第一课时学术类阅读介绍IELTS 的基本情况考试的基本点1.考试目的:留学2.全世界的IELTS考试内容、形式完全一样3.考试的有效期:2年。三个月之内不能考两次。Testing preparation courseTraining centerIELTS 口语课程是一个考试准备课程。听力不可能在短期提高consistency: 始终一贯听力考试的语速比以前快;语音适应。学术类阅读的文章篇幅:三篇文章,每篇1500-2500字,最近两次考试1100-1800字,40道题。规定时间:1个小时教科书:《学术类阅读理解》、《学术类阅读理解辅导》、《阅读试题》正确题数 分数段1 12-3 24-9 310-15 416-19 5 ←新西兰签证的最低起评线20-22 5.5 ←澳大利亚签证的最低起评线23-25 626-28 6.529-35 736-39 840 96.5分的科目:Accounting, International Business And Commerce,Marketing, Advertisement, 人力资源管理Computer, 建筑,化学,数学,生物正确题数 分数段 四门分数除以4是总分。1 1 如果差0.5分,申请4周的语言课程;2-3 2 如果差1分,申请8周的语言课程;4-9 3 如果差1.5分,申请12周的语言课程。10-15 416-19 520-22 5.523-25 626-28 6.529-32 733-35 7.536-37 838-39 8.540 9在阅读考试中,有报时制度。阅读在所有课程中的地位。写作水平永远取决于阅读。dissertation:论文应该多读学术类的文章、政治、政论性的文章口语取决于听力,靠看对话节目来提高。新西兰留学的好处:便宜、容易毕业、容易移民澳大利亚:美丽,但是费用比新西兰高,容易毕业,学制也短英国/欧洲:学习气氛好分析学术类考试的几大要点:词汇量(从考试来讲,听力3500字)(阅读3500字)(作文)(口语:不要求有标准的英式语音。3500字)语法(听力:没有语法是不行的)(阅读:大多数方法和技巧都在于对原文语法的分析)(作文:语法错误是得低分的原因)(口语:如果没有语法,口语将是很多破碎单词的连接体)语感,来自阅读。视力:第二课时英国:硕士一年期(MA,MSC,LM)MBA两年PHD,MPHIL牛津、剑桥(pure science)英联邦国家的教育制度与美国不同。大多数没有奖学金,尤其是商科。基础学科最容易拿奖学金。题型:题型适应,阅读习惯改变。1.List of headings(标题对应)2.True, False, Not given3.Summary(完型填空)4.Matching(配对)5.MC选择题三种小题型:1.图表填空题2.移动箭头指示填空题3.完成句子INTERNATIONAL ENGLISH LANGUAGETESTING SYSTEMACADEMIC READINGTIME ALLOWED: 1 HourNUMBER OF QUESTIONS: 38InstructionsALL ANSWERS MUST BE WRITTEN ON THE ANSWER SHEETThe test is divided as follows:- Reading Passage 1 Question 1-11- Reading Passage 2 Question 12-25- Reading Passage 3 Question 26-38Start at the beginning of the test and work through it. You should answer all the questions. If you cannot do a parricular question leave it and go on to the next. You can return to it later.READING PASSAGE 1You should spend about 20 minutes on Questions 1-11 which are based on Reading Passage 1 on pages 2 and 3.TheSpectacularEruptionofMountSt. HelensA The eruption in May 1980 of Mount St. Helens, Washington State, astounded the world with its violence. A gigantic explosion tore much of the volcano's summit to fragments; the energy released was equal to that of 500 of the nuclear bombs that destroyed Hiroshima in 1945.B The event occurred along the boundary of two of the moving plates that make up the Earth's crust. They meet at the junction of the North American continent and the Pacific Ocean. One edge of the continental North American plate over-rides the oceanic Juan de Fuca micro-plate, producing the volcanic Cascade range that includes Mounts Baker, Rainier and Hood, and Lassen Peak as well as Mount St. Helens.C Until Mount St. Helens began to stir, only Mount Baker and Lassen Peak had shown signs of life during the 20th century. According to geological evidence found by the United States Geological Survey, there had been two major eruptions of Mount St. Helens in the recent (geologically speaking)past: around 1900 B.C., and about A.D. 1500. Since the arrival of Europeans in the region, it had experienced a single period of spasmodic activity, between 1831 and 1857. Then, for more than a century, Mount St. Helens lay dormant.D By 1979, the Geological Survey, alerted by signs of renewed activity, had been monitoring the volcano for 18 months. It warned the local population against being deceived by the mountain's outward calm, and forecast that an eruption would take place before the end of the century. The inhabitants of the area did not have to wait that long. On March 27, 1980,a few clouds of smoke formed above the summit , and slight tremors were felt. On the 28th, larger and darker clouds,. consisting of gas and ashes,. emerged and climbed as high as 20,000 feet. In April a slight lull ensued, but the volcanologists remained pessimistic. The, in early May, the northern flank of the mountain bulged, and the summit rose by 500 feet.E Steps were taken to evacuate the population. Most- campers, hikers, timbercuttersleft the slopes of the mountain. Eighty-four-year-old Harry Truman, a holiday lodge owner who had lived there for more than 50 years, refused to be evacuated, in spite of official and public, including an entire class of school children, wrote to him, begging him to leave. He never did.F On May 18, at 8.32 in the morning, Mount St. Helens blew its top. literally. Suddenly, it was 1300 feet shorter than it had been before its growth had begun. Over half a cubic mile of rock had disintegrated . At the same moment, an earthquake with an intensity of 5 on the Richter scale was recorded. It triggered an avalanche of snow and ice. mixed with hot rock-the entire north face of the mountain had fallen away. A wave of scorching volcanic gas and rock fragments shot horizontally from the volcano's riven