We all know something about Thomas Edison. He was a great American1.He was in school for only a short time.2, he had to leave the school and 3himself at home and learned a lot. When Edison grew up, he had his own lab. He worked hard and hardly4to have a rest.
One day a friend of his brought a young man into his lab. He 5the young man to Edison. He said the young man had studied in a famous university in Germany and had a lot of6of physics and maths. Edison was glad to work with a man like him and7him as a helper. A few weeks later, the young8about Edison’s past. He began to look down on him. Edison9about it, but he said10.
Once the young man came into the lab while Edison11an important experiment. He stood near the table12he didn’t help him. Edison stopped13out a bottle and said, “Go to calculate (计算)its volume(容积)and tell me the14in two hours.”
At first the young man thought it easy to do it. Soon he15it difficult. Two hours later Edison went into his office and saw a lot of paper and books on his desk. Of course he couldn’t compute the volume in the time16.
“Why not pour some17into the bottle?” said Edison. “Then you’1118calculate its volume!” Having heard this, the young man’s19turned red, and he knew Edison was really20than him!

  1. 1.
    1. A.
      doctor
    2. B.
      player
    3. C.
      writer
    4. D.
      inventor
  2. 2.
    1. A.
      Soon
    2. B.
      After
    3. C.
      Later on
    4. D.
      Soon after
  3. 3.
    1. A.
      teach
    2. B.
      play with
    3. C.
      study
    4. D.
      enjoy
  4. 4.
    1. A.
      forgot
    2. B.
      remembered
    3. C.
      finished
    4. D.
      observed
  5. 5.
    1. A.
      showed
    2. B.
      pushed
    3. C.
      introduced
    4. D.
      threw
  6. 6.
    1. A.
      news
    2. B.
      books
    3. C.
      knowledge
    4. D.
      dictionaries
  7. 7.
    1. A.
      employed
    2. B.
      asked
    3. C.
      made
    4. D.
      watched
  8. 8.
    1. A.
      beard
    2. B.
      learned
    3. C.
      read
    4. D.
      told
  9. 9.
    1. A.
      told
    2. B.
      was told
    3. C.
      said
    4. D.
      was said
  10. 10.
    1. A.
      something
    2. B.
      everything
    3. C.
      nothing
    4. D.
      all
  11. 11.
    1. A.
      did
    2. B.
      had
    3. C.
      was doing
    4. D.
      was having
  12. 12.
    1. A.
      but
    2. B.
      and
    3. C.
      as
    4. D.
      while
  13. 13.
    1. A.
      bringing
    2. B.
      to bring
    3. C.
      taking
    4. D.
      to take
  14. 14.
    1. A.
      result
    2. B.
      way
    3. C.
      idea
    4. D.
      opinion
  15. 15.
    1. A.
      knew
    2. B.
      saw
    3. C.
      learned
    4. D.
      found
  16. 16.
    1. A.
      given
    2. B.
      followed
    3. C.
      said
    4. D.
      taken
  17. 17.
    1. A.
      oil
    2. B.
      salt
    3. C.
      water
    4. D.
      food
  18. 18.
    1. A.
      carefully
    2. B.
      slowly
    3. C.
      easily
    4. D.
      quietly
  19. 19.
    1. A.
      head
    2. B.
      face
    3. C.
      eyes
    4. D.
      ears
  20. 20.
    1. A.
      more polite
    2. B.
      stricter
    3. C.
      more kind-hearted
    4. D.
      cleverer


