thermodynamic
- 1. And that's the zeroth law thermodynamic.
- 这就是热力学第零定律。
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- 2. We formulate these broad thermodynamic laws.
- 然后抽象这些一般的热力学定律。
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- 3. In your equations, it's the same thermodynamic picture.
- 在方程里面,基本是相同的热力学图像。
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- 4. The boiler is a typical complex thermodynamic system.
- 锅炉是典型的复杂热工系统。
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- 5. On the thermodynamic framework e've been working with all term.
- 在热力学的框架下,我们已经处理过这些问题。
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- 6. But the direct extrusion press has a thermodynamic problem.
- 但是正向挤压机也存在一个热力学的问题。
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- 7. What thermodynamic function is naturally a function of N, V, T?
- 什么热力学量,是V,N和T的自然函数?
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- 8. It operates on the same thermodynamic principles as refrigeration.
- 它如同冷冻一样在相同的热力学原理下运转。
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- 9. In fact, we consider here two factors, a thermodynamic and a kinetic one.
- 事实上,我们认为这里有两个因素,一个是热力学以及一个是动力学。
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- 10. Collectively, these features can be said to arise via thermodynamic constraints.
- 总体上可以说热力学限制了这些特性。
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- 11. Hailstorms in Northern Greece: synoptic patterns and thermodynamic environment.
- 希腊北部雹暴:天气形势和热力环境。
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- 12. So in the earlier part of the course, and saw the macroscopic thermodynamic treatment.
- 在课程的前一部分,见过宏观的热力学处理方法。
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- 13. Thermodynamic entropy draws all chemical reactions down to their minimal energy level.
- 热力学的熵变将所有化学反应拉到它们的最低能量值[5]。
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- 14. And then we can start writing out the results for the various thermodynamic properties.
- 这样我们就能开始写出不同结果,热力学性质的。
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- 15. If it's not, then you're going to have trouble describing it using thermodynamic properties.
- 如果它不是,那么用热力学性质去,描述它就要有麻烦了。
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- 16. OK, All right, so these are the thermodynamic quantities that you're familiar with already.
- 好,这些是你们已经,熟悉了的热力学量,让我们很快地。
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- 17. The economic analysis of the thermodynamic system is one of important studies in this thesis.
- 火电厂热力系统的经济性分析是论文研究的重点之一。
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- 18. I should be able to start from my microscopic picture and get to macroscopic thermodynamic results.
- 我们能够从微观图像出发,最终得到宏观热力学的结果。
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- 19. The tephigram is a thermodynamic particularly suitable for representing atmospheric processes.
- 温熵图是一种热力学图,特别适合于描述大气过程。
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- 20. This serves as a crude model of entropy, Smolyaninov says, representing the thermodynamic arrow of time.
- 可以看作是熵的粗糙模型,斯莫连尼诺乌说,它代表了热力学时间之箭。
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- 21. And I'm not going to write out all of the inpiduals thermodynamic terms, but I'll write a few of them.
- 我不会写出,所有的各热力学项,我只会写出其中的一些。
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- 22. But usually if you have a thermodynamic system, then it's big enough. That's what thermodynamics is about.
- 但一般对一个热力学体系,它总是足够大的,这正是热力学要表述的。
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- 23. Thermal energy: Internal energy of a system in thermodynamic equilibrium by virtue of its temperature.
- 热能:处于热力学平衡状态的系统由于它的温度而具有的内能。
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- 24. The laws of thermodynamics involve a concept called entropy for irreversible thermodynamic processes .
- 热力学定律包括着一个称为熵的有关不可递热力学过程的概念。
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- 25. Since black holes do not classically emit radiation, the thermodynamic viewpoint was simply an analogy.
- 既然黑洞不是经典地发出辐射,熵的观点只是一个类推。
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- 26. Like I promised, we're going to be able to derive every thermodynamic quantity if we just know the partition function.
- 就像我说过的,我就可以计算所有的热力学量,如果我知道了配分函数。
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- 27. How does the time taken to establish thermodynamic equilibrium depend on the temperature in the experimental cell?
- 怎么花费的时间建立热力学平衡取决于在实验性细胞的温度?
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- 28. How does the time taken to establish thermodynamic equilibrium depend on the temperature in the experimental cell?
- 怎么花费的时间建立热力学平衡取决于在实验性细胞的温度?
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