What exactly is intelligence? There aren’t any easy answers.Despite the progress that has been made in genetics and psychology, human intelligence has remained one of the most controversial areas of modern science,until now, that is, for the discovery of a gene linked to intelligence has made the experts think again.
Robert Plomin of the Institute of Psychiatry in London and his colleagues in the US have been looking into genetic make-up.From their research, they have discovered that a slightly different gene is more common in those with a high IQ.Plomin analyzed DNA from two groups of 51 children aged between 6 and 15.What he found was that the first group had an IQ of 136, putting them in the top 5% of the population, while the other group had an average IQ of 103.An analysis of their genes showed that 32% of children in the higher group had the gene in question, while only 16% in the second group did.However, there is a lot more research to be done, and Plomin himself is cautious at this early stage.He suggests that there are probably many genes that contribute to intelligence, rather than just one. Several studies have shown a strong link between IQ and career success, although some psychologists remain unconvinced about this.Professor Michael Rowe, who has written a book called Genius Explained, is one of these.“The people with the highest IQs are not usually the ones who do best in their careers.”
Many psychologists now believe that when it comes to intelligence, IQ isn’t everything.Many alternative views have been put forward recently.One example is the idea of multiple intelligences, which was developed in the 1980s by Harvard psychologist Howard Gardner.This offers a much broader view than the IQ theory, including creativity and communication skills as relevant factors in intelligence.
Tony Buzan, brain expert and author of Master your Memory, is enthusiastic about this belief, arguing that true geniuses do indeed appear to combine high levels of each type of intelligence.He lists Alexander the Great, Pablo Picasso and Albert Einstein as examples.At the same time, Buzan believes that everyone can develop their intelligence, only if they take the trouble to exercise their brain.Perhaps there’s hope for us all!
1.What does the underlined word “This” in Paragraph 3 refer to?
A.The development of intelligence
B.The idea of multiple intelligences
C.IQ isn’t everything for intelligence
D.Alternative views have been put forward
2.Why does the author use data in Paragraph 2?
A.To make a suggestion. B.To draw a conclusion
C.To prove an idea. D.To give an example
3.What can we learn from the passage?
A.Robert Plomin confirms genes have something in common
B.Howard Gardner thinks intelligence includes various factors
C.Michael Rowe approves of a strong link between IQ and career
D.Tony Buzan agrees geniuses exercise brain to improve intelligence
4.What might be the best title of the passage?
A.The relationship between genes and intelligence
B.IQ benefits a lot from high intelligence
C.How to develop intelligence.
D.What makes intelligence.
1.B
2.C
3.B
4.D
【解析】
試題分析:文章介紹了什么是智力?盡管這方面在遺傳和心理方面取得了很大的進(jìn)步,但這一話題仍是現(xiàn)代科學(xué)最有爭議的話題之一,基因的組成被發(fā)現(xiàn)以后,遺傳對智力的影響成了科學(xué)上研究的一個重要方面。同時也說明了智力并不只是受一個方面的影響,因此下文中又出現(xiàn)了多元智力。
1.B細(xì)節(jié)理解。One example is the idea of multiple intelligences, which was developed in the 1980s by Harvard psychologist Howard Gardner.This offers a much broader view than the IQ theory,句意為:其中的一個例子就是多元智力,它是在二十世紀(jì)八十年代由哈佛心理學(xué)家Howard Gardner發(fā)起的,這就提供了比智商理論更為廣闊的觀點。所以答案應(yīng)是多元智力,故為B。
2.C細(xì)節(jié)理解題。From their research, they have discovered that a slightly different gene is more common in those with a high IQ.從他們的研究中,他們已經(jīng)發(fā)現(xiàn),在高智商的這些人中,他們的基因都有稍微的不同這點是相同的。.An analysis of their genes showed that 32% of children in the higher group had the gene in question,分析顯示,在高智商的小孩兒中有百分之三十二都有思考問題的基因。所以下文他們用的數(shù)據(jù)是為了來證明這一觀點。故答案應(yīng)為C。
3.B細(xì)節(jié)理解題。Many psychologists now believe that when it comes to intelligence, IQ isn’t everything.Many alternative views have been put forward recently.One example is the idea of multiple intelligences, which was developed in the 1980s by Harvard psychologist Howard Gardner.許多心理學(xué)家認(rèn)為,當(dāng)談到智力的時候,智商并不代表一切,許多新的觀點已經(jīng)被提出,其中包括多元智力說。由此可知Howard Gardner認(rèn)為,智力包括多個因素是正確的。故答案為B
4.D綜合理解題。由文章的第一自然段What exactly is intelligence?開篇,下文均是圍繞這一問題展開,由此可知答案為D。
考點: 科普類文章的閱讀。
科目:高中英語 來源: 題型:閱讀理解
Scientists who try to predict earthquakes have gotten some new helpers recently—animals.
