《考研英語(yǔ)閱讀理解100篇 高分版》 Unit 19 - TEXT ONE
《考研英語(yǔ)閱讀理解100篇 高分版》 Unit 19 - TEXT ONE
所屬教程:考研英語(yǔ)閱讀
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2019年02月18日
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William Illiam Morris (the wallpaper designer, rather than the carmaker) suggested that nothing should have a place that is not known to be useful or believed to be beautiful. Opals, though, might be both. A group of researchers from the University of Southampton, in England, and the German Plastics Institute in Darmstadt, led by Jeremy Baumberg, have discovered how to create a plastic with the gemstone's iridescent properties. Their invention could be used to make a sparkling substitute for paint, banknotes that are hard to counterfeit and chemical sensors that can act as visible sell-by dates.
Opals get their milky sheen and rainbow sparkle from the way light is scattered by the tiny crystals that form them. These crystals are stacked in what is known as a face-centred cubic structure. This means that the constituent atoms are arranged in a lattice of cubes, with one extra atom sitting at the centre of each cube's six faces. Light entering this lattice gets bounced around in ways that generate colour by reinforcing the peaks of some wavelengths and cancelling out those of others.
For many years researchers have been trying to develop a synthetic material with the same light-scattering properties as an opal, by etching patterns into various materials. That approach has failed. Instead, Dr. Baumberg has built his opalescent material from scratch. He and his team grew tiny polystyrene spheres until they were some 200 nanometres across, before hardening them with a blast of heat. They then coated the spheres with a sticky polymer before heating them again. As the mixture was baked, the spheres moved naturally into a face-centred cubic structure.
The result is a flexible film of crystals with opalescent properties that can be used to coat malleable surfaces, producing attractive iridescent hues. The size of the spheres can be tailored to scatter particular wavelengths of light—a useful property for security applications in which it is important that materials can be identified precisely. Moreover, when the film is warped, the spaces between the crystals change—and the colours produced change with them. These two properties make opalescent film an obvious material for currency. Banknotes containing it would produce distinctive colours when stretched, unlike counterfeits made from other materials.
To use the film to detect food spoilage, Dr. Baumberg proposes adding a sprinkle of carbon particles even smaller than the polystyrene spheres. These would nestle in the spaces between the spheres and cause the material to scatter light from even more angles, making it yet more iridescent. This arrangement could be “tuned” to react to specific toxic chemicals. Food packaging made from such a material would thus change colour as the rot set in.
Such packaging need not be expensive. The polymer spheres and carbon particles arrange themselves spontaneously into the correct crystal structure when encouraged by a little heat, so manufacturing opalescent film should be easy. Indeed Merck, a German chemical company that was a partner in the research, has already produced rolls of the stuff a metre wide and 100 metres long. Perfect for wallpaper.
1. Which one of the following statements is NOT true of the opals according to the passage?
[A] For years, scientists' endeavor of imitating opals' unique characteristics has reached to nil.
[B] Opals could be brilliant mainly because they have some kind of iridescent properties.
[C] Opals could be brilliant because they have tiny crystals which could scatter light.
[D] Opals could be used to make a sparkling substitute for paint.
2. The opalescent material that Dr. Baumberg and his team have developed model itself on _____.
[A] the face-centred cubic structure of the opals
[B] the light scattering properties of the opals
[C] the tiny polystyrene spheres of the opals
[D] the flexible film of crystals of the opals
3. The flexible film of crystals Dr. Baumberg has finally got is an ideal material for currency because _____.
[A] it can be used to coat malleable surfaces so that the currency could have iridescent hues
[B] the colours change as the film is bent so that the currency could be identified precisely
[C] different colours could be produced as the film could be tailored to scatter particular wavelengths of light
[D] certain colours could be made as the currency is distended so that it is easy to distinguish
4. The logic that food spoilage could be detected by use of the film is that _____.
[A] the carbon particles Dr. Baumberg adds into the film could react to specific toxic chemicals
[B] the polystyrene spheres could scatter light from more angles
[C] carbon particles positioned among the spheres could be adjusted to be sensitive to addled materials
[D] carbon particles added into the polystyrene spheres could make the film more iridescent
5. The film of crystals with opalescent properties can be used to make the following materials except _____.
[A] paint
[B] banknote
[C] chemical sensors
[D] wallpaper
1. Which one of the following statements is NOT true of the opals according to the passage?
[A] For years, scientists' endeavor of imitating opals' unique characteristics has reached nil.
[B] Opals could be brilliant mainly because they have some kind of iridescent properties.
[C] Opals could be brilliant because they have tiny crystals which could scatter light.
[D] Opals could be used to make a sparkling substitute for paint.
1. 根據(jù)這篇文章,下列哪個(gè)陳述是不正確的?