flank, at an inescapable 200 miles per hour. As the sliding ice and snow melted, it touched off devastating torrents of mud and debris, which destroyed all life in their path. Pulverised, which destroyed all life in their path. Pulverised rock climbed as a dust cloud into the atmosphere. Finally, viscous lava, accompanied by burning clouds of ash and gas, welled out of volcano's new crater, and from lesser vents and cracks in its flanks.G Afterwards, scientists were able to analyse the sequence of events. First, magmamolten rock-at temperatures above 2000oF. had surged into the volcano from the Earth's mantle. The build-up was accompanied by an accumulation of gas, which increased as the mass of magma grew. It was the pressure inside the mountain that made it swell. Next, the rise in gas pressure caused a violent decompression. Which ejected the shattered summit like a cork from a shaken soda bottle. With the summit gone, the molten rock within was released in a jet of gas and fragmented magma, and lava welled from the crater.H The effects of the Mount St. Helens eruption were catastrophic. Almost all the trees of the surrounding forest, mainly Douglas firs. were flattened. and their branches and bark ripped off by the shock wave of the explosion. Ash and mud spread over nearly 200 square miles of country. All the towns and settlements in the area were smothered in an even coating of ash. Volcanic ash silted up the Columbia River 35 miles away, reducing the debris that accumulated at the foot of the volcano reached a depth. in places, of 200 feet.I The eruption of Mount St. Helens was one of the most closely observed and analysed in history. Because geologists had been expecting the event, they were able to amass vast amounts of technical data when it happened. Study of atmospheric particles formed as a result of the explosion showed that droplets of sulphuric acid, acting as a screen between the Sun and the Earth's surface, caused a distinct drop in temperature. There is no doubt that the activity of Mount St. Helens and other volcanoes since 1980 has influenced our climate . Even so, it has been calculated that the quantity of dust ejected by Mount St. Helens - a quarter of a cubic mile- was negligible in comparison with that thrown out by earlier eruptions, such as that of Mount Katmai in Alaska in 1912 (three cubic miles). The volcano is still active. Lava domes have formed inside the new crater, and have periodically burst. The threat of Mount St Helens lives on..Questions 1 and 2Reading Passage 1 has 9 paragraphs labelled A-IAnswer questions 1 and 2 by writing the appropriate letter A-I inboxes 1 and 2 on your answer sheet.Example AnswerWhich paragraph compares the eruption to the energy Areleased by nuclear bomb?1. Which paragraph describes the evacuation of the mountain?2. Which paragraph describes the moment of the explosion of Mount St. Helens?Questions 3 and 43. What are the dates of the TWO major eruptions of Mount St. Helens before 1980?Write TWO dates in box 3 on your answer sheet.4 How do scientists know that the volcano exploded around the two dates above?Using NO MORE THAN THREE WORDS , write your answer in box 4 on your answer sheetQuestions 5-8Complete the summary of events below leading up to the eruption of Mount St. Helens. Choose NO MORE THAN THREE WORDS from the passage for each answer.Write your answers in boxes 5-8 on your answer sheet.In 1979 the Geological Survey warned ... (5) ... to expect a violent eruption before the end of the century. The forecast was soon proved accurate. At the end of March there were tremors and clouds formed above the mountain. This was followed by a lull, but in early May the top of the mountain rose by ... (6)... . People were ...(7) ... from around the mountain. Finally, on May 18th at ...(8) ..., Mount St. Helens exploded.Question 9 and 10Complete the table below giving evidence for the power of the Mount St. Helens eruption.Write your answers in boxes 9 and 10 on your answer sheet.ItemEquivalent toExampleThe energy released by the explosion of Mount St. HelensAnswer500 nuclear bombsThe area of land covered in mud or ash...(9)...The quantity of dust ejected...(10)...Question 11Choose the appropriate letter A-D and write it in box 11 one your answer sheet.11. According to the text the eruption of Mount St. Helens and other volcanoes has influenced our climate by ...A increasing the amount of rainfall.B heating the atmosphere.C cooling the air temperature.D causing atmospheric storms.