That’s right, animals. Scientists have begun to understand what farmers have known for thousands of years. Animals often seem to know in advance that an earthquake is coming, and they show their fear by acting in strange ways. Before a Chinese quake in 1975, snakes awoke from their winter sleep early only to freeze to death in the cold air. Cows broke their halters (韁繩) and tried to escape. Chickens refused to enter their cage. All of this unusual behavior, as well as physical changes in the earth, warned Chinese scientists of the coming quake. They moved people away from the danger zone and saved thousands of lives.
One task for scientists today is to learn exactly which types of animal behavior predict quakes. It’s not an easy job. First of all not every animal reacts to the danger of an earthquake. Just before a California quake in 1977, for example, an Arabian horse became very nervous and tried to break out of his enclosure. The Australian horse next to him, however, remained perfectly calm. It’s also difficult at times to tell the difference between normal animal restlessness and “earthquake nerves”. A zoo keeper once called earthquake researchers to say that his cougar had been acting strangely. It turned out that the cat had an upset stomach.
A second task for scientists is to find out exactly what kind of warnings the animals receive. They know that animals sense far more of the world than humans do. Many animals can see, hear, and smell things that people do not even notice. Some can sense tiny changes in air pressure, gravity, or the magnetism of Earth. This extra sense probably helps animals predict quakes.
A good example of this occurred with a group of dogs. They were shut in an area that was being shaken by a series of tiny earthquakes. (Several small quakes often come before or after a large one.) Before each quake a low booming sound was heard. Each boom caused the dogs to bark wildly. Then the dogs began to bark during a silent period. A scientist who was recording quakes looked at his machine. It was acting as though there were a loud noise too. The scientist realized that the dogs had reacted to a booming noise. They also sensed the tiny quake that followed it. The machine recorded both, though humans felt and heard nothing.
In this case there was a machine to monitor what the dogs were sensing. Many times, however, our machines record nothing extraordinary, even though animals know a quake is coming. The animals might be sensing something we measure but do not recognize as a warning. Discovering what animals sense, and learning how they know it is a danger signal, is a job for future scientists.
Through the passage the writer hopes to explore __________.
A. why animals send a danger signal before an earthquake
B. how animals know when an earthquake is coming
C. why animals not men have good sense of danger
D. how much animals know about an earthquake
During an earthquake in China in 1975, _________.
A. chickens refused to go out of their cage
B. snakes were frozen to death in their caves
C. snakes awoke from their winter sleep earlier
D. cows broke their halters and escaped from their sheds
Which of the following is one of earthquake nerves according to the passage?
A. An Arabian horse tried to escape from his enclosure.
B. A cougar had an upset stomach unexpectedly.
C. An Australian horse was perfectly calm.
D. A cat acted very strangely in a zoo.
The scientists did an experiment with a group of dogs to _________.
A. find out that the machine could record unusual happenings
B. compare the reactions of animals and those of humans
C. prove that animals could sense more than humans
D. find out what exact warnings animals sent
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Scientists who try to predict earthquakes have gotten some new helpers recently—animals.