D
A mysterious machine found in a 2,000-year-old Greek shipwreck may have been used to calculate the positions of planets, predict when eclipses (日、月蚀) were to occur, and study other parts of astronomy (天文学). When it was found underwater about 100 years ago, the machine was in poor shape. Its metal pieces had become one mass (堆), and then broke into pieces.
When the researchers began to study what was left of the machine, they thought it might have something to do with astronomy. To find out more, they recently used advanced imaging methods, including X-ray computer tomography (断层摄影术), to look inside the metal parts and to check for ancient writing on the machine.
According to their research, the researchers believed that this machine could have been used to compute eclipses of the sun and moon and was also able to show the movements of planets. A user could pick a day in the future and, work out a planet’s position on that date by moving some sort of crank (曲柄) on the machine.
Besides, the researchers discovered that the machine had at least 30 bronze gears (齿轮) with as many as 225 teeth, likely all cut by hand.
With all the collected information, the researchers came up with a new model for how the machine operated. The model has 29 of the 30 known gears and five more that were probably there but never found. Also,the new picture adds a previously undiscovered spiral dial (螺旋刻度盘) to the back of the machine near the bottom. A hand moving around the dial could have pointed to eclipses over a period of 18 years.
71. The passage is most probably taken from _____.
A. a short-story collection
B. a popular science magazine
C. a political report
D. an old personal diary
72. What is the passage mainly about?
A. New research on calculating the positions of planets.
B. A popular way of computing eclipses of the sun and moon.
C. Scientists’ interest in the secrets of a 2,000-year-old Greek shipwreck.
D. A mysterious machine which could be used for astronomical research.
73. What do we learn from the third paragraph of the passage?
A. The machine might have been used to calculate the positions of the planets.
B. Scientists made great progress in predicting eclipses of the sun and moon.
C. The researchers discovered some secrets in the Greek shipwreck.
D. The machine can be of great help for people working out the sizes of planets.
74. The researchers made a new model because they____.
A. wished to repair the broken machine
B. wanted to study the shipwreck more conveniently
C. hoped to know how the machine worked
D. expected it to be used in modern scientific research
75. Which of the following statements is TRUE about the old machine?
A. It has 35 gears on it.
B. It has a spiral dial.
C. It was invented about 100 years ago.
D. Its gears have many teeth.


We all know something about Thomas Edison. He was a great American   21  .He was in school for only a short time.  22 , he had to leave the school and   23  himself at home and learned a lot. When Edison grew up, he had his own lab. He worked hard and hardly   24  to have a rest.
One day a friend of his brought a young man into his lab. He   25  the young man to Edison. He said the young man had studied in a famous university in Germany and had a lot of   26  of physics and maths. Edison was glad to work with a man like him and   27  him as a helper. A few weeks later, the young   28  about Edison’s past. He began to look down on him. Edison   29  about it, but he said   30  .
Once the young man came into the lab while Edison   31  an important experiment. He stood near the table   32  he didn’t help him. Edison stopped   33  out a bottle and said, “Go to calculate (计算)its volume(容积)and tell me the   34  in two hours.”
At first the young man thought it easy to do it. Soon he   35  it difficult. Two hours later Edison went into his office and saw a lot of paper and books on his desk. Of course he couldn’t compute the volume in the time   36  .
“Why not pour some   37  into the bottle?” said Edison. “Then you’ll   38  calculate its volume!” Having heard this, the young man’s   39  turned red, and he knew Edison was really   40 than him!

【小题1】
A.doctorB.playerC.writerD.inventor
【小题2】
A.SoonB.AfterC.Later onD.Soon after
【小题3】
A.teachB.play withC.studyD.enjoy
【小题4】
A.forgotB.rememberedC.finished D.observed
【小题5】
A.showedB.pushedC.introducedD.threw
【小题6】
A.newsB.booksC.knowledgeD.dictionaries
【小题7】
A.employedB.askedC.madeD.watched
【小题8】
A.beardB.learnedC.readD.told
【小题9】
A.toldB.was toldC.saidD.was said
【小题10】
A.somethingB.everythingC.nothingD.all
【小题11】
A.didB.hadC.was doingD.was having
【小题12】
A.but B.andC.as D.while
【小题13】
A.bringingB.to bringC.takingD.to take
【小题14】
A.resultB.way C.ideaD.opinion
【小题15】
A.knewB.sawC.learnedD.found
【小题16】
A.givenB.followedC.saidD.taken
【小题17】
A.oilB.saltC.waterD.food
【小题18】
A.carefullyB.slowlyC.easilyD.quietly
【小题19】
A.headB.faceC.eyesD.ears
【小题20】
A.more politeB.stricterC.more kind-heartedD.cleverer

D

A mysterious machine found in a 2,000-year-old Greek shipwreck may have been used to calculate the positions of planets, predict when eclipses (日、月蚀) were to occur, and study other parts of astronomy (天文学). When it was found underwater about 100 years ago, the machine was in poor shape. Its metal pieces had become one mass (堆), and then broke into pieces.

When the researchers began to study what was left of the machine, they thought it might have something to do with astronomy. To find out more, they recently used advanced imaging methods, including X-ray computer tomography (断层摄影术), to look inside the metal parts and to check for ancient writing on the machine.