[A] 多年來(lái),科學(xué)家們?cè)噲D模仿蛋白石特性的努力都沒(méi)有取得任何成果。
[B] 蛋白石閃光,主要是因?yàn)楹幸环N閃光的成分。
[C] 蛋白石閃光,是因?yàn)楹行【w可以散射光。
[D] 蛋白石可以用于制造一種油漆中的閃光物質(zhì)的替代品。
答案:D 難度系數(shù):☆☆☆
分析:細(xì)節(jié)題。根據(jù)第三段:For many years researchers have been trying to develop a synthetic material with the same light-scattering properties as an opal, by etching patterns into various materials. That approach has failed. 因此選項(xiàng)A是正確的,其中nil的意思是“零”。選項(xiàng)B對(duì)應(yīng)于文章第一段,也提到了寶石中存在閃光的成分,使得它可以閃光。選項(xiàng)C,第二段提到了這一點(diǎn)。選項(xiàng)D,第一段提到,是發(fā)明的一種塑料可以用于制作油漆中閃光成分的替代品,而不是蛋白石自己。因此,答案為D。
2. The opalescent material that Dr. Baumberg and his team have developed model itself on _____.
[A] the face-centred cubic structure of the opals
[B] the light scattering properties of the opals
[C] the tiny polystyrene spheres of the opals
[D] the flexible film of crystals of the opals
2. Baumberg博士和他的研究小組自己研制出的乳白色物質(zhì)是以 _____ 為原型的。
[A] 蛋白石的面心立方結(jié)構(gòu)
[B] 蛋白石散射光的特性
[C] 蛋白石的聚苯乙烯小球
[D] 蛋白石的彈性晶體薄膜
答案:A 難度系數(shù):☆☆
分析:細(xì)節(jié)題。文章第二段和第三段都提到了the face-centred cubic structure,尤其第三段末句As the mixture was baked, the spheres moved natually into a face-centred cubic structure. 即這種乳白色的物質(zhì)是許多聚苯乙烯小球加熱后形成的面心立方結(jié)構(gòu),從而可以閃光。因此,是模仿了面心立方結(jié)構(gòu),答案為A。
3. The flexible film of crystals Dr. Baumberg has finally got is an ideal material for currency because _____.
[A] it can be used to coat malleable surfaces so that the currency could have iridescent hues
[B] the colours change as the film is bent so that the currency could be identified precisely
[C] different colours could be produced as the film could be tailored to scatter particular wavelengths of light
[D] certain colours could be made as the currency is distended so that it is easy to distinguish
3. Baumberg博士最后研制出的彈性晶體薄膜是制作鈔票的理想物質(zhì),因?yàn)?_____。
[A] 這種物質(zhì)可以用來(lái)覆蓋有延展性的表面,這樣鈔票就可以有特別的光波了
[B] 薄膜彎曲后顏色會(huì)改變,這樣鈔票就可以被精確地辨認(rèn)出來(lái)
[C] 薄膜可以定做,用來(lái)散射特定的光波,從而產(chǎn)生不同的顏色
[D] 隨著鈔票被展開(kāi),可以產(chǎn)生特定的顏色,從而容易辨別
答案:B 難度系數(shù):☆☆☆
分析:細(xì)節(jié)題。根據(jù)第四段,這種物質(zhì)可以用于制作鈔票,一是因?yàn)樾∏虻某叽缈梢愿鶕?jù)需要定作,用來(lái)散射特定的光波,二是因?yàn)楸∧澢罂梢援a(chǎn)生不同的顏色。因此,選項(xiàng)B最為符合。
4. The logic that food spoilage could be detected by use of the film is that _____.
[A] the carbon particles Dr. Baumberg adds into the film could react to specific toxic chemicals
[B] the polystyrene spheres could scatter light from more angles
[C] carbon particles positioned among the spheres could be adjusted to be sensitive to addled materials
[D] carbon particles added into the polystyrene spheres could make the film more iridescent
4. 食品的腐敗可以使用這種薄膜來(lái)發(fā)現(xiàn),這背后的原理是 _____。
[A] Baumberg博士加在薄膜中的碳顆??梢耘c特定的有毒化學(xué)物質(zhì)發(fā)生反應(yīng)
[B] 聚苯乙烯小球可以向不同的角度散射光
[C] 在小球中間的碳顆??梢哉{(diào)節(jié),從而與腐敗的物質(zhì)發(fā)生反應(yīng)
[D] 在聚苯乙烯小球中加入的碳顆??梢允贡∧じ?br />
答案:C 難度系數(shù):☆☆☆☆
分析:細(xì)節(jié)題。根據(jù)第五段,加入碳顆粒可以使物質(zhì)往更多角度散射光,通過(guò)調(diào)節(jié)顆粒的大小可以對(duì)特定的有毒化學(xué)物質(zhì)做出反應(yīng)。因此,選項(xiàng)C為正確答案。