第三课时READING PASSAGE 2You should spend about 20 minutes on Questions 12-25 which and based on Reading Passage 2 on pages 6 and 7.Questions 12-16Reading Passage 2 has seven paragraphs A-G.Choose the most suitable headings for paragraphs B-E and G from the list of heading below.Write the appropriate numbers (i-x) in boxes 12-16 on your answer sheet.NB There are more headings than paragraphs so you will not use all of them.You may use any of the headings more than once.List of Headings(i) The effect of changing demographics on organisations(ii) Future changes in the European workforce(iii) The unstructured interview and its validity(iv) The person-skills match approach to selection(v) The implications of a poor person-environment fit(vi) Some poor selection decisions(vii) The validity of selection procedures(viii) The person-environment fit(ix) Past and future demographic changes in Europe(x) Adequate and inadequate explanations of organisational failureExample Paragraph A Answer (x)12. Paragraph B13. Paragraph C14. Paragraph D15. Paragraph EExample Paragraph F Answer (ix)16. Paragraph GPEOPLE AND ORGANISATIONS: THE SELECTION ISSUEA In 1991, according to the Department of Trade and Industry, a record 48,000 British companies went out of business. When businesses fail, the post-mortem analysis is traditionally undertaken by accountants and market strategists. Unarguably organisations do fail because of undercapitalisation, poor financial management, adverse market conditions etc. Yet, conversely, organisations with sound financial backing, good product ideas and market acumen often underperform and fail to meet shareholders' expectations. The complexity, degree and sustainment of organisational performance requires an explanation which goes beyond the balance sheet and the "paper conversion" of financial inputs into profit making outputs. A more complete explanation of "what went wrong" necessarily must consider the essence of what an organisation actually is and that one of the financial inputs, the most important and often the most expensive, is people.B An organisation is only as good as the people it employs. Selecting the right person for the job involves more than identifying the essential or desirable range of skills, educational and professional qualifications necessary to perform the job and then recruiting the candidate who is most likely to possess these skills or at least is perceived to have the ability and predisposition to acquire them. This is a purely person/skills match approach to selection.C Work invariably takes place in the presence and/or under the direction of others, in a particular organisational setting. The individual has to "fit" in with the work environment, with other employees, with the organisational climate, style or work, organisation and culture of the organisation. Different organisations have different cultures (Cartwright & Cooper, 1991; 1992). Working as an engineer at British Aerospace will not necessarily be a similar experience to working in the same capacity at GEC or Plessey.D Poor selection decisions are expensive. For example, the costs of training a policeman are about 20,000 (approx. US$ 30,000). The costs of employing an unsuitable technician on an oil rig or in a nuclear plant could, in an emergency, result in millions of pounds of damage or loss of life. The disharmony of a poor person-environment fit (PE-fit) is likely to result in low job satisfaction, lack of organisational commitment and employee stress, which affect organisational outcomes i.e. productivity, high labour turnover and absenteeism, and individual outcomes i.e. physical, psychological and mental well-being.E However, despite the importance of the recruitment decision and the range of sophisticated and more objective selection techniques available, including the use of psychometric tests, assessment centres etc., many organisations are still prepared to make this decision on the basis of a single 30 to 45 minute unstructured interview. Indeed, research has demonstrated that a selection decision is often made within the first four minutes of the interview. In the remaining time, the interviewer then attends exclusively to information that reinforces the initial "accept" or "reject" decision. Research into the validity of selection methods has consistently demonstrated that the unstructured interview, where the interviewer asks any questions he or she likes, is a poor predictor of future job performance and fares little better that more controversial methods like graphology and astrology. In times of high unemployment,! recruitment becomes a "buyer's market" and this was the case in Britain during the 1980s.F The future, we are told, is likely to be different. Detailed surveys of social and