2015年职称英语理工类完形填空强化测试题(6)

　　German scientist detected a severe earthquake in Japan

　　Scientists have long struggled to understand what lies at the planets center. Direct observation of its center is impossible, so researchers must to other evidence.

　　In 1889, a German scientist detected a severe earthquake in Japan. Geophysicists concluded that shock waves jolts from one side of Earth through the center to the other side. Then in 1936, Danish geophysicist Inge Lehmann studied the waves to determine that within Earths core of molten iron lies a solid inner core - but that core was made of eluded her. Other geophysicists quickly determined that Lehmanns inner core was composed mostly iron. Since then, Lehmanns discovery has conventional Earth science.

　　But now scientists are challenging traditional theory with new and radical . For example, Earths center could actually contain an inner core within the inner core, claim Ishii and colleague Adam Dziewonski.

　　Analyzing hundreds of thousands of earthquake wave , they maintain that the inner core has at its heart a tiny, even more solid sphere . This sphere may be the oldest fossil from the formation of Earth, says Dziewonski.

　　Dziewonski and Ishii speculate that shortly Earth formed around 4.8 billion years ago, a giant asteroid smashed into the young planet and nearly melted it. But Earths center didnt quite melt; it mass as the planet cooled. The core within a core may be the kernel that endured. Its presence could change our basic ideas about the of the planet, Dziewonski says.

　　Dziewonskis idea is tame compared to the theories of independent geophysicist J. Marvin Herndon. Earths inner core is made not of iron, he claims, but a of nickel and silicon. Herndon has a truly revolutionary notion: Within the nickel silicide inner core is also an inner inner core - an 8 km-wide ball of the element uranium. Uranium is radioactive. Herndon thinks the uranium releases heat energy as its atoms fission-split and crash into one another in a chain reaction. In other words, we may live on top of a gigantic, natural nuclear power plant.

　　1 A try B leave C turn D point

　　2 A create B receive C feel D overcome

　　3 A work B solution C job D patterns

　　4 A whether B what C why D how

　　5 A from B within C of D to

　　6 A followed B dominated C restored D opposed

　　7 A ideas B demands C phenomena D movements

　　8 A things B acts C methods D records

　　9 A taken B benefited C left D kept

　　10 A after B before C since D when

　　11 A expanded B modified C gained D melted

　　12 A size B origin C structure D shape

　　13 A radical B traditional C classical D conventional

　　14 A system B copy C model D compound

　　15 A charge B last C experience D show

　　参考答案:1. C 2. A 3. D 4. B 5. C6. B 7. A 8. D 9. C 10. A11. C 12. B 13. A 14. D 15. C