Passage One Questions 1to 5are based on the following passage. For about three centuries we have been doing science, trying science out, using science for the construction of what we call modern civilization. Every dispensable item of contemporary technology, from canal locks to dial telephones to penicillin, was pieced together from the analysis of data provided by one or another series of scientific experiments. Three hundred years seems a long time for testing a new approach to human inter-living, long enough to set back for critical appraisal of the scientific method, maybe even long enough to vote on whether to go on with it or not. There is an argument. Voices have been raised in protest since the beginning, rising in pitch and violence in the nineteenth century during the early stages of the industrial revolution, summoning urgent crowds into the streets on the issue of nuclear energy. "Give it back," say some of the voices, "It doesn't really work, we've tried it and it doesn't work. Go back three hundred years and start again on something else less chancy for the race of man." The principle discoveries in this century, taking all in all, are the glimpses of the depth of our ignorance of nature. Things that used to seem clear and rational, and matters of absolute certainty-Newtonian mechanics, for example-have slipped through our fingers; and we are left with a new set of gigantic puzzles, cosmic uncertainties, and ambiguities. Some of the laws of physics are amended every few years; some are canceled outright; some undergo revised versions of legislative intent as if they were acts of Congress. Just thirty years ago we call it a biological revolution when the fantastic geometry of the DNA molecule was exposed to public view and the linear language of genetics was decoded. For a while, things seemed simple and clear: the cell was a neat little machine, a mechanical device ready for taking to pieces and reassembling, like a tiny watch. But just in the last few years it has become almost unbelievably complex, filled with strange parts whose functions are beyond today's imagining. It is not just that there is more to do, there is everything to do. What lies ahead, or what can lie ahead if the efforts in basic research are continued, is much more than the conquest of human disease or the improvement of agricultural technology or the cultivation of nutrients in the sea. As we learn more about fundamental processes of living things in general we will learn more about ourselves. 1. What CANNOT be inferred from the first paragraph? [A] Scientific experiments in the past three hundred years have produced many valuable items. [B] For three hundred years there have been people holding a hostile attitude toward science. [C] Modern civilization depends on science so man supports scientific progress unanimously. [D] Some people think three hundred years is not long enough to set back for critical appraisal of scientific method. 2. The principle discovery in this century shows ________. [A] man has overthrown Newton's laws of physics [B] man has solved a new set of gigantic puzzles [C] man has lost many scientific discoveries [D] man has given up some of the once accepted theories 3. Now scientists have found in the past few years ________. [A] the exposure of DNA to the public is unnecessary [B] the tiny cell in DNA is a neat little machine [C] man knows nothing about DNA [D] man has much to learn about DNA 4. The writer's main purpose in writing the passage is to say that ________. [A] science is just at its beginning [B] science has greatly improved man's life [C] science has made profound progress [D] science has done too little to human beings 5. The writer's attitude towards science is ________. [A] critical [B] approving [C] neutral [D] regretful Passage Two Questions 6 to 7 are based on the following passage. Here amid the steel and concrete canyons, green grass grows. A hawthorn tree( 山楂树 ) stands in new soil, and freshly dug plants bend in the wind. But Chicago City Hall here seems an unlikely spot for a garden of any variety—especially 20,000 square feet of gardens—on its roof. As one of a handful of similar projects around the country, the garden is part of a $1.5 million demonstration projected by the city to reduce its "urban heat islands", said William Abolt, the commissioner of the Department of Environment. Heat islands-dark surfaces in the city, like rooftops-soak up heat. The retention can bake a building, making it stubborn to cooling. The roof of City Hall, a 90-year-old gray stone landmark on LaSalle Street in the heart of downtown, has been known to reach temperature substantially hotter than the actual temperature on the street below. The garden will provide greenery and shade. "And that," said the city officials, "will save the city dollars on those blistering summer days." The project savings from cooling is about $4,000 a year on a new roof whose life span is about 50 percent longer than that of a traditional roof. The sprawling open-air rooftop garden is being carefully built on a multi-tiered bed of special soil, polystyrene, egg-carton-shaped cones and "waterproof membrane" mall to keep the roof from leaking, or caving under the normal combined weight of soil, rain and plant life. The design calls for soil depths of 4 inches to 18 inches. When the last plants and seedlings are buried and the last bit of compost is laid, the garden will have circular brick stepping-stones winding up to hills. "The primary focus of what we want to do was to establish this laboratory on the top of City Hall to get people involved and understanding their impact on the environment and how the little things can make an impact on the quality of life", Mr. Abolt said, adding that the plants also help to clear the air. Rooftop gardens, in places where concrete jungles have erased plants and trees, are not new, not even in Chicago. Arms of greenery dangling over terraces or sprouting from rooftops, common in Europe, are becoming more so in the United States as people become increasingly conscious about the environment. Richard M. Daley, who urged the environmental department to look into the project after noticing rooftop gardens in Hamburg, Germany a few years ago, has praised the garden as the first of its kind on a public building in the country. It will hold thousands of plants in more than 150 species-wild onion and butterfly weed, sky-blue aster and buffalo grass-to provide data on what species adapt best. Small plants requiring shallow soil depths were chiefly selected. 6. The rooftop garden project ________. [A] is common and popular in the country [B] is a demonstration project and costs the city government 1.5 million dollars [C] will make the ordinary cooling down of the city in summer unnecessary [D] aims at getting people involved and understanding their impact on the environment 7. What can we learn about the City Hall? [A] It was built ninety years ago and is the most outstanding feature in the center of the city. [B] It is originally proper to build a garden on the top of the City Hall. [C] The temperature on its top is a little bit lower than that on the street below. [D] It is the first building in America to have a garden on it. 8. Which of the following statements is TRUE? [A] Every year, Chicago spends about $ 4,000 on cooling the city. [B] The design of the garden on the City Hall specially takes into consideration the weight the roof can stand. [C] The Mayor urged the environmental department to look into rooftop gardens in Hamburg and build similar ones in America. [D] Heat islands mainly refer to those dark-colored rooftops which receive and retain heat and will not easily release the heat. 9. Why should the rooftop garden be built on the top of City Hall other than on any other buildings? [A] Because the City Hall is large. [B] Because the mayor had urged the environmental department to do so. [C] Because it can make people understand their impact on environment better through a public building. [D] Because the experts just want to make the City Hall a convenient laboratory. 10. The word "substantially" (Line 2, Para. 5) most likely means ________. [A] a little bit [B] in fact [C] materially [D] considerably