economic trends in the European community show that Europe's population is falling and getting older, The birth rate in the Community is now only three-quarters of the level needed to ensure replacement of the existing population. By the year 2020, it is predicted that more than one in four Europeans will be aged 60 or more and barely one in five will be under 20. In a five-year period between 1983 and 1988 the Community's female workforce grew by almost six million. As a result, 51% of all women aged 14 to 64 are now economically active in the labour market compared with 78% of men.G The changing demographics will not only affect selection ratios. They will also make it increasingly important for organisations wishing to mainta in their competitive edge to be more responsive and accommodating to the changing needs of their workforce if they are to retain and develop their human resources. More flexible working hours, the opportunity of work from home or job share, the provision of childcare facilities etc., will play a major role in attracting and retaining staff in the future.Questions 17-22Do the following statements agree with the views of the writer in Reading Passage 2?In boxes 17-22 on your answer sheet writeYES if the statement agrees with the writerNO if the statement does not agree with the writerNOT GIVEN if there is no information about this in the passage17. Organisations should recognise that their employees are a significant part of theirfinancial assets.18. Open-structured 45 minute interviews are the best method to identify suitable employees.19. The rise in the female workforce in the European Community is a positive trend.20. Graphology is a good predictor of future fob performance.21. In the future, the number of people in employable age groups will decline.22. In 2020, the percentage of the population under 20 will be smaller than now.Questions 23-25Complete the notes below with words taken from Reading Passage 2. Use NO MORE THAN ONE or TWO WORDS for each answer.Write your answers in boxes 23-25 on your answer sheet.第四课时READING PASSAGE 3You should spend about 20 minutes on Questions 26-38 which are based on Reading Passage 3 on pages 9 and 10."The Rollfilm Revolution"The introduction of the dry plate process brought with it many advantages. Not only was it much more convenient, so that the photographer no longer needed to prepare his material in advance, but its much greater sensitivity made possible a new generation of cameras. Instantaneous exposures had been possible before, but only with some difficulty and with special equipment and conditions. Now, exposures short enough to permit the camera to the held in the hand were easily achieved. As well as fitting shutters and viewfinders to their conventional stand cameras, manufacturers began to construct smaller cameras in tended specifically for hand use.One of the first designs to be published was Thomas Bolas' s 'Detective' camera of 1881. Externally a plain box, quite unlike the folding bellows camera typical of the period, it could be used unobtrusively. The name caught on, and for the next decade or so almost all hand cameral were called ' Detectives', Many. of the new designs in the 1880s were for magazine cameras, in which a number of dry plates could be pre-loaded and changed one after another following exposure. Although much more convenient than stand cameras, still used by most serious workers, magazine plate cameras were heavy, and required access to a darkroom for loading and processing the plates. This was all changed by a young American bank clerk turned photographic manufacturer, George Eastman, from Rochester, New York.Eastman had begun to manufacture gelatine dry plates in 1880. being one of the first to do so in America. He soon looked for ways of simplifying photography, believing that many people were put off by the complication and messiness. His first step was to develop, wih the camera manufacturer William H. Walker, a holder for a long roll of paper negative 'film'. This could be fitted to a standard plate camera and up to forty-eight exposures made before reloading. The combined weight of the paper roll and the holder was far less than the same number of glass plates in their ling-tight wooden holders. Although roll-holders had been made as early as the 1850s, none had been very successful be cause of the limitations of the photographic materials then available. Eastman's rollable paper film was sensitive and gave negatives of good quality; the Eastman-Walker roll-holder was a great success.The next step was to combine the roll-holder with a small hand camera; Eastman's first