首页
外语
计算机
考研
公务员
职业资格
财经
工程
司法
医学
专升本
自考
实用职业技能
登录
外语
"Life in Our Solar System" Although we can imagine life based on something other than carbon chemistry, we know of no exampl
"Life in Our Solar System" Although we can imagine life based on something other than carbon chemistry, we know of no exampl
admin
2012-01-14
58
问题
"Life in Our Solar System"
Although we can imagine life based on something other than carbon chemistry, we know of no examples to tell us how such life might arise and survive. We must limit our discussion to life as we know it and the conditions it requires. The most important requirement is the presence of liquid water, not only as part of the chemical reactions of life, but also as a medium to transport nutrients and wastes within the organism.
The water requirement
automatically
eliminates many worlds in our solar system. The moon is airless, and although some data suggest ice frozen in the soil at its poles, it has never had liquid water on its surface. In the vacuum of the lunar surface, liquid water would boil away rapidly. Mercury too is airless and cannot have had liquid water on its surface for long periods of time. Venus has some traces of water vapor in its atmosphere, but it is much too hot for liquid water to survive. If there were any lakes or oceans of water on its surface when it was young, they must have evaporated quickly. Even if life began there, no traces would be left now.
The inner solar system seems too hot, and the outer solar system seems too cold. The Jovian planets have deep atmospheres, and at a certain level, they have moderate temperatures where water might condense into liquid droplets. But it seems unlikely that life could begin there. The Jovian planets have no surfaces where oceans could nurture the beginning of life, and currents in the atmosphere seem destined to circulate gas and water droplets from regions of moderate temperature to other levels that are much too hot or too cold for life to survive.
A few of the satellites of the Jovian planets might have suitable conditions for life. Jupiter’s moon Europa seems to have a liquid-water ocean below its icy crust, and minerals dissolved in that water would provide a rich broth of possi- bilities for chemical evolution.A Nevertheless, Europa is not a promising site to search for life because conditions may not have remained
stable
for the billions of years needed for life to evolve beyond the microscopic stage. B If Jupiter’s moons interact gravitationally and modify their orbits, Europa may have been frozen solid at some points in history. C
→ Saturn’s moon Titan has an atmosphere of nitrogen, argon, and methane and may have oceans of liquid methane and ethane on its surface.D The chemistry of life that might crawl or swim on such a world is unknown, but life there may be unlikely because of the temperature. The surface of Titan is a deadly -179℃ (-290°F). Chemical reactions occur slowly or not at all at such low temperatures, so the chemical evolution needed to begin life may never have occurred on Titan.
→ Mars is the most likely place for life in our solar system. The evidence, however, is not encouraging. Meteorite ALH84001 was found on the Antarctic ice in 1984. It was probably part of debris ejected into space by a large impact on Mars. ALH84001 is important because a team of scientists studied it and announced in 1996 that it contained chemical and physical traces of ancient life on Mars.
Scientists were excited too, but being professionally skeptical, they began testing the results immediately.
In many cases, the results did not confirm the conclusion that life once existed 0n Mars.
Some chemical contamination from water on Earth has occurred, and some chemicals in the meteorite may have
originated
without the presence of life. The physical features that look like fossil bacteria may be mineral formations in the rock.
Spacecraft now visiting Mars may help us understand the past history of water there and paint a more detailed picture of present conditions. Nevertheless, conclusive evidence may have to wait until a geologist in a space suit can wander the dry streambeds of Mars cracking open rocks and searching for fossils.
We are left to conclude that, so far as we know, our solar system is bare of life except for Earth. Consequently, our search for life in the universe takes us to other planetary systems.
The word originated in the passage is closest in meaning to
选项
A、turned
B、changed
C、begun
D、disappeared
答案
C
解析
In this passage, begun is a synonym for"originated." Context comes from the root origin, which means "beginning."
转载请注明原文地址:https://jikaoti.com/ti/3llYFFFM
0
托福(TOEFL)
相关试题推荐
EducationPhilosophyA.Althoughwelackaccuratestatisticsaboutchildmortalityinthepre-industrialperiod,wedohave
SECTION1Questions1-10Questions1-3Listentothetelephoneconversationbetweenastudentandtheownerofaparaglidings
Betweenwhattimesistheroadtrafficlightest?doublethicknessplasterboard
Betweenwhattimesistheroadtrafficlightest?Thenoiselevelsatthesitecanreach
TheprofessoralreadyknowssomethingaboutClarefromher______.
TheprofessoralreadyknowssomethingaboutClarefromher______.
Atenancyagreementisa______betweenthetenantandthelandlord.______isalistofalltheitemsintheproperty.
Atenancyagreementisa______betweenthetenantandthelandlord.Tenantsshouldkeepa______ofthetenancyagreement.
Johnwasfirstinterestedinthesubjectbecauseofsomething______
随机试题
首先提出“三个有利于”判断标准的是()
脂肪酸合成酶系只能直接合成
A.造血干细胞移植B.肾移植C.肝脏移植D.角膜移植E.心脏移植对组织配型要求最严格的移植是
( )是一种常用浆液,国内外大坝砂砾层灌浆绝大多数都是采用这种浆液,其主要优点是:稳定性好,能灌注细小孔隙,费用比较低廉,防渗效果也较好。
德川家康
当选定Word2003表格中的一个单元格时,常用工具栏上的“插入表格”按钮提示将会改变为()。
计算机网络最突出的优点是()。
LifetimeemploymentintheJapanesecompanymeansthattheemployeeThepassagemainlydiscusses
AnoldChinesesayinggoesthat"Hethattravelsfarknowsmuch."Itimpliesthatpersonalexperiencecountsmuch.Incontrastt
A—scopeofbusinessB—managementbuyoutsC—competeforsurvivalD—processingtradeE—f
最新回复
(
0
)