The mystery of Flight 587? What caused the crash of Flight 587? Investigators sift through wreckage for clues. (Physical Science Forces/Flight).WHEN AMERICAN AIRLINES American Airlines Major U.S. airline. American was created through a merger of several smaller U.S. airlines and incorporated in 1934. It continued to buy the routes of other airlines, becoming an international carrier in the 1970s; its routes include South America, the FLIGHT 587 departed from New York's JFK airport on November 12, 2001, it sailed smoothly into a clear blue morning sky. For 251 passengers and 9 crew on board, it was an ordinary takeoff. But in less than two minutes, the tail fin of the 300,000-pound jumbo jetliner--an Airbus A300--jerked violently from side to side and then ripped apart from the plane's body. Within seconds, Flight 587 nose-dived into a residential neighborhood in Queens, killing everyone aboard as well as five people on the ground. What doomed Flight 587? Investigators from the National Transportation Safety Board (NTSB NTSB abbr. National Transportation Safety Board ) are determined to find out. Last year, the NTSB investigated 34 major airplane crashes--the fewest such disasters to have occurred in any year since World War II. Now among the questions the NTSB seeks to answer in the crash of Flight 587: What role did turbulence, or blustery blus·ter v. blus·tered, blus·ter·ing, blus·ters v.intr. 1. To blow in loud, violent gusts, as the wind during a storm. 2. a. To speak in a loudly arrogant or bullying manner. air currents, play? Was there a fatal flaw in the space-age "composite" material used to craft the tail? Is there evidence of sabotage? "It could take us another 24 months before we finally piece the puzzle together," said NTSB spokesman Ted Lopatkiewicz in January. Read on to learn what investigators have learned so far about three possible culprits. SUSPECT #1: WAKE TURBULENCE Wake turbulence is turbulence that forms behind an aircraft as it passes through the air. This turbulence includes various components, the most important of which are wingtip vortices and jetwash. ? ACCORDING TO according to prep. 1. As stated or indicated by; on the authority of: according to historians. 2. In keeping with: according to instructions. 3. an NTSB crash report of December 18, one possible factor in Flight 587's demise: wake turbulence, blasting air currents caused by two tornado-strength streams of air (vortices vor·ti·ces n. A plural of vortex. ) that spiral off a plane's wingtips. In this case, the vortices formed in the wake of a 42-ton Japan Airlines Boeing 747 that took off 2 minutes 20 seconds before Flight 587 (see diagram, above). How does a plane produce a vortex? As air blasts over the top of a plane's curved wing--a shape called an airfoil--it speeds up to create low pressure above the wing and high pressure beneath it. The resulting pressure difference creates lift, the upward force beneath the wing that keeps a plane in flight. But it also spawns vortices that spin off wingtips at speeds up to 350 kilometers per hour (217 miles per hour). A vortex is most dangerous to planes directly after takeoff. "A plane is still close to the ground and has very little room to recover from the impact," says engineer Miroslav Krstic at the University of California The University of California has a combined student body of more than 191,000 students, over 1,340,000 living alumni, and a combined systemwide and campus endowment of just over $7.3 billion (8th largest in the United States). at San Diego San Diego (săn dēā`gō), city (1990 pop. 1,110,549), seat of San Diego co., S Calif., on San Diego Bay; inc. 1850. San Diego includes the unincorporated communities of La Jolla and Spring Valley. Coronado is across the bay. . That's why the Federal Aviation Administration Federal Aviation Administration (FAA), component of the U.S. Department of Transportation that sets standards for the air-worthiness of all civilian aircraft, inspects and licenses them, and regulates civilian and military air traffic through its air traffic control (FAA) requires at least four miles of space between flights. The Japan Airlines jet was flying farther than that distance ahead of Flight 587 at the time of the crash, claims the NTSB. Scientists doubt wake turbulence alone knocked Flight 587 out of the sky. "Commercial jets are built to withstand forces up to 2.5 times that of gravity [G-forces]," says UC San Diego engineer John Kosmatka. The recovered flight-data recorder, or "black box," reveals that turbulence hit the plane with one tenth of a G-force--barely strong enough to disturb passengers. SUSPECT #2: TAIL-FIN FLAW ? WITHIN HOURS of the crash, investigators fished out of Jamaica Bay Jamaica Bay, c.20 sq mi (50 sq km), SW Long Island, SE N.Y., separated from the Atlantic Ocean by Rockaway Peninsula; the Rockaway Inlet links it to the sea. The shallow bay has many islands, and its shores are generally marshy. their biggest clue yet: the 8.2-meter (27-foot)-high tail fin. They discovered six sheared sheared adj. Shaped or finished by shearing, especially cut or trimmed to a uniform length: a sheared fur coat. Adj. 1. attachment points, or tongues, that connect the tail fin to the fuselage, the plane's central body (see photo, above). Investigators now wonder if a structural flaw in the tongues could have doomed the plane. [ILLUSTRATION OMITTED] One major concern is the material used to craft newer planes: high-strength plastic reinforced with carbon fibers and glue. Called a "composite," the material has become increasingly popular