摘要:托福TPO试题基本所有参加托福考生必做试题,为更好服务于广大考生,上海新航道小编会及时的更新托福TPO试题信息,包括TPO试题、答案及解析等内容。在下文中小编整理了托福TPO60阅读Passage 3完整原文完整,希望对大家有所帮助,如在学习过程中有问题,可以加新航道上海学校专业老师微信(微信号shnc_2018)进行咨询。
托福TPO试题基本所有参加托福考生必做试题,在下文中上海新航道托福培训小编整理了托福TPO60阅读Passage 3完整原文,希望对大家有所帮助!
托福TPO60阅读Passage 3
Earth' s Core
Knowledge of Earth' s deep interior is derived from the study of the waves produced by earthquakes, called seismic waves Among the various kinds of seismic waves are primary waves (P-waves) and secondary waves (S- waves). Primary and secondary waves pass deep within Earth and therefore are the most instructive. Study of abrupt changes in the characteristics of seismic waves at different depths provides the basis for a threefold division of Earth into a central core; a thick, overlying mantle: and a thin, enveloping crust. Sudden changes in seismic wave velocities and angles of transmission are termed discontinuities.
One of the discontinuities is the Gutenberg discontinuity, which is located nearly halfway to the center of Earth at a depth of 2,900 kilometers and marks the outer boundary of Earth's core. At that depth, the S-waves cannot propagate, while at the same time P-wave velocity is drastically reduced S-waves are unable to travel through fluids. Thus, if S-waves were to encounter a fluidlike region of Earth' s interior, they would be absorbed there and would not be able to continue. Geophysicists believe this is what happens to S-waves as they enter the outer core. As a result, the S-waves generated on one side of Earth fail to appear at seismograph stations on the opposite side of Earth, and this observation is the principal evidence of an outer core that behaves as a fluid. Unlike S-waves, P-waves are able to pass through liquids They are, however, abruptly slowed and sharply refracted (bent) as they enter a fluid medium. Therefore, as P-waves encounter the molten outer core of Earth, their velocity is reduced and they are refracted downward
The radius of the core is about 3,500 kilometers. The inner core is solid and has a radius of about 1,220 kilometers, which makes this inner core slightly larger than the Moon. Most geologists believe that the inner core has the same composition as the outer core and that it can only exist as a solid because of the enormous pressure at the center of Earth. Evidence of the existence of a solid inner core is derived from the study of hundreds of records of seismic waves produced over several years. These studies showed that the inner core behaves seismically as if it were a solid.
Earth has an overall density of 5.5 grams per cubic centimeter, yet the average density of rocks at the surface is less than 3.0 grams per cubic centimeter. This difference indicates that materials of high density must exist in the deep interior of the planet to achieve the 5.5 grams per cubic centimeter overall density. Under the extreme pressure conditions that exist in the region of the core, iron mixed with nickel would very likely have the required high density. Laboratory experiments, however, suggest that a highly pressurized iron-nickel alloy might be too dense and that minor amounts of such elements such as silicon, sulfur, carbon, or oxygen may also be present to lighten the core material.
Support for the theory that the core is composed of iron (85 percent) with lesser amounts of nickel has come from the study of meteorites. Many of these samples of solar system materials are iron meteorites t hat consist of metallic iron alloyed with a small percentage of nickel Some geologists suspect that iron meteorites may be fragments from the core of a shattered planet. The presence of iron meteorites in our solar system suggests that the existence of an iron- nickel core for Earth is plausible.
There is further evidence that Earth may have a metallic core. Anyone who understands the functioning of a compass is aware that Earth has a magnetic field. The planet itself behaves as if there was a great bar magnet embedded within it. A magnetic field is developed by the flow of electric charges and requires good electrical conductors. Silicate rocks, such as those in the mantle and crust, do not conduct electricity very well, whereas metals such as iron and nickel are good conductors. Heat-driven movements in the outer core, coupled with movements induced by Earth' s spin, are thought to provide the necessary flow of electrons (very small particles that carry a negative charge) around the inner core that produces the magnetic field. Without a metallic core, Earth' s magnetic field would not be possible.
