20096´ѧӢļȫԤ⼰
Part IIReading Comprehension (Skimming and Scanning)
(15 minutes)
Directions: In this part, you will have 15 minutes to go over the passage quickly and answer the questions on Answer Sheet 1.
For questions 1-7, mark
Y (for YES) if the statement agrees with the information given in the passage;
N (for NO)if the statement contradicts the information given in the passage;
NG (for NOT GIVEN) if the information is not given in the passage.
For questions 8-10, complete the sentences with the information given in the passage.
Space
Our Future in Space: It Has Already Begun!
We are all space travelers. But weve stayed close to home until now. One day, we may leave our mothership Earth to make our home among the stars.
A giant, spherical spaceship, about 8,000 miles in diameter, is speeding through the solar system right now. It is cruising at an incredible 66,600 miles per hour.
Its not a giant, Star Wars mother-ship. Its spaceship Earth, the home of over four billion people. This watercoated spaceship has been traveling through the universe for about five billion years. Only within the past 25 years, however, have some of its passengers broken free of Earths gravity.
But 25 years from now, many people, including you, might live in an orbiting space station 200 miles above the Earth.
Space Cities
Scientists have already designed special space factories. These factories will take advantage of the absence of gravity (zero gravity) to produce everything from life-saving drugs to perfect ball bearings.
Other scientists have designed space colonies, complete with farms, schools, and artificial day and night. Hundreds, or even thousands, of people will live, work, playeven go to school, far above the Earth.
Our conquest of space, of course, has already begun. We have explored part of the Moon, sent robot spaceships onto the surface of Venus and Mars, and aimed space probes past the planets of Jupiter and Saturn.
Last June, one robot ship, Pioneer 10, left our solar system forever. And astronauts from both the Soviet Union and the United States have lived in space stations.
The conquest of space, without question, is one of the greatest adventures human beings have ever set out on. But it may be more than a great adventure. Some scientists think the conquest of space may be a necessity for survival of the human species.
We are tearing up more and more of the Earth to get raw materials for industry. And we are polluting the air and water as we manufacture products that we need or want. Almost everything that seems to make our lives more comfortable, and from electricity to pesticides, uses up or alters a piece of our planets natural environment.
Why Go into Space?
Yet our solar system is full of resources. The moon is chockfull of valuable metals. So are the asteroids, the small, rocky, planet-like bodies orbiting the sun most of them between Mars and Jupiter. These metals, if we can get them, could be used to build factories and space stations.
Also, in space, there is no atmosphere to filter out the suns energy. There is plenty of solar energy to be turned into electricity for manufacturing, for creating comfortable living conditions.
Getting away from Earth has other advantages, too. Modern industry uses many kinds of metal alloys (mixtures of metal that are better for certain purposes than pure metals). Yet some metal alloys either cant be made or are very expensive to make on Earth because of gravity. For instance, certain metals dont mix well on Earth. But in zero gravity, molten (hot, liquid) metals mix more evenly. This is because there is no gravity to pull the heavier metals down, while the lighter ones float on top.
From space, too, we can look down on the Earth and study the atmosphere, its weather, and the effects of air pollution.
And because there is no strong gravity to break free from, our future homes away from Earth will be convenient starting points for travel to distant planets.
But, while going into space might solve some problems, outer space can also be a dangerous place. For example, in outer space, we have to protect ourselves from the dangers of ultraviolet light and cosmic rays. Ultraviolet light from the sun can give us bad sunburns right here on Earth. Yet, Earths atmosphere screens out most of that harmful radiation. Cosmic rays are tiny highenergy particles from outer space. Again, the Earth shields us from most of them.
At Home in Space?
But in space, without special protection, we would be exposed to much stronger radiation from ultraviolet light and cosmic rays. Also, in the zero gravity of outer space, our bones will lose calcium and become weaker. This will be more of a problem the longer people stay out in space. Doctors are looking for a way to keep our bones from losing calcium in outer space. And a small spaceship just might drive you batty after a while. But even on a short trip in outer space, you might not feel as well as youd like to. Space travel could make you seasick!
