Birds, bats, and insects regularly outperform man-made aircraft   only lighter, but also have much more adaptive structures as well
   in aerobatics and handling of unpredictable environments. The     as know-how to integrate aerodynamics with changes in wing
   SR71 Blackbird jet flying beyond Mach 3 covers about 30 body      and body shapes. Birds and insects can fly in environments
   lengths per second. But a common pigeon flying at 50 miles        with gusts traveling at speeds comparable to their own, yet they
   per hour covers 75. The roll rate of an aerobatic plane is about  can react and adjust instantaneously with their flexible wings to
   720 degrees per second, while the roll rate of a barn swallow     remain airborne through wind, rain, and snow. Depending on
   exceeds 5,000 degrees per second. Select military aircraft        their sizes, many birds run or jump in addition to flapping wings
   can withstand gravitational forces of 8-10 G, yet many birds      to take off. When landing, with reduced speed, birds often extend
   routinely experience positive G-forces greater than 10 and up     and spread their wings and tail to maintain lift and to enhance
   to 14 G.                                                          maneuverability. Insects, on the other hand, have more wing
                                                                     structural flexibility but little direct, active control of their shapes
   Natural flyers obviously have some highly developed capabilities  and areas. Furthermore, birds and insects can adjust the center
   that have yet to be incorporated in engineering. They are not     of gravity by tilting their tails.

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