That’s right, animals. Scientists have begun to understand what farmers have known for thousands of years. Animals often seem to know in advance that an earthquake is coming, and they show their fear by acting in strange ways. Before a Chinese quake in 1975, snakes awoke from their winter sleep early only to freeze to death in the cold air. Cows broke their halters (韁繩) and tried to escape. Chickens refused to enter their cage. All of this unusual behavior, as well as physical changes in the earth, warned Chinese scientists of the coming quake. They moved people away from the danger zone and saved thousands of lives.
One task for scientists today is to learn exactly which types of animal behavior predict quakes. It’s not an easy job. First of all not every animal reacts to the danger of an earthquake. Just before a California quake in 1977, for example, an Arabian horse became very nervous and tried to break out of his enclosure. The Australian horse next to him, however, remained perfectly calm. It’s also difficult at times to tell the difference between normal animal restlessness and “earthquake nerves”. A zoo keeper once called earthquake researchers to say that his cougar had been acting strangely. It turned out that the cat had an upset stomach.
A second task for scientists is to find out exactly what kind of warnings the animals receive. They know that animals sense far more of the world than humans do. Many animals can see, hear, and smell things that people do not even notice. Some can sense tiny changes in air pressure, gravity, or the magnetism of Earth. This extra sense probably helps animals predict quakes.
A good example of this occurred with a group of dogs. They were shut in an area that was being shaken by a series of tiny earthquakes. (Several small quakes often come before or after a large one.) Before each quake a low booming sound was heard. Each boom caused the dogs to bark wildly. Then the dogs began to bark during a silent period. A scientist who was recording quakes looked at his machine. It was acting as though there were a loud noise too. The scientist realized that the dogs had reacted to a booming noise. They also sensed the tiny quake that followed it. The machine recorded both, though humans felt and heard nothing.
In this case there was a machine to monitor what the dogs were sensing. Many times, however, our machines record nothing extraordinary, even though animals know a quake is coming. The animals might be sensing something we measure but do not recognize as a warning. Discovering what animals sense, and learning how they know it is a danger signal, is a job for future scientists.
【小題1】Through the passage the writer hopes to explore __________.
A.why animals send a danger signal before an earthquake |
B.how animals know when an earthquake is coming |
C.why animals not men have good sense of danger |
D.how much animals know about an earthquake |
A.chickens refused to go out of their cage |
B.snakes were frozen to death in their caves |
C.snakes awoke from their winter sleep earlier |
D.cows broke their halters and escaped from their sheds |
A.An Arabian horse tried to escape from his enclosure. |
B.A cougar had an upset stomach unexpectedly. |
C.An Australian horse was perfectly calm. |
D.A cat acted very strangely in a zoo. |
A.find out that the machine could record unusual happenings |
B.compare the reactions of animals and those of humans |
C.prove that animals could sense more than humans |
D.find out what exact warnings animals sent |
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Scientists who try to predict earthquakes have gotten some new helpers recently—animals.
That’s right, animals. Scientists have begun to understand what farmers have known for thousands of years. Animals often seem to know in advance that an earthquake is coming, and they show their fear by acting in strange ways. Before a Chinese quake in 1975, snakes awoke from their winter sleep early only to freeze to death in the cold air. Cows broke their halters (韁繩) and tried to escape. Chickens refused to enter their cage. All of this unusual behavior, as well as physical changes in the earth, warned Chinese scientists of the coming quake. They moved people away from the danger zone and saved thousands of lives.
One task for scientists today is to learn exactly which types of animal behavior predict quakes. It’s not an easy job. First of all not every animal reacts to the danger of an earthquake. Just before a California quake in 1977, for example, an Arabian horse became very nervous and tried to break out of his enclosure. The Australian horse next to him, however, remained perfectly calm. It’s also difficult at times to tell the difference between normal animal restlessness and “earthquake nerves”. A zoo keeper once called earthquake researchers to say that his cougar had been acting strangely. It turned out that the cat had an upset stomach.
A second task for scientists is to find out exactly what kind of warnings the animals receive. They know that animals sense far more of the world than humans do. Many animals can see, hear, and smell things that people do not even notice. Some can sense tiny changes in air pressure, gravity, or the magnetism of Earth. This extra sense probably helps animals predict quakes.
