1、职称英语理工A级真题及答案网友版答案:CCBBA BBBCA DBCBD答案:ABBBB CA答案:FBA D ADDB第一篇Small But Wise【小而聪明】On December 14, NASA1 blasted a small but mighty telescope into space. The telescope is called WISE and is about as wide around as a trashcan. Dont let its small size fool you: WISE has a powerful digital camera, and
2、it will be taking pictures of some the wildest objects2 in the known universe, including asteroids, faint stars, blazing galaxies3 and giant clouds of dust where planets and stars are bom.“Im very excited because were going to be seeing parts of the universe that we havent seen before, ” said Ned Wr
3、ight, a scientist who directs the WISE project.Since arriving in space, the WISE telescope has been circling the Earth, held by gravity in a polar orbit4( this means it crosses close to the north and south poles with each lap5). Its camera is pointed outward, away from the Earth, and WISE will snap
4、a picture of a different part of the sky every 11 minutes. After six months it will have taken pictures across the entire sky.The pictures taken by WISE wont be like everyday digital photographs, however. WISE stands for “Wide-field Infrared Survey Explorer. ” As its name suggests, the WISE camera t
5、akes pictures of features that give off infrared radiation6.Radiation is energy that travels as a wave. Visible light, including the familiar spectrum of light7 that becomes visible in a rainbow, is an example of radiation. When an ordinary digital camera takes a picture of a tree, for example, it r
6、eceives the waves of visible light that are reflected off the tree. When these waves enter the camera through the lens, theyre processed by the camera, which then puts the image together.Waves of infrared radiation are longer than waves of visible light, so ordinary digital cameras dont see them, an
7、d neither do the eyes of human beings. Although invisible to the eye, longer infrared radiation can be detected as warmth by the skin.Thats a key idea to why WISE will be able to see things other telescopes cant. Not everything in the universe shows up in visible light. Asteroids, for example, are g
8、iant rocks that float through space but they absorb most of the light that reaches them. They dont reflect light, so theyre difficult to see. But they do give off infrared radiation, so an infrared telescope like WISE will be able to produce images of them. During its mission WISE will take pictures
9、 of hundreds of thousands of asteroids.Brown dwarfs8 are another kind of deep-space object that will show up in WISEs pictures. These objects are “failed” stars which means they are not massive enough to jump start9 the same kind of reactions that power stars such as the sun. Instead, brown dwarfs s
10、imply shrink and cool down. Theyre so dim that theyre almost impossible to see with visible light, but in the infrared spectrum they glow.答案:DADDBDownload knowledge directly to your brain (正确下载知识到你的大脑)36:what have researchers been able to do with the help of the studyA:make a person know how to do s
11、omething without learningB:set up different learning patterns for different peopleC:Enable people to learn kung fu instantlyD:Discover a persons lea rning process in the brain37:what helps a person to do a particular task better in visual perceptual learningA:Testing B:Encouragement C: Repetition D:
12、 self- assessment38:which of the following statements is true of the experiment participantsA:they were not told what to be learned in the experimentB:they learned how to control MRL machines in the experimentC:they were paid to take part in the experimentD:they were not cooperative in the experimen
13、t39:the finding of the study is most significant in that learningA:is full of fun B: is visualizedC:becomes unnecessary D: happens unconsciously40:who are most likely to benefit from the stabilityA:senior people B: teenagersC:musicians D: Athletes答案:DCCBA答案:BABAC答案:CADFBSolar Power without Solar Cel
14、ls【没有太阳能电池的太阳能】A dramatic and surprising magnetic effect of light discovered by University of Michigan1researchers could lead to solar power without traditional semiconductor-based solar cells.The researchers found a way to make an “optical 1 , ” said Stephen Rand, a professor in the departments of
15、Electrical Engineering and Computer Science, Physics and Applied Physics.Light has electric and magnetic components. Until now, scientists thought the 2 of the maghetic field were so weak that they could be ignored. What Rand and his colleagues found is that at the right intensity, when light is tra
16、veling through a material that does not conduct electricity, the light field can generate magnetic effects that are 100 million times stronger than3 expected. 4 these circumstances, the magnetic effects develop strength equivalent to a strong electric effect.“This could lead to a new kind of solar c
17、ell without semiconductors and without absorption to produce charge separation, ” Rand said. “In solar cells, the 5 goes into a material, gets absorbed and creates heat. Here, we expect to have a very low heat load2. Instead of the light being absorbed, energy is stored in the magnetic moment3. Inte
18、nse magnetization can be induced by intense light and then it is ultimately capable of providing a capacitive power 6 ”What makes this possible is a previously undetected brand of “optical rectification4, ” says William Fisher, a doctoral student5 in applied physics. In traditional optical rectifica
19、tion, lights electric field causes a charge separation, or a pulling 7 of the positive and negative charges6 in a material. This sets up a voltage, similar to 8 in a battery.Rand and Fisher found that under the right circumstances and in right types of materials, the lights magnetic field can also c
20、reate optical rectification. The light must be shone through7 a9 that does not 10 electricity, such as glass. And it must be focused to an intensity of 10 million watts per square centimeter8. Sunlight isnt this intense on its own, but new materials are being sought that would work at lower intensit
21、ies, Fisher said.“In our most recent paper, we show that incoherent light9 like sunlight is theoretically almost as 11 in producing charge separation as laser light is, ” Fisher said.This new 12 could make solar power cheaper, the researchers say. They predict that with improved materials they could
22、 achieve 10 percent efficiency in 13 solar power to useable energy. Thats equivalent to todays commercial-grade solar cells.“To manufacture 14 solar cells, you have to do extensive semiconductor processing, ” Fisher said. “All we would need are lenses to focus the light and a fiber to guide it. Glas
23、s works for 15 Its already made in bulk10, and it doesnt require as much processing. Transparent ceramics might be even better. ”1、A battery 2、D components3、C ignored 4、C conduct5、A equivalent 6、D light7、D source 8、D apart9、A that 10、B material11、C intense 12、A as13、D technology 14、C extensive15、C both
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