How to fly like a bat.It takes weeks, treats, and a lot of patience to train a bat to fly inside a wind tunnel wind tunnel, apparatus for studying the interaction between a solid body and an airstream. A wind tunnel simulates the conditions of an aircraft in flight by causing a high-speed stream of air to flow past a model of the aircraft (or part of an aircraft) being tested. . Bats already know how to fly, of course. The problem is to get them to do it inside a small tunnel with the wind rushing at them. So scientists at Brown University in Providence, Rhode Island  “Providence” redirects here. For other uses, see Providence (disambiguation). Providence is the capital and the most populous city of the U.S. , use rewards to coax Same as coaxial cable. coax - coaxial cable the animals. If the bats land on the floor or walls of the wind tunnel and refuse to fly, the scientists move them to an enclosure without food. But "if they fly for a minute without crashing, we feed them," says Sharon Swartz, a biologist at Brown. The bats soon learn that to get a treat, they have to fly. [ILLUSTRATION OMITTED] After weeks of training, the bats learn to fly in place inside the wind tunnel, like a person who can walk or run without falling off a moving treadmill. Bats on film Swartz and her colleagues then use high-speed video cameras to film the animals in motion. The work is revealing surprising details about how bats fly. When they first looked at the images, scientists were stunned stun tr.v. stunned, stun·ning, stuns 1. To daze or render senseless, by or as if by a blow. 2. To overwhelm or daze with a loud noise. 3. to see the complexity of the bats' movements, especially when compared with those of birds. The work "has really challenged long-held beliefs about how we think about bat flight," says Betsy Dumont, a biologist at the University of Massachusetts The system includes UMass Amherst, UMass Boston, UMass Dartmouth (affiliated with Cape Cod Community College), UMass Lowell, and the UMass Medical School. It also has an online school called UMassOnline. in Amherst. [ILLUSTRATION OMITTED] A better understanding how bats fly, researchers hope, will help them design small flying machines that can move and change direction quickly like bats do. The United States Air Force United States Air Force (USAF) Major component of the U.S. military organization, with primary responsibility for air warfare, air defense, and military space research. It also provides air services in coordination with the other military branches. U.S. is so interested in developing batlike aircraft that they're funding the research. Fast bat facts There are about 1,200 species of bats in the world, Swartz says. Some eat fruit. Others eat insects or nectar. And just a few drink blood. Some bats use their eyes to see where things are. Others collect information about their surroundings by bouncing sound off objects and listening to the echoes. But what all bats have in common (other than being the only flying mammals The class Mammalia (the Mammals) is divided into two subclasses based on reproductive techniques: egg laying mammals (the Monotremes); and mammals which give live birth. The latter subclass is divided into two infraclasses: pouched mammals (the marsupials); and the placental mammals. in existence) are flexible wings that enable them to change directions quickly. If you've ever seen bats darting through the air at dusk, you probably noticed how abruptly they can change directions. Scientists have long assumed that bats fly the same way as birds and insects do--with rigid, airplanelike wings that hinge hinge n. A jointed or flexible device that allows the turning or pivoting of a part, such as a door or lid, on a stationary frame. hinge see hinge joint. at the shoulder. The problem with that assumption, however, is that bats aren't birds or insects. As mammals, they have more in common with people, horses, and dogs than with other flying creatures. [ILLUSTRATION OMITTED] [ILLUSTRATION OMITTED] For example, birds have hollow bones hollow bone n. See pneumatic bone. , and insects have no bones at all. But most mammals have solid, heavy bones, which would make flying tough. To solve this problem, bats have evolved strong, heavy bones near their shoulders, where they need more support. They've also saved some weight by developing lighter, weaker bones near the tips of their wings. The result is a light, but strong, and very flexible, wing. Bat wings Bats flap their wings very quickly, so scientists must use extremely fast cameras to study these animals in flight. This type of technology has only recently become available and affordable. "In the past, if you wanted to get 1,000 frames a second, you would need so much light you would probably burn the bat," Swartz says. "Now, we have cameras that are able to take lots of images with relatively little light." Swartz studies a bat called the dog-faced fruit bat fruit bat, fruit-eating bat found in tropical regions of the Old World. It is relatively large and differs from other bats in the possession of an independent, clawed second digit; it also depends on sight rather than echo-location in maintaining orientation. . An adult weighs about 1 ounce and measures about 11 inches across from wingtip to wingtip. Before filming, the researchers put 54 white dots all over the bat's wings. Then, they put the bat into a wind tunnel that is about 50 inches long and about 50 inches wide. [ILLUSTRATION OMITTED] As the bat flies, three high-speed cameras capture the animal's movements from different angles. A computer program then processes the movements of the white dots on the wings to produce a three-dimensional virtual bat. In slow motion, the virtual bat reveals exactly how its wings move every fraction of a second during flight. The first time that Swartz saw the results, she was amazed a·maze v. a·mazed, a·maz·ing, a·maz·es v.tr. 1. To affect with great wonder; astonish. See Synonyms at surprise. 2. Obsolete To bewilder; perplex. v.intr. . [ILLUSTRATION OMITTED] "The motion of these bat wings is just gorgeous," she says. "It's like a dancer. It's fabulous." Swartz was also surprised to see how complicated the wings' motions are during flight. The wings curve and change shape constantly as the animal flies, but they never flatten flatten - To remove structural information, especially to filter something with an implicit tree structure into a simple sequence of leaves; also tends to imply mapping to flat ASCII. "This code flattens an expression with parentheses into an equivalent canonical form." like airplane wings. That shows that even if airplanes flapped their wings, they wouldn't be flying the same way as bats do. On the down stroke, one wing sometimes even covers the other for a fraction of a second. "It's as if the bat were about to fold up and go to sleep," Swartz says. "You wouldn't expect that if you believed the flapping-airplane model." A real bat mobile? Before bat ancestors developed wings more than 80 million years ago, the animals had arms and grasping fingers. As bats evolved, their bodies changed to make flight possible. Bats today still have elbow joints elbow joint n. A compound hinge joint between the humerus and the bones of the forearm. Also called cubital joint. and individual finger bones hidden inside their wings, but they only use them to adjust the shape of their wings. Bats have become excellent flyers, Dumont says. "Just think about these animals flying around at night at a decent speed and maneuvering around objects," she says. "It's spectacular." Engineers would like to design vehicles that fly the way bats do. The military could use small, unmanned aircraft Unmanned Aircraft (UA) is a term used in the Federal Aviation Administration (FAA) definition of Unmanned Aircraft System (UAS). UA refers to the aircraft portion of the system required to operate it, also known as Unmanned Aerial Vehicle. that maneuver through war zones without attracting attention. Tiny, batlike flying machines that could make tight turns in small spaces would also be helpful during emergencies, such as fires, earthquakes, or volcanic eruptions volcanic eruptions discharging of fumes, dust and lava from volcanoes. They have damaging potential in addition to those of being physically overpowering by the lava flow or the ash or dust fallout. , to rescue people from tight, collapsed spaces or perform other tasks. Bats are small and can maneuver well in small spaces. Despite their sometimes mysterious and elusive nature, there is a lot we can learn from them. |
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