Yet, these risks wont keep people from going into space. Eventually, an Earth-like environment will be built in space. And they will be populated by people with many different interests: medicine, construction, farming, teaching, mining, and so on.
The next hundred years will be filled with other worldly adventures, exciting scientific discoveries, and danger, as humans leave Earthperhaps forever.
Aging in Space
Suppose a space traveler is moving at a velocity of 186,200 miles per second. For every hour that passes for him, 30 hours pass on Earth. If he travels for a year in this fashion (having accelerated instantaneously) and then turns around and comes back at this speed (having turned around instantaneously), he will find that while he has seemed to himself to have traveled two years, the men on Earth would claim he had been absent for 30 years.
Suppose the space traveler had left at the age of 30, leaving behind a twin brother also aged 30. When he returned he would be 32, but his stay-at-home twin brother would be 60. That is why the clock paradox, is sometimes called the twin paradox.
Of course it takes quite a long while to accelerate to a high speed, and a long while to make a turn and head back again, so conditions arent quite as clear-cut as just described.
1.The giant, spherical spaceship mentioned in the passage is virtually the planet Earth.
2.According to the author, some persons have left the Earth and traveled into outer space within the past 25 years.
3.Scientists have already designed special space factories, which manufacture special products and tools for space use, such as medicine and perfect ball bearings.
4.According to the information of the passage, we can infer that if the Earth becomes too crowded or no longer suitable for men to dwell on someday, theyll have to move into space.
5.The moon and the asteroids are alike with respect to their rich, valuable metals.
6.Ultraviolet light in space places scorches our skin as seriously as it does on Earth.
7.Even a short trip in outer space may do some damage to ones brain.
1.[Y][N][NG]2.[Y][N][NG]3.[Y][N][NG]4.[Y][N][NG]
5.[Y][N][NG]6.[Y][N][NG]7.[Y][N][NG]
8.The reason some metal alloys cant be made on Earth is that the heavier metals
together with the lighter ones.
9.In space, there is no atmosphere to filter out the suns energy. There is plenty of solar energy to be turned into , for creating comfortable living conditions.
10.According to the author, will be caused to a man in gravityfree space.
(15 minutes)
Directions: In this part, you will have 15 minutes to go over the passage quickly and answer the questions on Answer Sheet 1.
For questions 1-7, mark
Y (for YES) if the statement agrees with the information given in the passage;
N (for NO)if the statement contradicts the information given in the passage;
NG (for NOT GIVEN) if the information is not given in the passage.
For questions 8-10, complete the sentences with the information given in the passage.
Space
Our Future in Space: It Has Already Begun!
We are all space travelers. But weve stayed close to home until now. One day, we may leave our mothership Earth to make our home among the stars.
A giant, spherical spaceship, about 8,000 miles in diameter, is speeding through the solar system right now. It is cruising at an incredible 66,600 miles per hour.
Its not a giant, Star Wars mother-ship. Its spaceship Earth, the home of over four billion people. This watercoated spaceship has been traveling through the universe for about five billion years. Only within the past 25 years, however, have some of its passengers broken free of Earths gravity.
But 25 years from now, many people, including you, might live in an orbiting space station 200 miles above the Earth.
Space Cities
Scientists have already designed special space factories. These factories will take advantage of the absence of gravity (zero gravity) to produce everything from life-saving drugs to perfect ball bearings.
Other scientists have designed space colonies, complete with farms, schools, and artificial day and night. Hundreds, or even thousands, of people will live, work, playeven go to school, far above the Earth.
Our conquest of space, of course, has already begun. We have explored part of the Moon, sent robot spaceships onto the surface of Venus and Mars, and aimed space probes past the planets of Jupiter and Saturn.
Last June, one robot ship, Pioneer 10, left our solar system forever. And astronauts from both the Soviet Union and the United States have lived in space stations.
The conquest of space, without question, is one of the greatest adventures human beings have ever set out on. But it may be more than a great adventure. Some scientists think the conquest of space may be a necessity for survival of the human species.
We are tearing up more and more of the Earth to get raw materials for industry. And we are polluting the air and water as we manufacture products that we need or want. Almost everything that seems to make our lives more comfortable, and from electricity to pesticides, uses up or alters a piece of our planets natural environment.
