thermodynamics

1. Ageing in this case must occur according to the laws of physical chemistry and of thermodynamics.
在这种情况下,老化必须根据物理化学和热力学定律进行。

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2. Pyramids, cathedrals, and rockets exist not because of geometry or thermodynamics, but because they were first a picture in the minds of those who built them.
金字塔、大教堂和火箭的存在并不是因为几何形状或热力学,而是因为它们首先是建造它们的人的脑海中的图画。

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3. It doesn't change the thermodynamics.
但不改变热力学过程。

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4. That's the first law of thermodynamics.
这是热力学第一定律。

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5. It has nothing to do with thermodynamics.
和热力学没有任何关系。

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6. But thermodynamics takes a bird's eye view.
但热力学做的是鸟瞰。

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7. The thermodynamics that we've seen so far.
即我们前面学到的热力学。

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8. In statistical mechanics and in thermodynamics.
在热力学或者统计力学中。

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9. The microscopic underpinnings of thermodynamics.
它是热力学的微观描述。

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10. PROFESSOR: Thermodynamics, all right, let's start.
教授:热力学,好的,我们开始吧。

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11. But we know thermodynamics is all about equilibrium.
但我们知道热力学都是关于平衡的。

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12. Now, what I want to do is start deriving thermodynamics.
现在我开始推导热力学。

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13. And we already know about equilibrium from thermodynamics.
我们已经从热力学,了解了平衡。

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14. You can apply non-equilibrium thermodynamics to economics.
你可以把非平衡热力学,应用于经济学。

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15. If it's an equilibrium system, then thermodynamics can describe it.
如果它是个平衡系统,那么热力学就能描述它。

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16. They also do depend on thermodynamics and where equilibrium states are.
这些依赖于热力学,和平衡态的性质。

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17. So today, I just want to continue doing some statistical thermodynamics.
那么今天,我仅仅想继续探讨,一些统计热力学问题。

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18. And we went through that and saw what the thermodynamics worked out to be.
我们算出了他们,并看到了它们的热力学应该是怎样的。

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19. So, the point is that from Q we're going to get all of our thermodynamics.
现在关键问题是我们要从Q中,得到所有的热力学量。

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20. in the last couple lectures at a really important topic in thermodynamics.
在前面几次课里,面我们考察了热力学中一个很重要的课题。

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21. And so we can immediately start in deriving all of the thermodynamics, right?
这样我们可以马上开始,得到所有热力学的量对吧?

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22. You're moving heat around When you're changing matter through thermodynamics.
当你通过热力学改变物质形态时,你是在,转移热量。

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23. The volume will be filled and we've derived the thermodynamics for it before.
整个容积将被占满,之前我们已经得到它的热力学性质。

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24. PROFESSOR BAWENDI: Last time you talked about the first law of thermodynamics.
教授:上一次我们谈到,热力学第一定律。

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25. And just tried to understand what the basic thermodynamics is that it would exhibit.
并试着去理解,它所呈现出的基本的热力学。

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26. Fairly powerful statement, and that's another form of the first law of thermodynamics.
这是一个相当有用的表述,是热力学第一定律的另外一种形式。

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27. And so we saw what the thermodynamics worked out to be. And what the limiting cases were.
我们也看到了热力学的计算结果,也看到了极限情况的形式。

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28. And also with the high and low temperature limits of the thermodynamics turned out to be.
也看到了高温和低温极限下,的热力学形式。

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29. And now, just based on that simple model, we should be able to figure out all the thermodynamics.
那么,基于这个简单的模型,我们应该能解决所有相关的热力学问题。

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30. The topics covered are the usual physics stuff: thermodynamics, quantum effects, and fault-tolerance.
该主题涉及常见的物理问题:热力学、量子效应和容错。

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