5. The film of crystals with opalescent properties can be used to make the following materials except _____.
[A] paint
[B] banknote
[C] chemical sensors
[D] wallpaper
5. 有蛋白石特性的晶體薄膜可以用來(lái)做除 下列_____ 以外的其他物品。
[A] 油漆
[B] 鈔票
[C] 化學(xué)傳感器
[D] 壁紙
答案:A 難度系數(shù):☆☆☆
分析:細(xì)節(jié)題。根據(jù)第一段,這種薄膜可以用來(lái)做令油漆閃光成分的替代品、鈔票和化學(xué)傳感器,最后一段提到,還可以做壁紙。因此,選項(xiàng)A的表述是錯(cuò)誤的,是正確答案。
William Illiam Morris(壁紙?jiān)O(shè)計(jì)師而非汽車(chē)制造商)認(rèn)為,沒(méi)有什么東西是沒(méi)有用或者不美的。不過(guò)蛋白石是既有用又漂亮。英國(guó)南安普敦大學(xué)的一群研究者和Jeremy Baumberg領(lǐng)導(dǎo)的德國(guó)塑料研究所(位于達(dá)姆施塔特)發(fā)現(xiàn)了如何用這種寶石閃光的特性來(lái)制造一種塑料。他們的發(fā)明可以用于制作令油漆閃光成分的替代品、難以仿造的鈔票以及可當(dāng)作清晰可見(jiàn)的銷(xiāo)售日期來(lái)使用的化學(xué)傳感器。
蛋白石呈現(xiàn)乳白色和五彩的光澤,這是由于構(gòu)成蛋白石的晶體散射了光線的緣故。這些晶體排列成面心立方結(jié)構(gòu),這就意味著組成原子呈立方晶格排列,立方體每個(gè)面的中心還有一個(gè)原子。進(jìn)入該晶格的光線被反射回來(lái),通過(guò)加強(qiáng)一些波長(zhǎng)的波峰和減少其他波長(zhǎng)的波峰來(lái)產(chǎn)生顏色。
很多年來(lái),研究者一直想要研發(fā)一種合成物質(zhì),通過(guò)在不同的物質(zhì)中蝕刻形貌來(lái)使其具有和蛋白石一樣的散射光的功能。這種方法失敗了。而B(niǎo)aumberg博士創(chuàng)造出了自己的類(lèi)似蛋白石的物質(zhì)。他和他的研究小組制造出許多聚苯乙烯小球,當(dāng)它們的直徑達(dá)到200微米,再用熱風(fēng)來(lái)硬化。接著,他們用一種黏性的聚合體覆蓋在小球的表面上,然后再次加熱。隨著不斷的加熱,小球自然成為了面心立方結(jié)構(gòu)。
最后得到的就是有彈性的晶體薄膜,它具有蛋白石的特性,可以用來(lái)覆蓋具有延展性的表面,發(fā)出好看的光澤。小球的尺寸可以按要求確定,用以散射特定波長(zhǎng)的光——這個(gè)特點(diǎn)對(duì)于保障安全來(lái)說(shuō)很有用,因?yàn)槿魏挝镔|(zhì)都可以被精確地辨認(rèn)出來(lái),這很重要。而且,如果薄膜彎曲的話,晶體之間的空間會(huì)發(fā)生變化,產(chǎn)生的顏色也隨之改變。這兩種特性使得這種薄膜成為制造鈔票的當(dāng)然之選。含有該物質(zhì)的鈔票被展開(kāi)后可以產(chǎn)生特別的顏色,這是用其他材料制作的假鈔所不具備的。
如果用該薄膜來(lái)檢查食品的腐敗,Baumberg博士建議加入一些比聚苯乙烯的小球小得多的碳顆粒。這些顆??梢苑植荚谛∏蜷g的空隙里,使得物質(zhì)往更多的角度散射光,從而顯得更亮。也可以用這種方法來(lái)應(yīng)對(duì)特定的有毒化學(xué)物質(zhì)。用該物質(zhì)生產(chǎn)的食品包裝可以隨著食物開(kāi)始腐爛而產(chǎn)生顏色的變化。
這樣的包裝不會(huì)太昂貴。略微加熱就可以使聚合體小球和碳顆粒自動(dòng)排列成正確的晶體結(jié)構(gòu),因此生產(chǎn)這種薄膜就很容易了。實(shí)際上,一家德國(guó)化學(xué)公司Merck是該研究的合作者,現(xiàn)在已經(jīng)生產(chǎn)出了很多卷1米寬、100米長(zhǎng)的該種薄膜,這對(duì)于壁紙來(lái)說(shuō)是非常理想的。
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