Heisenberg

1. Heisenberg continued to work on it.
海森堡也在继续这个工作。

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2. Heisenberg meets a qubit.
海森堡遇见了一个量子位。

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3. I had this advantage over Heisenberg.
在此我比海森堡更有优势。

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4. De Broglie, Heisenberg and Schrodinger.
德布罗意,海森堡和薛定谔。

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5. And Heisenberg says, no, but I know where I am.
海森堡说,哦,不,我只知道我在哪里。

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6. This started with a brilliant idea of Heisenberg.
它发端于海森堡的一个绝妙想法。

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7. See the Heisenberg Uncertainty Principle discussion above.
请参阅前面关于海森堡测不准原理的讨论。

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8. Werner Heisenberg advanced a theory of nuclear composition.
海森堡提出一个关于原子核组成的理论。

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9. Heisenberg Frau Schumacher in the bakery - you remember her?
海森堡面包房的舒马赫太太——你记得她?

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10. It would not have affected me as it would have affected Heisenberg.
它并没有像影响海森堡那样影响到我。

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11. Werner Heisenberg advanced a theory of nuclear composition. w.
海森堡提出一个关于原子核组成的理论。

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12. Heisenberg gave us the uncertainty principle, which we will visit later.
海森堡告诉我们不确定性原理,我们之后会看这个。

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13. It is the Heisenberg Uncertainty Principle working with Murphy's law.
这就是海森堡测不准原理和墨菲定律在起作用。

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14. What we see as a result of Heisenberg is the shift from deterministic models.
我们就得到了海森堡的结果,是从确定性模型转变过来的。

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15. Heisenberg But in the meanwhile, in this most precious meanwhile, there it is.
海森堡但就在那时,就在最为珍贵的那时,它还在。

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16. Here's Bohr with Heisenberg, and we'll talk about Heisenberg's uncertainty principle.
这是波尔和海森堡,我们将讨论海森堡的不确定性原理。

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17. At this stage, you see, I had an advantage over Heisenberg because I did not have his fears.
在这个阶段,你们可以看到,我胜过了海森堡,因为我没有他那种恐惧的心理。

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18. The impact of sampling on the sample result, related to the Heisenberg Uncertainty principle.
抽样方式对抽样结果的影响,这与海森堡测不准原理有关。

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19. This method can be a new implement for the studies on the magnetic systems with Heisenberg model.
该方法可作为研究海森堡型磁性系统的新工具。

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20. Heisenberg was actually talking about elementary particles' position and momentum, but you get the idea.
海森堡实际上说的是基本粒子的位置和动量,但是从中可以得到一个思想。

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21. In 1925, Heisenberg presented a scientific paper whose findings marked an extraordinary breakthrough.
1925年海森堡发表了一篇科学论文,当中的发现标志着一个非同寻常的突破。

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22. Werner Heisenberg: We are not sure which side of the road the chicken was on, but it was moving very fast.
海森堡:我们不确定鸡在马路的哪一边,但鸡的确是移动得很快。

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23. Heisenberg matrix mechanics could hardly be regarded as laws of nature without the fundamental formulation of Dirac.
如果没有狄拉克的符号表示,海森堡的矩阵力学将很难被视为大自然的法则。

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24. Then Heisenberg patiently, and perhaps a bit patronizingly, demonstrates to Popper the mistake in his thought experiment.
接着海森堡耐心地,偶尔略带教训地,向波普尔演示其假想试验的错误所在。

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25. Werner Heisenberg was awarded the 1932 Nobel Prize in Physics, largely for his role in the creation of quantum mechanics.
维尔纳·海森堡1932年被授予诺贝尔物理学奖,很大程度是由于他在创立量子力学上的贡献。

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26. This can be explained by the Heisenberg uncertainty principle, which limits how much information can be known about a particle.
海森堡的测不准原理可以解释此现象。该原理表明我们能获取的粒子信息总是有限的。

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27. A permutation group approach to a one dimensional Heisenberg open spin 12 chain with nearest neighbor interactions is studied.
利用置换群方法研究了具有邻近相互作用的一维海森堡自旋12开链模型。

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28. We mainly concentrate on the influence of interchain Heisenberg interaction and interchain DM interaction on system dimerization.
分析了链间海森堡相互作用和链间DM相互作用对系统二聚化的影响。

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29. Physicist Werner Heisenberg, left, was challenged by the philosopher Karl Popper, right, to defend his paradoxical uncertainty principle.
物理学家维尔纳·海森堡(左)受到哲学家卡尔·波普尔(右)的挑战,针对其测不准原理的悖论。

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30. Physicist Werner Heisenberg, left, was challenged by the philosopher Karl Popper, right, to defend his paradoxical uncertainty principle.
物理学家维尔纳·海森堡(左)受到哲学家卡尔·波普尔(右)的挑战,针对其测不准原理的悖论。

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