design was patented with an employee, F. M. Cossitt, in 1886. It was not a success. Only fifty Eastman detective cameras were made, and they were sold as a lot to a dealer in 1887; the cost was too high and the design too complicated. Eastman set about developing a new model, which was launched in June 1888. It was a small box, containing a roll of paperbased stripping film sufficient for 100 circular exposures 6 cm in diameter. Its operation was simple: set the shutter by pulling a wire string; aim the camera using the V line impression in the camera top; press the release botton to activate the exposure; and turn a special key to wind to the film. A hundred exposures had to be made, so it was important to record each picture in the memorandum book provided, since there was no exposure counter. Eastman gave his camera the invented name 'Kodak'-which was easily pronounceable in most languages. and had two Ks which Eastman felt was a firm, uncompromising kind of letter.The importance of Eastman's new roll-film camera was not that it was the first. There had been several earlier cameras, notably the Stirn 'America', first demonstrated in the spring of 1887 and on sale from early 1888. This also used a roll of negative paper, and had such refinements as a reflecting viewfinder and an ingenious exposure marker. The real significance of the first Kodak camera was that it was backed up by a developing and printing service. Hitherto ,virtually all photographers developed and printed their own pictures. This required that facilities of a darkroom and the time and inclination to handle the necessary chemicals, make the prints and so on. Eastman recognized that not everyone had the resources or the desire to do this. When a customer had made a hundred exposures in the Kodak camera, he sent it to Eastman's factory in Rochester (or later in Harrow in England) where the film was unloaded, processed and printed, the camera reloaded and returned to the owner. "You Press the Button, We Do the Rest" ran Eastman's classic marketing slogan; photography had been brought to everyone. Everyone, that is, who could afford $ 25 or five guineas for the camera and $ 10 or two guineas for the developing and printing . A guinea ( $ 5 ) was a week's wages for many at the time, so this simple camera cost the equivalent of hundreds of dollars today.In 1889 an improved model with a new shutter design was introduced, and it was called the No. 2 Kodak camera. The paper-based stripping film was complicated to manipulate, since the processed negative image had to be stripped from the paper base for printing. At the end of 1889 Eastman launched a new roll film on a celluloid base. Clear, tough, transparent and flexible, the new film not only made the rollfilm camera fully practical, but provided the raw material for the introduction of cinematography a few years later. Other, larger models were introduced, including several folding versions, one of which took pictures 21.6 cm x 16.5 cm in size. Other manufacturers in America and Europe introduced cameras to take the Kodak roll-films, and other firms began to offer developing and printing services for the benefit of the new breed of photographers.By September 1889 , over 5,000 Kodak cameras had been sold in the USA, and the company was daily printing 6-7,000 negatives, Holidays and special events created enormous surges in demand for processing: 900 Kodak users returned their cameras for processing and reloading in the week after the New York centennial celebration.Questions 26-29Do the following statements agree with the views of the writer in Reading Passage 3?In boxes 26-29 on your answer sheet writeYES if the statement agrees with the writerNO if the statement does agree with the writerNOT GIVEN if there is no information about this in the passage26. Before the dry plate process short exposures could only b achieved with cameras held in the hand.27. Stirn's America' camera lacked Kodak's developing service.28. The first Kodak film cost the equivalent of a week's wages to develop.29. Some of Eastman's 1891 range of cameras could be loaded in daylight.Questions 30-34Complete the diagram below. Choose NO MORE THAN THREE WORDS from the passage for each answer.Write your answers in boxes 30-34 on your answer sheet.Questions 35-38Complete the table below. Choose NO MORE THAN THREE WORDS from the passage for each answer.Write your answers in boxes 35-38 on your answer sheet.YearDevelopmentsName of person/people1880Manufacture of gelatine dry plates.....(35).....1881Release of 'Detective' cameraThomas Bolas.....(36).....The roll-holder combined with .....