索取“原文+题目+答案+解析+MP3音频”,请加新航道上海老师微信(shnc_2018)
免费领取最新剑桥雅思、TPO、SAT真题、百人留学备考群,名师答疑,助教监督,分享最新资讯,领取独家资料。
方法1:扫码添加新航道老师
微信号:shnc_2018
方法2:留下表单信息,老师会及时与您联系
课程名称 | 班级人数 | 课时 | 学费 | 报名 |
---|---|---|---|---|
托福入门段(A段)6-10人走读班 | 6-10人 | 80课时 | ¥15800 | 在线咨询 |
托福强化段(C段)6-10人班 | 6-10人 | 96课时 | ¥30800 | 在线咨询 |
托福全程段(A+B+C段)6-10人班 | 6-10人 | 192课时 | ¥55800 | 在线咨询 |
托福特训班(4周,走读) | 8-10人 | 192 | ¥34800 | 在线咨询 |
托福特训班(6周,走读) | 8-10人 | 288 | ¥49800 | 在线咨询 |
课程名称 | 班级人数 | 课时 | 学费 | 报名 |
---|---|---|---|---|
托福精讲段(B段)20-30人班 | 20-30人 | 96课时 | ¥8800 | 在线咨询 |
托福强化段(C段)20-30人班 | 20-30人 | 96课时 | ¥7800 | 在线咨询 |
托福全程段(A+B+C段)20-30人班 | 20-30人 | 192课时 | ¥13800 | 在线咨询 |
课程名称 | 班级人数 | 课时 | 学费 | 报名 |
---|---|---|---|---|
托福入门段(A段)(6-10人,住宿) | 6-10人 | 80课时 | ¥17800 | 在线咨询 |
托福强化段(C段)6-10人班住宿 | 152课时 | ¥33800 | 在线咨询 | |
托福全程班(A+B+C段)6-10人班住宿 | 6-10人 | 304课时 | ¥60800 | 在线咨询 |
托福长线班(6-10人,住宿) | 6-10人 | 272课时 | ¥77800 | 在线咨询 |
托福词汇语法住宿班(A段)(6-10人) | 6-10人 | 48课时 | ¥8800 | 在线咨询 |
课程名称 | 班级人数 | 课时 | 学费 | 报名 |
---|---|---|---|---|
托福全程段(A+B+C段)20-30人班住宿 | 20-30人 | 192课时 | ¥15800 | 在线咨询 |
托福强化段(C段)20-30人班住宿 | 20-30人 | 96课时 | ¥8800 | 在线咨询 |
托福精讲段(B段)20-30人班住宿 | 20-30人 | 96课时 | ¥9800 | 在线咨询 |
课程名称 | 班级人数 | 课时 | 学费 | 报名 |
---|---|---|---|---|
托福一对一 | 1 | 按需定制 | ¥980元 | 在线咨询 |
托福免费试听课 | ¥0元 | 在线咨询 |
课程名称 | 班级人数 | 课时 | 学费 | 报名 |
---|---|---|---|---|
小托福课程 | 6人 | 54小时 | ¥20800 | 在线咨询 |
小托福考试技巧进阶课程 | 30 | ¥9800 | 在线咨询 |
免责声明
1、如转载本网原创文章,请表明出处;
2、本网转载媒体稿件旨在传播更多有益信息,并不代表同意该观点,本网不承担稿件侵权行为的连带责任;
3、如本网转载稿、资料分享涉及版权等问题,请作者见稿后速与新航道联系(电话:021-64380066),我们会第一时间删除。
地址:徐汇区文定路209号宝地文定商务中心1楼
乘车路线:地铁1/4号线上海体育馆、3/9号线宜山路站、11号线上海游泳馆站
总部地址:北京市海淀区中关村大街28-1号6层601 集团客服电话:400-097-9266 总部:北京新航道教育文化发展有限责任公司
Copyright © www.xhd.cn All Rights Reserved 京ICP备05069206