in the construction of plane parts, because it's stronger, lighter, and less corrosive than aluminum and steel--the most common plane-part materials. One downside, say experts: Composites lack ductility ductility, ability of a metal to plastically deform without breaking or fracturing, with the cohesion between the molecules remaining sufficient to hold them together (see adhesion and cohesion). Ductility is important in wire drawing and sheet stamping. , or flexibility. An accidental blow during construction, for example, might easily weaken the fibers (see diagram, below), making a part vulnerable to breakage under stress, such as that caused by turbulence or sharp plane movements. In 1988, inspectors of the doomed Airbus A300 noticed that some carbon-fiber layers in one of its tail's tongues had separated, a flaw called delamination delamination /de·lam·i·na·tion/ (de-lam?i-na´shun) separation into layers, as of the blastoderm. de·lam·i·na·tion n. 1. A splitting or separation into layers. 2. . But the NTSB says engineers repaired the problem before the plane was ever launched into flight. New High-tech Materials--Suddenly Suspect? Today, plane parts are often made with composites, a mixture of plastic, carbon fibers, and glue. Stronger and lighter than metal, they can be brittle. Below are four kinds of forces they must withstand: 1 TENSION The ability of composites to withstand stretching depends on the tensile or flexible strength of the fibers. [ILLUSTRATION OMITTED] 2 COMPRESSION The glue must hold the fibers as straight columns to prevent them from buckling. [ILLUSTRATION OMITTED] 3 SHEAR The composites may have to bear uneven weight loads and must resist deforming. The glue must be strong and adhere well to the fiber. [ILLUSTRATION OMITTED] 4 BENDING Bending is caused by a combination of tensile, compression, and shear loads. [ILLUSTRATION OMITTED] SUSPECT #3: SABOTAGE? ? "AT THIS POINT we've found no physical evidence to suggest terrorist activity," says Lopatkiewicz. Absent from the plane's structure are soot patterns--telltale evidence of an in-flight explosion: "The black smoke stains typically run backward from the point of explosion along the exterior of the aircraft." Both engines fell to the ground largely intact; technicians who inspected the engines have found "no evidence of engine failure, rupture, or foreign object damage," Lopatkiewicz insists. ANSWERS: UP IN THE AIR PERHAPS THE MOST convincing theory to date lays blame on a combination of material failure in the tail and air turbulence. Exactly how the two factors worked together to cause the crash of Flight 587 is yet to be determined. For the latest information, check out the NTSB Web site: www.ntsb.gov [ILLUSTRATION OMITTED] Cross-Curricular Connection History: Research and report on a past transportation disaster, and present reasons and theories why the disaster occurred. Did You Know? * New "composite" materials used to build plane parts are up to 25 percent lighter than aluminum and retain their shape even with extreme temperature changes. * The Airbus 300 is designed to fly for up to 26 years. The plane used for Flight 587 was 13 years old when it crashed. The jet has a wingspan of 45 meters (147 feet) and can reach speeds up to 853 kilometers (530 miles) per hour. * Wingtip vortices Wingtip vortices are regions of high vorticity which develop at the tip of a wing as it flies through the air (or potentially another fluid). Wingtip vortices are a form of induced drag, an essentially unavoidable side-effect of the wing generating lift. trailing a commercial jet can stretch up to 12.9 km (8 mi) long. Directions: Match the word in the left column with the correct phrase or word in the right column. -- 1. turbulence a. tornado-like air streams -- 2. airfoil b. a plane-building material -- 3. fuselage c. shape of the top of a plane's curved wing -- 4. composite d. plane's central body -- 5. ductility e. flexibility -- 6. vortices f. blasting air currents -- 7. tongues g. attachment points on planes ANSWERS 1. f 2. c 3. d 4. b 5. e 6. a 7. G National Science Education Standards The National Science Education Standards (NSES) are a set of guidelines for the science education in primary and secondary schools in the United States, as established by the National Research Council in 1996. Grades 5-8: motions and forces * understandings about scientific inquiry * understandings about science and technology Grades 9-12: motions and forces * understandings about scientific inquiry * understandings about science and technology Resources "Storm Upset Jet on Ground in 1987" by Don Phillips, The Washington Post, January 2, 2002, "Aircraft Safety and the Case of the Plastic Tail" by Matthew L. Wald, The New York New York, state, United States New York, Middle Atlantic state of the United States. It is bordered by Vermont, Massachusetts, Connecticut, and the Atlantic Ocean (E), New Jersey and Pennsylvania (S), Lakes Erie and Ontario and the Canadian province of Times, November 27, 2001. For more on aerospace engineering, visit the NASA NASA: see National Aeronautics and Space Administration. NASA in full National Aeronautics and Space Administration Independent U.S. Langley Research Center Langley Research Center (LaRC) Oldest of NASA's field centers, LaRC is located in Hampton, Virginia and directly borders Poquoson, Virginia and Langley Air Force Base. LaRC focuses primarily on aeronautical research, though the Lunar Lander was flight-tested at this facility and a Web Site: www.larc.nasa.gov |
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