Why Go into Space?
Yet our solar system is full of resources. The moon is chockfull of valuable metals. So are the asteroids, the small, rocky, planet-like bodies orbiting the sun most of them between Mars and Jupiter. These metals, if we can get them, could be used to build factories and space stations.
Also, in space, there is no atmosphere to filter out the suns energy. There is plenty of solar energy to be turned into electricity for manufacturing, for creating comfortable living conditions.
Getting away from Earth has other advantages, too. Modern industry uses many kinds of metal alloys (mixtures of metal that are better for certain purposes than pure metals). Yet some metal alloys either cant be made or are very expensive to make on Earth because of gravity. For instance, certain metals dont mix well on Earth. But in zero gravity, molten (hot, liquid) metals mix more evenly. This is because there is no gravity to pull the heavier metals down, while the lighter ones float on top.
From space, too, we can look down on the Earth and study the atmosphere, its weather, and the effects of air pollution.
And because there is no strong gravity to break free from, our future homes away from Earth will be convenient starting points for travel to distant planets.
But, while going into space might solve some problems, outer space can also be a dangerous place. For example, in outer space, we have to protect ourselves from the dangers of ultraviolet light and cosmic rays. Ultraviolet light from the sun can give us bad sunburns right here on Earth. Yet, Earths atmosphere screens out most of that harmful radiation. Cosmic rays are tiny highenergy particles from outer space. Again, the Earth shields us from most of them.
At Home in Space?
But in space, without special protection, we would be exposed to much stronger radiation from ultraviolet light and cosmic rays. Also, in the zero gravity of outer space, our bones will lose calcium and become weaker. This will be more of a problem the longer people stay out in space. Doctors are looking for a way to keep our bones from losing calcium in outer space. And a small spaceship just might drive you batty after a while. But even on a short trip in outer space, you might not feel as well as youd like to. Space travel could make you seasick!
Yet, these risks wont keep people from going into space. Eventually, an Earth-like environment will be built in space. And they will be populated by people with many different interests: medicine, construction, farming, teaching, mining, and so on.
The next hundred years will be filled with other worldly adventures, exciting scientific discoveries, and danger, as humans leave Earthperhaps forever.
Aging in Space
Suppose a space traveler is moving at a velocity of 186,200 miles per second. For every hour that passes for him, 30 hours pass on Earth. If he travels for a year in this fashion (having accelerated instantaneously) and then turns around and comes back at this speed (having turned around instantaneously), he will find that while he has seemed to himself to have traveled two years, the men on Earth would claim he had been absent for 30 years.
Suppose the space traveler had left at the age of 30, leaving behind a twin brother also aged 30. When he returned he would be 32, but his stay-at-home twin brother would be 60. That is why the clock paradox, is sometimes called the twin paradox.
Of course it takes quite a long while to accelerate to a high speed, and a long while to make a turn and head back again, so conditions arent quite as clear-cut as just described.
1.The giant, spherical spaceship mentioned in the passage is virtually the planet Earth.
2.According to the author, some persons have left the Earth and traveled into outer space within the past 25 years.
3.Scientists have already designed special space factories, which manufacture special products and tools for space use, such as medicine and perfect ball bearings.
4.According to the information of the passage, we can infer that if the Earth becomes too crowded or no longer suitable for men to dwell on someday, theyll have to move into space.
5.The moon and the asteroids are alike with respect to their rich, valuable metals.
6.Ultraviolet light in space places scorches our skin as seriously as it does on Earth.
7.Even a short trip in outer space may do some damage to ones brain.
1.[Y][N][NG]2.[Y][N][NG]3.[Y][N][NG]4.[Y][N][NG]
5.[Y][N][NG]6.[Y][N][NG]7.[Y][N][NG]
8.The reason some metal alloys cant be made on Earth is that the heavier metals
together with the lighter ones.
9.In space, there is no atmosphere to filter out the suns energy. There is plenty of solar energy to be turned into , for creating comfortable living conditions.
10.According to the author, will be caused to a man in gravityfree space.
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