雅思閱讀是一場持久戰(zhàn),只有對文字有了足夠的熟悉,才能在卷面上獲得更高的分數(shù)。下面是聽力課堂小編整理的雅思閱讀每日一練:Let’s Go Bats的資料,平時多看多練,考試正常發(fā)揮就好。
Let’s Go Bats
A Bats have a problem: how to find their way around in the dark. They hunt at night, and cannot use light to help them find prey and avoid obstacles. You might say that this is a problem of their own making, one that they could avoid simply by changing their habits and hunting by day. But the daytime economy is already heavily exploited by other creatures such as birds. Given that there is a living to be made at night, and given that alternative daytime trades are thoroughly occupied, natural selection has favoured bats that make a go of the night-hunting trade. It is probable that the nocturnal trades go way back in the ancestry of all mammals. In the time when the dinosaurs dominated the daytime economy, our mammalian ancestors probably only managed to survive at all because they found ways of scraping a living at night. Only after the mysterious mass extinction of the dinosaurs about 65 million years ago were our ancestors able to emerge into the daylight in any substantial numbers.
B Bats have an engineering problem: how to find their way and find their prey in the absence of light. Bats are not the only creatures to face this difficulty today. Obviously the night-flying insects that they prey on must find their way about somehow. Deep-sea fish and whales have little or no light by day or by night. Fish and dolphins that live in extremely muddy water cannot see because, although there is light, it is obstructed and scattered by the dirt in the water. Plenty of other modern animals make their living in conditions where seeing is difficult or impossible.
C Given the questions of how to manoeuvre in the dark, what solutions might an engineer consider? The first one that might occur to him is to manufacture light, to use a lantern or a searchlight. Fireflies and some fish (usually with the help of bacteria) have the power to manufacture their own light, but the process seems to consume a large amount of energy. Fireflies use their light for attracting mates. This doesn’t require a prohibitive amount of energy: a male’s tiny pinprick of light can be seen by a female from some distance on a dark night, since her eyes are exposed directly to the light source itself. However, using light to find one’s own way around requires vastly more energy, since the eyes have to detect the tiny fraction of the light that bounces off each part of the scene. The light source must therefore be immensely brighter if it is to be used as a headlight to illuminate the path, than if it is to be used as a signal to others. In any event, whether or not the reason is the energy expense, it seems to be the case that, with the possible exception of some weird deep-sea fish, no animal apart from man uses manufactured light to find its way about.
D What else might the engineer think of? Well, blind humans sometimes seem to have an uncanny sense of obstacles in their path. It has been given the name ‘facial vision’, because blind people have reported that it feels a bit like the sense of touch, on the face. One report tells of a totally blind boy who could ride his tricycle at good speed round the block near his home, using facial vision. Experiments showed that, in fact, facial vision is nothing to do with touch or the front of the face, although the sensation may be referred to the front of the face, like the referred pain in a phantom limb. The sensation of facial vision, it turns out, really goes in through the ears. Blind people, without even being aware of the fact, are actually using echoes of their own footsteps and of other sounds, to sense the presence of obstacles. Before this was discovered, engineers had already built instruments to exploit the principle, for example to measure the depth of the sea under a ship. After this technique had been invented, it was only a matter of time before weapons designers adapted it for the detection of submarines. Both sides in the Second World War relied heavily on these devices, under such codenames as Asdic (British) and Sonar (American), as well as Radar (American) or RDF (British), which uses radio echoes rather than sound echoes.
E The Sonar and Radar pioneers didn’t know it then, but all the world now knows that bats, or rather natural selection working on bats, had perfected the system tens of millions of years earlier, and their ‘radar’ achieves feats of detection and navigation that would strike an engineer dumb with admiration. It is technically incorrect to talk about bat ‘radar’, since they do not use radio waves. It is sonar. But the underlying mathematical theories of radar and sonar are very similar, and much of our scientific understanding of the details of what bats are doing has come from applying radar theory to them. The American zoologist Donald Griffin, who was largely responsible for the discovery of sonar in bats, coined the term ‘echolocation’ to cover both sonar and radar, whether used by animals or by human instruments.
Questions 1-5
Reading Passage 1 has five paragraphs, A-E.
Which paragraph contains the following information?
Write the correct letter, A-E, in boxes 1-5 on your answer sheet.
NB You may use any letter more than once.
1 examples of wildlife other than bats which do not rely on vision to navigate by
2 how early mammals avoided dying out
3 why bats hunt in the dark
4 how a particular discovery has helped our understanding of bats
5 early military uses of echolocation
Questions 6-9
Complete the summary below.
Choose ONE WORD ONLY from the passage for each answer.
Write your answers in boxes 6-9 on your answer sheet.
Facial Vision
Blind people report that so-called ‘facial vision’ is comparable to the sensation of touch on the face. In fact, the sensation is more similar to the way in which pain from a 6……………arm or leg might be felt. The ability actually comes from perceiving 7……………through the ears. However, even before this was understood, the principle had been applied in the design of instruments which calculated the 8………………of the seabed. This was followed by a wartime application in devices for finding 9…………………………
Questions 10-13
Complete the sentences below.
Choose NO MORE THAN TWO WORDS from the passage for each answer.
Write your answers in boxes 10-13 on your answer sheet.
10 Long before the invention of radar, …………… had resulted in a sophisticated radar-like system in bats.
11 Radar is an inaccurate term when referring to bats because………… are not used in their navigation system.
12 Radar and sonar are based on similar ………… .
13 The word ‘echolocation’ was first used by someone working as a ……… .
Question 1
答案:B
關(guān)鍵詞:wildlife other than bats. . . do not rely on vision. . .
