РефератыИностранный языкTeTechnology Essay Research Paper On November 7

Technology Essay Research Paper On November 7

Technology Essay, Research Paper


On November 7, 1940 the Tacoma Narrows Bridge was hit by winds of up to


40mph. The bridge began to twist and flutter. Some cables snapped and a


six-hundred foot section of the bridge fell into Puget Sound. ^Wind is


but one disaster, earthquakes are another^ (Jay Stuller 36). Disasters


like this one and others could have been avoided if the proper


precautions had been taken. Due to the disasters in the world the


structures of today and tomorrow are much safer. Today most of these


catastrophes are avoided because of the up to date technology, like


architecture, predicting the disasters before hand and new techniques


used by emergency rescue teams. Some major advances in today^s


buildings include such things like the material used. For instance


products like steel-reinforced concrete (refer to diagram 3-1), steel


framing, and properly braced wood frames for houses are a few examples


of how buildings are being retrofitted and new buildings are being


built towards protection from disasters. As well, the foundations of


the buildings can be built on shock absorbing ^base isolators^


containing springs or alternating layers of steel plates and rubber, to


counteract the effects of earthquakes.


In Japan architectures have been keeping mind earthquakes while


designing and building structures. Unfortunately the buildings were


mainly designed to withstand a vertical force. The Japanese buildings


were designed to withstand a certain acceleration force, but in January


1995, an earthquake hit the city Kobe devastating the buildings, which


were thought to be safe. It just shows, ^that building design criteria


are crucial to withstanding effects of earthquakes^ (Gerad Baker 12).


The normal Japanese wooden houses that had heavy roofs collapsed, and


also newer homes were demolished, as seen on diagram 3-2. This could


have been avoided by building the houses with lighter plywood frames


with crossbars that distribute force evenly rather than houses with


heavy timber walls that collapse under force. As well the materials


used to build the structures has a great deal to do with the survival


rate of buildings. The use of reinforced concrete is thought to be a


major reason why buildings stay intact. It is possible to reinforce


older buildings with extra concrete simply and effectively, which has


been done in California since 1989. Bridges, a totally different


aspect of building, but a very similar method for creating sound


structures. During the Kobe earthquake the Hanshin expressway collapsed <

/p>

on its side for a stretch of 600m (pictures seen on page 5). This type


of roadway is built upon reinforced concrete pillars. There is steel


inside the pillars to increase its ability to bend and flex with the


quake. But unfortunately, this creates new problems; shaking the road


from side to side, the concrete crumbles because it is confined and


under a great force, the concrete will split and give way. To deal with


these problems builders can fit metal jackets to limit any extra force


by containment, inserting steel spirals or fitting steel rings, where


force is taken into the steel. Another famous bridge, the Golden Gate


Bridge, in San Francisco went under a $147 million earthquake-proofing


retrofit after the 1989 Loma Prieta earthquake. The main parts


reconstructed were to the towers, supporting piers and the approaches


to the bridge. The Bridge was reinforced at the anchorage housings, and


fit with vibration-dampening additions over the south bridge. While the


north viaduct gets ^isolators^, to stop ground movement and shake


entire structure.


The Beaches of the world all seem to be receding. In the United States


about 90% of the coast is eroding. The reason for this is because of


constant storms and the removal of natural buffers (sand dunes) by


humans to build hotels and homes. Although the sand is replaced


constantly, ^most comes back, you don^t get back all you lost^ (Betty


Nash). There are several thoughts on how to stop or reduce erosion


damage that includes both hard and soft structures. The hard concrete


structures should be placed parallel or perpendicular to the shore to


confine the sand to a certain area. But haplessly, this solution can


create more problems because although it may protect one area it can


accelerate erosion in adjacent areas. The soft idea is to ^nourish^ the


beaches with similar sand. Now although, the method can work it can be


very costly. The decision is up to the owners of the beach, whether or


not the cost damage is greater than the cost of keeping it nourished.


In Virginia Bea! ch it saved an estimated $12. 5 million (1993 U.S.


dollars) in damages. So in spite of the fact that technology has


advanced it is still not equal to the power of Mother Nature. Humans


have been able to counteract some damages with new ideas like


reinforced concrete, building designs, safety measures, and use of


previous disaster information to reduce the risk of human causalities.


For the rest of time Man will battle nature, one always trying to top


the other.


31a

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