(37).....Eastman and F.M. Cossitt1889Introduction of model with .....(38).....EastmanACADEMIC READING-ANSWER KEYEach question correctly answered scores 1 mark.Reading Passage 1, Questions 1-111. E2. F3. 1900 B.C. AND A.D. 1500 (Both for 1 mark.) NOT 1900 AND 15004. (according to/from)geological evidence/signs/data5. (the) local population //inhabitants6. 500/five hundred feet/ft7. evacuated8. 8.32 (a.m. /in the morning)9. (nearly)200 square miles NOT200 miles10. (a)quarter/1/4 of (a) cubic mile11. CReading Passage 2, Questions 12-2512. (iv)13. (viii)14. (v)15. (iii)16. (i)17. YES18. NO19. NOT GIVEN20. NO21. YES22. YES23. organisational outcomes24. individual outcomes25. absenteeismReading Passage 3, Questions 26-3826. NO27. YES28. NO29. NOT GIVEN30. wind on (the) film_31. (a) wire string32. set (the) shutter33. (the) memorandum book34. record each picture/exposure35. (George) Eastman36. 188637. (a) (small) hand camera38. (a) new shutter(design)第五课时READING PASSAGE 1You are advised to spend about 20 minutes on Questions 1 - 15 which are based on Reading Passage 1.The Birth Of The MicrowaveA Chances are, you'll use a microwave oven at least once this week-probably (according to research) for heating up leftovers or defrosting something. Microwave ovens are so common today that it's easy to forget how rare they once were. As late as 1977, only 10% of U.S. homes had one. By 1995, 85% of households had at least one. Today, more people own microwaves than own dishwashers.B Magnetrons, the tubes that produce microwaves, were invented by British scientists in 1940. They were used in radar systems during World War II, and were instrumental in detecting German planes during the Battle of Britain. These tubes—which are sort of like TV picture tubes—might still be strictly military hardware if Percy Spencer, an engineer at Raytheon (a U.S. defense contractor), hadn't stepped in front of one in 1946. He had a chocolate bar in his pocket; when he went to eat it a few minutes later, he found that the chocolate had almost completely melted. That didn't make sense. Spencer wasn't hot—how could the chocolate bar be? He suspected the magnetron was responsible, so he tried an experiment. He put a bag of popcorn kernels in the tube. Seconds later, they popped. The next day, Spencer brought eggs and an old tea-kettle to work. He cut a hole in the side of the kettle, put an egg in it, an laced it next to the magnetron. Just as a colleague went to see what was happening, the egg exploded.C Spencer shared his discovery with his employers at Raytheon, and suggested manufacturing magnetron-powered ovens to sell to the public. Raytheon was interested. They had the capacity to produce 10,000 magnetron tubes per week, but with World War II over, military purchases had been cut down to almost nothing. What is the better way to recover lost sales than to put a radar set disguised as a microwave oven in every American home? Raytheon agreed to back the project. The company patented the first "high frequency dielectric heating apparatus" in 1953. Then they held a contest to find a name for their product. Some came up with "Radar Range", which was later combined into the single word—Radarange.D Raytheon had a great product idea and a great name, but they didn't have an oven anyone could afford. The 1953 model was 51/2 feet tall, weighed more than 750 pounds, and cost $3000. Over the next 20 years, railroads, ocean liners and high-end restaurants were virtually the only Radarange customers. In 1955, a company called Tappan introduced the first microwave oven for average consumers; it was smaller than the Radarange, but still cost $1,295—more than some small homes. Then in 1964, a Japanese company perfected a miniaturized magnetron, and Raytheon soon after introduced a Radarange that used the new magnetron. It sold for $495. But that was still too expensive for the average American family. Finally, in the 1980s, technical improvements lowered the price and improve the quality enough to make microwave ovens both affordable and practical. By 1988, 10% of all new food products in the U.S were microwaveable.E Here is the first thing you should know about "microwaves": Like visible light, radio waves and X-rays, they are waves of electromagnetic energy. What makes the four waves different from each other? Each has a different length (wavelength) and vibrates at a different speed (frequency). Microwaves get their name because their wavelength is much shorter than electromagnetic waves that carry TV and radio signals. The microwaves in a microwave oven have a wavelength o about four inches, and they vibrate 2.5 billion