定位原文:B段第2句: “Bats are not the only creatures to face this difficulty today”.
解題思路: 題目問哪一段舉出了除了蝙蝠之外不需要視覺導航的物種的例子,B段中說了被捕獵的昆蟲、深海魚類、鯨魚、海豚等物種在鮮有光線或者完全黑暗的環(huán)境下是如何生活的,比較容易定位。
Question 2
答案:A
關(guān)鍵詞: early mammals avoid dying out
定位原文: A段倒數(shù)第2句: “In the time when the dinosaurs …”
解題思路: ancestors 等同于early mammals, survive 等同于avoid dying out。
Question 3
答案:A
關(guān)鍵詞: why … hunt in the dark
定位原文: A段第5句: “Given that there is a living...”
解題思路: 聯(lián)系上下文,對應句說了物競天擇使蝙蝠晚上捕食,后面說了這個可能追溯到過去,那時恐龍白天捕食,使哺乳動物不得不晚上捕食
Question 4
答案:E
關(guān)鍵詞:a particular discovery
定位原文: E段倒數(shù)第2句話 “… and much of our scientific understanding of the details...”
解題思路: 理解定位句意義:大多數(shù)關(guān)于蝙蝠行為細節(jié)的科學理解都是利用雷達理論完成的
Question 5
答案:D
關(guān)鍵詞: early military echolocation
定位原文: D段倒數(shù)第2句和最后1句: “After this technique had been invented....” “Both sides in the Second World War ...”
解題思路: 第二次世界大戰(zhàn)可以對應early一詞。
Question 6
答案:phantom
關(guān)鍵詞: facial vision / pain / arm or leg
定位原文: D段第5句 “… like the referred pain in a phantom limb”
解題思路: 通過填空題的小標題“Facial Vision”,首先可以把此題迅速定位到文章的D段,緊接著可以在D段的第5句尋找到定位關(guān)鍵詞referred pain。
Question 7
答案:echoes/obstacles
關(guān)鍵詞:perceiving / ears
定位原文: D段第6句、第7句 “The sensation of facial vision… the presence of obstacles”.
解題思路: 此題需要將兩句話放在一起理解:而感視覺是通過耳朵傳輸?shù)?,盡管盲人并沒有意識到這一點,但現(xiàn)實生活中他們的確在運用自己的步伐以及其他聲音的回聲來感覺路上障礙物的存在。perceive一詞在雅思學術(shù)類閱讀考試當中多次出現(xiàn),是“感知;感覺;察覺”的意思,相當于原文中的sense。綜上分析得出答案echoes或obstacles。
Question 8
答案:depth
關(guān)鍵詞: before / instruments / calculated / seabed
定位原文: D段倒數(shù)第3句: “… for example to measure the depth of the sea under a ship”
解題思路: 按照解題順序,找到介詞before,接著找到instruments,并很快找到題目中關(guān)鍵詞 calculated的同義同measure,然后就以順利找到正確答案depth。
Question 9
答案:submarines
關(guān)鍵詞:wartime / finding
定位原文: D段倒數(shù)第2句:“After this technique had been invented…”
解題思路: 看到weapons designers 可以聯(lián)想到wartime, detection是探測的意思,與題目中的finding同義,由此可知答案是submarines. 這里特別提醒考生,如果不變復數(shù)是不得分的。
Question 10
答案: natural selection
關(guān)鍵詞:radar/ resulted in/ radar-like / bats
定位原文: E段第1句: “… or rather natural selection…”
解題思路: 題目:早在雷達發(fā)明之前,是什么在蝙蝠身上進化出了復雜的類雷達系統(tǒng)呢? Sophisticated一詞指“稍密的;復雜的”。根據(jù)題意, 考生需要尋找一個蝙蝠擁有精確定位本領(lǐng)的原因。原因連接詞在這用并沒有出現(xiàn),但perfect一詞卻可以告訴我們是自然選擇使然,所以正確答案是 natural selection。
Question 11
答案:radio waves/echoes
關(guān)鍵詞: not used
定位原文: E段第2句: “It is technically incorrect to…”
解題思路: 題目說蝙蝠也使用雷達實際上是不正確的,因為在導航的時候它們根本沒有使用____。not used是關(guān)鍵詞,題目中以被動語態(tài)的形式出現(xiàn),文章中則變成主動語態(tài),但因為核心動詞use 沒有改變,所以此題很簡單,正確答案是radio waves。
Question 12
答案:mathematical theories
關(guān)鍵詞:radar / sonar/ similar
定位原文: E段第4句: “But the underlying mathematical theories…”
解題思路: 題目:雷達和聲吶是基于相似的____。先在E段后部找到radar和sonar兩個關(guān)鍵詞,接著找到similar,空里要填的名詞應該就不遠了。此處語序有所變動,但是仍然很容易找到答案mathematical theories,因為題干中要求最多用兩個詞填空,因此前面的underlying就不能填了。
Question 13
答案:zoologist
關(guān)鍵詞: echolocation/ first / someone
定位原文: E段最后1句: “The American zoologist…”
解題思路: 第一次使用聲吶一詞的人的職業(yè)是____。只要知道coin詞有“發(fā)明;創(chuàng)造;杜撰”的意思,就能輕易聯(lián)想到first used。而根據(jù)文章,這個詞是由一個叫Donald Griffin的zoologist發(fā)明的,由此得出答案。
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