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So, Marsden came up with the model, and as you go through 8.02 and you understand electrostatics and electrodynamics, you'll be able to do this analysis.
后来马斯登提出了这个模型,就像你们通过8。02的考试一样2,你们学过了静电学和电动力学,你也能做这些分析。
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And I don't have to worry about these relative dimensions because we know from Marsden's calculations that, on the length scale that I have shown here, these would be just tiny little dots.
我们不必考虑,它们的相对大小,因为从马斯登的计算中我们可以得知,就从我现在给你们演示的这种相对距离来说,这些电子将只是一些很微小的斑点。
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So, you might think that he would stop his experiments here, and maybe he would have, but as I mentioned, he did have Geiger a postdoc working with him by the name of Geiger. He also had an undergraduate, UROP we could say maybe even a UROP working with him, and this was by the name of Marsden Marsden was the name of this UROP.
停下他的实验了,也许他是可以,但我说过,他还有个博士后,此外他还有个本科生,或者可以说是,和他一起工作,他的名字叫。
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Heck,he deserves to have his name on the board, Marsden So, Marsden concluded by his analysis that the radius of the nucleus, and this is Rutherford, by the way, coining this term.
见鬼,他的名字配写在黑板上,马斯登,马斯登根据分析得出,核的半径,这是卢瑟福,插一句,创造了这个术语。
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Marsden told us that 000 this distance here is about 10,000.
马斯登告诉我们,这距离约为10,
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Marsden is an interesting character.
马斯登是个有意思的人。
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Marsden was essentially a UROP.
马斯登参加了大学生研究计划。
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And this is exactly what happened with Marsden who discovered that when he shot the alpha particles at the gold foil he detected something on his detector that click, click, click went a little bit faster.
而对于Marsden来说,就是这样,他发现当他用alpha粒子,轰击金箔的时候,探测器哒哒哒得更快了,他发现一分钟。
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Last day we looked at Rutherford, Geiger, Marsden and the experiment that they conducted on the gold foil.
昨天我们讲了卢瑟福,盖革,马斯登,以及他们在金箔上所做的实验。
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So, he says to Marsden, take these data.
他对马登斯说,记录这些数据吧。
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There's Rutherford, there's Geiger, there's Marsden.
卢瑟福,盖革,马斯登。
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Marsden was not too different from you.
马斯登和你们没有太大的区别。
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