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Boston's John Hancock Tower was still under construction when winds of 75 miles per hour struck on January 20, 1973. By morning, 65 exterior glass panels lay shattered on the ground. Around that time, construction workers reported severe swaying of the structure during winds. Discover how tuned-mass damper technology became an effective tool for controlling wind- and earthquake-induced sway.
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The flooding of New Orleans during Hurricane Katrina on August 29, 2005, was the costliest engineering failure in American history, and one of the deadliest. Discover the economic development decisions over two centuries that contributed to the disaster. And, learn how the disaster has stimulated a more sustainable approach to flood protection.
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Modular, reinforced-concrete components can be manufactured in a factory, transported to the job site, and then assembled into multi-story buildings. But in one such 22-story development, a minor gas explosion dislodged a load-bearing wall, triggering a major collapse. Discover how this could happen in a building that was in full compliance with the governing building code.
4) Epic Engineering Failures and the Lessons They Teach: Soil and Settlement: The Leaning Tower of Pisa
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What would the Tower of Pisa be if it weren't leaning? Certainly not as attractive to tourists. That was the issue faced by the late-20th-century engineers who devised a way to reduce the tower's angle of tilt. Take a journey through the centuries to explore how various engineers tried to stabilize the leaning tower, but only succeeded in making the problem worse.
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On June 10, 2000, Londoners celebrated the opening of a state-of-the-art pedestrian bridge over the Thames River. Two days later, the Millennium Bridge was vibrating so intensely that it was closed and did not reopen for more than two years. Explore the phenomenon of synchronous lateral excitation and learn how engineers fixed "The Wobbly Bridge" and prevented similar failures in other bridges.
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No engineering failure in history had more world-changing consequences than the 1986 accident at the Chernobyl Nuclear Power Plant in the former Soviet Union. Discover the numerous design, personnel, and bureaucratic flaws that resulted in the explosion of Reactor 4 during a routine safety test-releasing 800 times more radioactive material than the atomic bombings of Hiroshima and Nagasaki.
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What does a 19th-century British railway disaster have in common with the 21st-century destruction caused by Hurricane Katrina in New Orleans? All were engineering failures that resulted in important improvements in the engineering process. Discover the very human issues that contributed to poor engineering decisions in these three cases, with disastrous consequences.
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In 1976, the American Institute of Architects presented an Honor Award to Helmut Jahn for his innovative design of the Kemper Arena in Kansas City. Three years later, a 43,000-square-foot section of the roof collapsed. Follow the forensic engineers as they painstakingly analyze the arena's innovative design and identify four major factors that contributed to the roof's collapse.
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In December 1915, United States Industrial Alcohol (USIA) built-without any formal engineering design-a massive cylindrical steel tank along Boston's North End waterfront to store incoming shipments of molasses. When the tank ruptured three years later, 21 people died. Explore the phenomena of metal fatigue and brittle fracture and learn what role they played in the Great Boston Molasses Flood.
10) Epic Engineering Failures and the Lessons They Teach: Shear in Concrete: The FIU Pedestrian Bridge
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The Florida International University Pedestrian Bridge was created with long-span trusses made of reinforced concrete, using post-tensioning to prevent cracking. Cracks that appeared were said to be "not a safety issue"-until a truss collapsed, killing six people. Explore what led to this tragedy, including problems with the most sophisticated engineering tool of all-human judgment.
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One spring evening in the mid-19th century, a three-span iron bridge across England's River Dee collapsed just as a locomotive reached the middle of the third span. Railroad technology was only just coming of age, and this collapse was one of its most serious accidents to date. Discover how this accident inquiry led to improved bridge safety throughout the country.
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While the Loma Prieta earthquake caused many fires, landslides, and structural failures, two thirds of the fatalities were caused by the collapse of the Cypress Structure, a two-level elevated highway. Explore the complex effects of earthquakes on structures and learn the role resonance and sediment-induced amplification played in this catastrophe.
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It's easy to imagine the technical difficulties that come with drilling an exploratory well miles below a floating platform on the high seas. Explore the step-by-step sequence of failures-flawed design decisions, careless oversights, deliberate procedural shortcuts, and prioritizing profits over safety-that led to the worst environmental disaster in US history.
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One of the most epic engineering failures in history was the collapse of the Tacoma Narrows Bridge in 1940. Nicknamed "Galloping Gertie," the bridge undulated so strongly that thrill-seekers came from all over just to drive across it. Explore the inherent structural inefficiency of the suspension bridge, and why this bridge failed spectacularly only four months after its opening.
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You know that if you don't maintain your car, it can stop working. But we have often overlooked that lesson when it comes to bridges. Follow the fascinating case of the Mianus River Bridge and discover how lack of maintenance caused its collapse in 1983, although the bridge had just been inspected. What happened to those pin-and-hanger connections? And exactly, whose fault was it?
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Within days of filling its reservoir, the Teton Dam began to leak. By the end of the day the dam had been breached and the reservoir poured down the Teton Valley in a tidal wave. Explore the potentially catastrophic effects of water moving through soil under pressure-whether in dams and levees or in the liquefaction caused by earthquakes.
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Handing lucrative contracts to family members rarely has it led to such a public catastrophe as the 1876 Ashtabula Bridge disaster. As you learn the fascinating history of entrepreneur Amasa Stone-who built an iron bridge using a structural concept specifically developed for wood-you'll follow the mistakes that led to America's worst rail accident and worst bridge failure up to that time.
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What role should corporate culture play in the development of an airplane? Discover what went wrong in the development of Boeing's 737 MAX and how the flawed design of the airplane's flight control system led to 346 deaths in two separate crashes. Have we learned the apparently difficult lesson that prioritizing the corporate bottom line over technological excellence does not work?
19) Epic Engineering Failures and the Lessons They Teach: Blast Loading: The Murrah Federal Building
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On April 19, 1995, Timothy McVeigh's bomb demolished almost half of the Alfred P. Murrah Federal Building in Oklahoma City, killing 168 people. Explore details of the building's design and specific ways in which various structural elements responded to the blast. Is it possible that modest changes to the steel reinforcement might have allowed the building to survive with only localized damage?
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Unlike most structural catastrophes, the 1986 Challenger disaster occurred on live TV. Explore behind the scenes to learn about what led to this catastrophic result. It will become clear that this disaster-which killed seven people and threw the entire US space program into crisis-was as much a failure of organizational decision-making as it was an engineering failure.
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