According to their research, the researchers believed that this machine could have been used to compute eclipses of the sun and moon and was also able to show the movements of planets. A user could pick a day in the future and, work out a planet’s position on that date by moving some sort of crank (曲柄) on the machine.

Besides, the researchers discovered that the machine had at least 30 bronze gears (齿轮) with as many as 225 teeth, likely all cut by hand.

With all the collected information, the researchers came up with a new model for how the machine operated. The model has 29 of the 30 known gears and five more that were probably there but never found. Also,the new picture adds a previously undiscovered spiral dial (螺旋刻度盘) to the back of the machine near the bottom. A hand moving around the dial could have pointed to eclipses over a period of 18 years.

71. The passage is most probably taken from _____.

A. a short-story collection

B. a popular science magazine

C. a political report

D. an old personal diary

72. What is the passage mainly about?

A. New research on calculating the positions of planets.

B. A popular way of computing eclipses of the sun and moon.

C. Scientists’ interest in the secrets of a 2,000-year-old Greek shipwreck.

D. A mysterious machine which could be used for astronomical research.

73. What do we learn from the third paragraph of the passage?

A. The machine might have been used to calculate the positions of the planets.

B. Scientists made great progress in predicting eclipses of the sun and moon.

C. The researchers discovered some secrets in the Greek shipwreck.

D. The machine can be of great help for people working out the sizes of planets.

74. The researchers made a new model because they____.

A. wished to repair the broken machine

B. wanted to study the shipwreck more conveniently

C. hoped to know how the machine worked

D. expected it to be used in modern scientific research

75. Which of the following statements is TRUE about the old machine?

A. It has 35 gears on it.

B. It has a spiral dial.

C. It was invented about 100 years ago.

D. Its gears have many teeth.

 

The earth’s most rich resource—water has become one of the most precious resources in the United States as rivers, lakes, and freshwater reservoirs are increasingly exploited for human use. Consequently, using precise farming techniques to refine “irrigation scheduling” is a research area of particular interest to Susan Moran, a researcher with the US department of Agriculture. She explains that in the southwest, irrigation is both difficult and expensive. There, she says, farmers have a tendency to over irrigate, spending both more time and money than is necessary.

“I’m trying to provide new information that could be used by farmers to schedule irrigations to improve their profitability and use less water,” Moran says. “Farmers often look at weather changes and then schedule irrigation based on that information. But if they had better information, they could use scientific models to compute more precisely how much water their crop is using. ”

Rather than guessing their crop’s potential need for water based upon weather changes, farmers can use remote sensors to measure how much water their crop is actually using. This would give them a more accurate measure of how much more water it needs.

Moran believes that if farmers are getting good and timely measurements of plant and air temperature, then they can program when and how much water to give each crop through an irrigation system. No more water would be used than needed, thus saving cost and conserving water.

Moran introduces one study she conducted in Arizona to investigate the use of remote sensing data for scheduling cotton irrigations. Typically, those farmers irrigate ten times per growing season, but evidence showed that some of those farmers could achieve basically the same harvest with only nine irrigations.

“In those cases, one less irrigation saved more than all the cost of remote sensing data,” she states. “Both irrigation and satellite remote sensing data are expensive. But then again many farmers are used to wording together as a group. They are used to sharing. I’m hoping they could do the same with remote sensing data—purchase one scene over a large area to cover many farms, which would further reduce the cost. ”

46. What does Moran think is the problem with farmers?

A. Over-used reservoirs.                          B. Precision farming.

C. Irrigation researches.                           D. Over-irrigation.

47. How can farmers get the new information about their crop?

A. To reschedule irrigation as required.

B. To watch weather changes regularly.

C. To use remote sensors as researchers suggest.

D. To use scientific models since computing is more reliable.

48. What do farmers check upon when they decide how much water each crop needs?

A. Profitability.       B. Remote sensors.     C. The cost.            D. Air temperature.

49. What’s the purpose of Moran introducing the study she carried out in Arizona?

A. To investigate the use of remote sensing data.

B. To support her viewpoint in the previous paragraph.

C. To show how farmers can reap a harvest.

D. To criticize those farmers who used too much water.

50. What is among the best possible ways to help save farmers’ money?

A. Changing irrigation.                             B. Sharing sensing data.

C. Buying one computer.                          D. Extending the farms.

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