A good example of this occurred with a group of dogs. They were shut in an area that was being shaken by a series of tiny earthquakes. (Several small quakes often come before or after a large one.) Before each quake a low booming sound was heard. Each boom caused the dogs to bark wildly. Then the dogs began to bark during a silent period. A scientist who was recording quakes looked at his machine. It was acting as though there were a loud noise too. The scientist realized that the dogs had reacted to a booming noise. They also sensed the tiny quake that followed it. The machine recorded both, though humans felt and heard nothing.
In this case there was a machine to monitor what the dogs were sensing. Many times, however, our machines record nothing extraordinary, even though animals know a quake is coming. The animals might be sensing something we measure but do not recognize as a warning. Discovering what animals sense, and learning how they know it is a danger signal, is a job for future scientists.
1.Through the passage the writer hopes to explore __________.
A.why animals send a danger signal before an earthquake |
B.how animals know when an earthquake is coming |
C.why animals not men have good sense of danger |
D.how much animals know about an earthquake |
2. During an earthquake in China in 1975, _________.
A.chickens refused to go out of their cage |
B.snakes were frozen to death in their caves |
C.snakes awoke from their winter sleep earlier |
D.cows broke their halters and escaped from their sheds |
3.Which of the following is one of earthquake nerves according to the passage?
A.An Arabian horse tried to escape from his enclosure. |
B.A cougar had an upset stomach unexpectedly. |
C.An Australian horse was perfectly calm. |
D.A cat acted very strangely in a zoo. |
4.The scientists did an experiment with a group of dogs to _________.
A.find out that the machine could record unusual happenings |
B.compare the reactions of animals and those of humans |
C.prove that animals could sense more than humans |
D.find out what exact warnings animals sent |
查看答案和解析>>
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Scientists who try to predict earthquakes have gotten some new helpers recently—animals.
That's right, animals. Scientists have begun to understand what farmers have known for thousands of years. Animals often seem to know in advance that an earthquake is coming, and they show their fear by acting in strange ways. Before a Chinese quake in 1975, snakes awoke from their winter sleep early only to freeze to death in the cold air. Cows broke their halters(韁繩) and tried to escape.Chickens refused to enter their cage. All of this unusual behavior, as well as physical changes in the earth, warned Chinese scientists of the coming quake. They moved people away from the danger zone and saved thousands of lives.
One task for scientists today is to learn exactly which types of animal behavior predict quakes. It's not an easy job. First of all, not every animal reacts to the danger of an earthquake. Just before a California quake in 1977, for example, an Arabian horse became very nervous and tried to break out of his enclosure. The Australian horse next to him, however, remained perfectly calm. It's also difficult at times to tell the difference between normal animal restlessness and “earthquake nerves”.A zoo keeper once called earthquake researchers, saying that his cougar had been acting strangely. It turned out that the cat had an upset stomach.
A second task for scientists is to find out exactly what kind of warnings the animals receive. They know that animals sense far more of the world than humans do. Many animals can see, hear, and smell things that people do not even notice. Some can sense tiny changes in air pressure, gravity, or the magnetism of the earth. This extra sense probably helps animals predict quakes.
A good example of this occurred with a group of dogs. They were shut in an area that was being shaken by a series of tiny earthquakes.(Several small quakes often come before or after a large one.) Before each quake a low booming sound was heard. Each boom caused the dogs to bark wildly. Then the dogs began to bark during a silent period. A scientist who was recording quakes looked at his machine. It was acting as though there were a loud noise too. The scientist realized that the dogs had reacted to a booming noise. They also sensed the tiny quakes that followed it. The machine recorded both, though humans felt and heard nothing.
In this case there was a machine to monitor what the dogs were sensing. Many times, however, our machines record nothing extraordinary, even though animals know a quake is coming. The animals might be sensing something we measure but do not recognize as a warning.Discovering what animals sense, and learning how they know it is a danger signal, is a job for future scientists.
20.Through the passage the writer hopes to explore ________.
