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Hovering in mid-air easier for top-heavy structures

Washington, Sat, 11 Feb 2012 ANI

Washington, Feb 11 (ANI): Structures that are top-heavy are likelier to maintain their balance while hovering in the air compared to those that bear a lower centre of gravity, a new study has revealed.

 

The findings by researchers at New York University's Courant Institute of Mathematical Sciences and Department of Physics have found are contrary to common perceptions that flight stability can be achieved only through a relatively even distribution of weight-and may offer new design principles for hovering aircraft.

 

As the Wright brothers demonstrated 100 years ago, the key challenge of flight is maintaining balance. Yet, while insects took to the air 400 million years earlier, their flight stability remains a mystery because of the complex aerodynamics of their flapping wings.

 

The NYU researchers approached this question by creating experimental conditions needed to achieve stable hovering in mechanical flyers.

 

To do so, they created a range of pyramid-shaped "bugs" constructed from paper that hover when placed in an oscillating column of air, mimicking the effect of flapping wings. They captured the experiment with high-speed videos in order to analyse the nature of the airflow around the bugs.

 

To gauge which types of structures best maintained their balance, the researchers created paper bugs with various centres of mass.

 

Top-heavy bugs were made by fixing a weight above the pyramid, and low centre-of-mass bugs bore this weight below.

 

Surprisingly, their results showed that the top-heavy bugs hovered stably while those with a lower centre of mass could not maintain their balance.

 

The team showed that when the top-heavy bug tilts, the swirls of air ejected from the far side of the body automatically adjust to keep it upright.

 

"It works somewhat like balancing a broomstick in your hand," explained Jun Zhang, a Professor at the Courant Institute and one of the study's co-authors.

 

"If it begins to fall to one side, you need to apply a force in this same direction to keep it upright."

 

For bugs, it is aerodynamical forces that provide this stability.

 

The lessons learned from these studies could be put to use in designing stable and maneuverable flapping-wing robots.

 

The study has been published in the journal Physical Review Letters. (ANI)

 


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