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(单词翻译)
This is Scientific American's 60-second Science, I'm Christopher Intagliata.
这里是科学美国人——60秒科学系列,我是克里斯托弗·因塔格里塔。
On July 20th, 1969, humankind finally set foot on the surface of the moon. Fifty years later a big mystery remains1: how the heck the moon got there in the first place.
1969年7月20日,人类终于踏上了月球表面。五十年后,一个巨大的谜团依旧存在:月球一开始到底是如何形成的?
For decades, the thinking has been that four and a half billion years ago a Mars-sized protoplanet smashed into the Earth. When the dust settled, our moon remained, forged from the debris2 of Earth and the other object.
数十年来,人们一直认为是45亿年前一颗火星大小的原行星撞击了地球。尘埃落定后,月球留了下来,它是由地球和其他物体的碎片形成的。
Problem is, as scientists have taken more and more precise isotopic3 measurements of the Moon they've found that it's nearly identical in composition to the Earth—not some other object.
问题是,随着科学家对月球进行了越来越精确的同位素测量,他们发现月球的构成与地球——而不是其他物体——几乎相同。
"A problem I've been advertising4 as an isotopic crisis." Jay Melosh studies planetary impacts at Purdue University. Now, he says, a new theory in the journal Nature Geoscience may at least point to a way out of that isotopic crisis of the moon's chemical isotopes5 so closely resembling Earth's.
“我一直在宣传的一个问题是同位素危机。”在普渡大学研究行星撞击的杰伊·梅洛什说到。现在,他说,《自然·地球科学》期刊上发表的一项新理论可能至少为解决同位素危机指明了出路,这一危机指月球的化学同位素与地球的如此接近。
Here's the idea. The authors, a team of Japanese scientists, write that maybe in those early days of the solar system the Earth was sloshing with oceans of magma. Then, when the Mars-sized object slammed into those molten seas, their models predict a lot more Earth-derived material got ejected into orbit in the form of scorching6 vapors7.
想法如下。这篇文章的作者是一个日本科学家小组,他们写道,或许在太阳系早期,地球上到处都是岩浆海。之后,当火星大小的物体撞进这些岩浆海时,他们的模型预测,有更多来自地球的物质以灼热蒸汽的形式被喷射到轨道上。
"Temperatures of tens of thousands of degrees. And so that expands at speeds that exceed the escape velocity8 of the earth, and in that way it injects material into orbit around the Earth."
“蒸汽温度高达数万度。蒸汽的膨胀速度超过了地球的逃逸速度,然后以这种方式将物质注入地球周围的轨道。”
That material rapidly coalesces9, and bingo, you've got a moon. Melosh says there are still a few kinks to work out in the scenario10. Still, he says, it's a step forward.
这些物质迅速结合,没错,之后就形成了月球。梅洛什说,这种想象情景仍有一些问题需要解答。不过,他说这是向前迈出的一步。
"Think of it as a major clue in a murder mystery or something like that. It could be a true clue toward the answer or it could be a deception—we don't know yet." So it could be that when astronauts started walking on the moon a half-century ago, they were really leaving footprints on the remains of the primordial11 Earth.
“可以将其想成谋杀案之类的主要线索。这可能是通往答案的真正线索,也可能是场骗局,现在我们还不清楚。”因此,当半个世纪前宇航员开始在月球上行走时,他们可能正在原始地球的遗迹上留下脚印。
Thanks for listening for Scientific American — 60-Second Science. I'm Christopher Intagliata.
谢谢大家收听科学美国人——60秒科学。我是克里斯托弗·因塔利亚塔。
1 remains | |
n.剩余物,残留物;遗体,遗迹 | |
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2 debris | |
n.瓦砾堆,废墟,碎片 | |
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3 isotopic | |
adj.同位素的,合痕的 | |
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4 advertising | |
n.广告业;广告活动 a.广告的;广告业务的 | |
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5 isotopes | |
n.同位素;同位素( isotope的名词复数 ) | |
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6 scorching | |
adj. 灼热的 | |
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7 vapors | |
n.水汽,水蒸气,无实质之物( vapor的名词复数 );自夸者;幻想 [药]吸入剂 [古]忧郁(症)v.自夸,(使)蒸发( vapor的第三人称单数 ) | |
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8 velocity | |
n.速度,速率 | |
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9 coalesces | |
v.联合,合并( coalesce的第三人称单数 ) | |
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10 scenario | |
n.剧本,脚本;概要 | |
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11 primordial | |
adj.原始的;最初的 | |
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