A.why animals send a danger signal before an earthquake
B.how animals know when an earthquake is coming
C.why animals not humans have a good sense of danger
D.how much animals know about an earthquake
21.During an earthquake in China in 1975 ________.
A.chickens refused to go out of their cage
B.snakes were frozen to death in their caves
C.snakes awoke from their winter sleep earlier
D.cows broke their halters and escaped from their sheds
22.Which of the following is one of earthquake nerves according to the passage?
A.An Arabian horse tried to escape from his enclosure.
B.A cougar had an upset stomach unexpectedly.
C.An Australian horse was perfectly calm.
D.A cat acted very strangely in a zoo.
23.The scientists did an experiment with a group of dogs to ________.
A.find out that the machine could record unusual happenings
B.compare the reactions of animals with those of humans
C.prove that animals could sense more than humans
D.find out what exact warnings animals send
查看答案和解析>>
科目:高中英語 來源: 題型:閱讀理解
Scientists who try to predict earthquakes have gotten some new helpers recently—animals.
That’s right, animals. Scientists have begun to understand what farmers have known for thousands of years. Animals often seem to know in advance that an earthquake is coming, and they show their fear by acting in strange ways. Before a Chinese quake in 1975, snakes awoke from their winter sleep early only to freeze to death in the cold air. Cows broke their halters (韁繩) and tried to escape. Chickens refused to enter their cage. All of this unusual behavior, as well as physical changes in the earth, warned Chinese scientists of the coming quake. They moved people away from the danger zone and saved thousands of lives.
One task for scientists today is to learn exactly which types of animal behavior predict quakes. It’s not an easy job. First of all not every animal reacts to the danger of an earthquake. Just before a California quake in 1977, for example, an Arabian horse became very nervous and tried to break out of his enclosure. The Australian horse next to him, however, remained perfectly calm. It’s also difficult at times to tell the difference between normal animal restlessness and “earthquake nerves”. A zoo keeper once called earthquake researchers to say that his cougar (美洲獅) had been acting strangely. It turned out that the cat had an upset stomach.
A second task for scientists is to find out exactly what kind of warnings the animals receive. They know that animals sense far more of the world than humans do. Many animals can see, hear, and smell things that people do not even notice. Some can sense tiny changes in air pressure, gravity, or the magnetism of Earth. This extra sense probably helps animals predict quakes.
A good example of this occurred with a group of dogs. They were shut in an area that was being shaken by a series of tiny earthquakes. (Several small quakes often come before or after a large one.) Before each quake a low booming sound was heard. Each boom caused the dogs to bark wildly. Then the dogs began to bark during a silent period. A scientist who was recording quakes looked at his machine. It was acting as though there were a loud noise too. The scientist realized that the dogs had reacted to a booming noise. They also sensed the tiny quake that followed it. The machine recorded both, though humans felt and heard nothing.
In this case there was a machine to monitor what the dogs were sensing. Many times, however, our machines record nothing extraordinary, even though animals know a quake is coming. The animals might be sensing something we measure but do not recognize as a warning. Discovering what animals sense, and learning how they know it is a danger signal, is a job for future scientists.
59. Through the passage the writer hopes to explore __________.
A. why animals send a danger signal before an earthquake
B. how animals know when an earthquake is coming
C. why animals have good sense of danger
D. how much animals know about an earthquake
60. During an earthquake in China in 1975, _________.
A. chickens refused to go out of their cage
B. snakes were frozen to death in their caves
C. snakes awoke from their winter sleep earlier
D. cows broke their halters and escaped from their sheds
61. Which of the following is one of earthquake nerves according to the passage?
A. An Arabian horse tried to escape from his enclosure.
B. A cougar had an upset stomach unexpectedly.
C. An Australian horse was perfectly calm.
D. A cat acted very strangely in a zoo.
62. The scientists did an experiment with a group of dogs to _________.
A. find out that the machine could record unusual happenings
B. compare the reactions of animals and those of humans
C. prove that animals could sense more than humans
D. find out what exact warnings animals sent
查看答案和解析>>
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