times per second—about the same natural frequency as water molecules. That's what at makes them so effective at heating food. A conventional oven heats the air in the oven, which then cooks the food. But microwaves cause water molecules in the food to vibrate at high speeds, creating heat. The heated water molecules are what cook the food. Glass, ceramics and plastics contain virtually no water molecules, which is why they don't heat up in the microwave. When the microwave oven is turned on, electricity passes through the magnetron, the tube that produces microwaves. The microwaves are then channeled down a metal tube (waveguide) and through a slow rotating metal fan (stirrer), which scatters them into the part of the oven where the food is placed. The walls of the oven are made of metal, which reflects microwaves the same way that a mirror reflects visible light. So when the microwaves hit the stirrer and are scattered into the food chamber, they bounce off the metal walls and penetrate the food from every direction. Some ovens have a rotating turntable that helps food cook more evenly.F Do microwaves cook food from the inside out? Some people think so, but the answer seems to be no. Microwaves cook food from the outside in, like conventional ovens. But the microwave energy only penetrates about an inch into the food. The heat that's created by the water molecules then penetrates deeper into the food, cooking it all the way through. This secondary cooking process is known as "conduction".G When sales of microwave ovens took off in the late 1980s, millions of cooks discovered the same thing: Microwaves just don't cook some foods as well as regular ovens do. The reason: Because microwaves cook by exciting the water molecules in food, the food inside the microwave oven rarely cooks at temperature higher than 212°F, the temperature at which water turns to steam. Conventional ovens, on the other hand, cook to temperatures as high as 550°F. High temperatures are needed to caramelize sugars and break down proteins, carbohydrates and other substances, and combine them into more complex flavors. So, microwave oven can't do any of this, and it can't bake, either. Some people feel this is the microwave's Achilles heel. "The name 'microwave oven' is a misnomer," says Cindy Ayers, an executive with Campbell Soup. "It doesn't do what an oven does." "It's a glorified popcorn popper," says Tom Vierhile, a researcher with Marketing Intelligence, a newsletter that tracks microwave sales. "When the microwave first came out, people thought they had stumbled on nirvana. It's not the appliance the food industry thought it would be. It's a major disappointment." Adds one cooking critic: "Microwave sales are still strong, but time will tell whether they have a future in the American kitchen."Questions 1 - 6Reading Passage 1 has seven paragraphs A - G. State which paragraph discusses each of the points below. Write the appropriate letters A - G in boxes 1 - 6 on your answer sheet.Examples The Discovery That Spencer MadeAnswer B1. The Introduction of the Radarange2. The Conduction Process of Heating Food3. Basic Cooking Method of Microwave oven4. The Commercial Development of the Microwave5. Popularity of Microwaves Today6. Limitations of the MicrowaveQuestions 7 - 11Complete the summary below with the word taken from each blank. Write your answers in boxes 7 - 11 in your answer sheet. Use NO MORE THAN ONE WORD for each blank.Before magnetrons were used for microwaves they were primarily used (7) systems. Microwaves have much (8) wavelength than electromagnetic waves. Why do microwaves cook so fast? The reason that regular ovens cook so slowly is because ovens heat air molecules first, while microwaves heat (9) molecules first. Microwave ovens cook food in any direction because when the microwaves hits the metal walls in a microwave they (10) off the metal walls. The process that allows microwaves to cook food from the outside to the inside may best be called "heat transfer by (11) ."Questions 12 - 15Do the following statements agree with the information given in Reading Passage 1? Write your answers in boxes 12 - 15 on your answer sheet.YES if the statement agrees with the informationNO if the statement contradicts the informationNOT GIVEN if there is no information on this in the passage12. Spencer invented magnetrons.13. Regular ovens are better at breaking down sugars because they heat them at a lower temperature.14. Raytheon couldn't make money out of microwave ovens at first.15. In the future, microwave sales are not likely to be as good as they were in the past.练习一Garbage In, Garbage Out