by ANIWashington, Nov 24 (ANI): A new study has suggested that one of the evolutionary secrets of the shark’s success hides in one of its tiniest traits-flexible scales on the bodies of these peerless predators.
The study by University of South Florida has suggested that these scales make them better hunters by allowing them to change directions while moving at full speed.
The key to this ability lies in the fact that the scales control water flow separation across the creatures’ bodies, said Amy Lang of the University of Alabama.
Flow separation is an issue in systems like aircraft design, explained Lang, because it tends to cause vortices that impede speed and stability.
“In nature, if you look at surfaces of animals, you’ll see that they are not smooth.
“They have patterns. Why? One common application of patterning a surface is to control flow-think of the dimples of a golf ball that help the ball fly farther. We believe scales on fast-swimming sharks serve a similar purpose of flow separation control,” she said.
Based on experimental measurements and models of shark scales, Lang’s team discovered that the bases of shortfin mako scales (literally small teeth covering their body) where they attach to the skin are not as wide as the tops of the scales.
This tapered shape enables the scales to be easily manipulated to angles of 60 degrees or more, endowing them with movement called “denticle bristling.”
Also, these flexible scales are only found on parts of the body where flow separation is most likely to occur, such as behind the gills on the side of the body.
The findings were presented at the American Physical Society’s Division of Fluid Dynamics (DFD) annual meeting in Long Beach. (ANI)
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Tags: aircraft design, amy lang, angles, common application, control water flow, dimples, experimental measurements, flow separation, fluid dynamics, full speed, gills, golf ball, predators, scales, separation control, sharks, shortfin mako, university of alabama, university of south florida, vortices