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ther·mo·dy·nam·ic 英ˌθɜːməʊdaɪˈnæmɪk美ˌθɝmodaɪˈnæmɪkAHDthûr'mō-dī-nămʹĭk 高COCA⁵⁴⁰²¹BNC³¹⁴⁴¹iWeb²⁶²⁶⁷
基本英英搭配记法近义反义例句例句
adj.热力的²⁸;热力学的⁷²副词thermodynamically
Adjective:
of or concerned with thermodynamics;the thermodynamic limit thermodynamics热力学thermodynamic model热力模型,热力学模型…thermodynamic efficiency热力学效率,热力学的…thermodynamic state热力学状态thermodynamic flux热力学通量thermodynamic parameter热力学参数thermodynamic analysis热力学分析thermodynamic probability热力学概率,热力学的…thermodynamic function热力函数,热力学函数…thermodynamic potential热力势,热力学势…thermodynamic process热力过程thermodynamic cycle热力循环thermodynamic equilibrium热力平衡thermodynamic system热力系统,热力学体系…thermodynamic similarity热力学相似thermodynamic property热力学性质therm…thermodynamic temperature热力学温度thermodynamic scale热力学温标thermodynamic criterion热力学准则thermodynamic diagram热力图解
thermo-热dynam-力量-ic…的⇒adj.热力的²⁸;热力学的⁷²adj.物热力学的;使用热动力的近义词 thermodynamical热力的
形容词100%
用作形容词This quantity is identical to the negative of thethermodynamicpressure.这个量等于热动力压力的负值。 And the reason is, as we'll see shortly, it turns out that every single macroscopic thermodynamic function can be Derived by knowing just that.
原因在于,我们待会就会看到,这个求和可以推导,任何一个体系的宏观热力学量,得到结果之后。163
And I'm not going to write out all of the individuals 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。163
Emergent properties arising via thermodynamic and morphodynamic constraints are abundant in non-life: the hardness of minerals; the malleability of metals; the surface tension of liquids.
非生命物质,由于热力学和形态动力学约束,得到的自然发生的性质是丰富多彩的:矿物的硬度,金属的延展性, 以及液体表面的张力。 yeeyan
So in other words, macroscopic thermodynamic properties come straight out of our microscopic model of statistical mechanics.
换句话说,宏观的热力学性质可以,从微观模型,的统计力学得到。163
So what they do is, they're describing how these thermodynamic properties change, in terms of only state functions and state variables.
他们的作用是描述,随着状态函数和状态变量的变化,系统的热力性质如何变化。163
After that, the formalism of statistical mechanics takes over, and calculates partition functions and thermodynamic functions.
从那以后,都是统计力学的内容,计算配分函数,和热力学函数。163
And that's the zeroth law thermodynamic.
这就是热力学第零定律。163
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。163
And saw how in the framework of statistical mechanics, we could derive the thermodynamic results that you saw before, based on an empirical framework.
并且看到在统计力学的框架下,我们能得到你们之前看到的,基于实验框架的热力学结果。163
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。 yeeyan
Ecosystems act as thermodynamic stabilizers, and“the carbon cycle integrates biological processes with physical Earth processes,” Whiteside said.
生态系统起到了在热力学方面起到了稳定剂的作用,而且怀特塞德表示:“碳循环结合了生物进程和地球物理过程。” yeeyan
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。163
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。163
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。163
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。163
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。163
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。163
So we're going to go through a thermodynamic cycle, and here's what I want to calculate when we do this.
那么我们要推导,一个热力学循环,这是这个过程中我要计算的东西。163
That is, in terms of equations of state. For any material Then we would really be able to essentially calculate anything. Anything thermodynamic.
换句话说,利用任何一种物质的状态方程,我们就能够实质上,计算所有物理量,所有热力学量。163
The high bond energy of O2 also leads to high thermodynamic instability of all oxides.
氧分子的键能高,这使所有氧化物具有高的热动力学不稳定性。 yeeyan
They also plan to study the extent of the thermodynamic effects, both in terms of local magnitude and of how far downwind the effects spread.
他们还计划从当地重要性和在顺风中传播的距离两个角度研究热力学影响的程度。 yeeyan
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。 yeeyan
This serves as a crude model of entropy, Smolyaninov says, representing the thermodynamic arrow of time.
斯莫利亚尼诺说,这也就是熵的粗糙模型,其代表了时间热力学箭头; blog.sina.com.cn
We formulate these broad thermodynamic laws.
然后抽象这些一般的热力学定律。163
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?163
You can look at it the thermodynamic way, which is the way that we're going to want to be looking at it.
可以认为是热力学过程,这是我们将会,看待的过程。163
You can calculate all the macroscopic properties that ordinarily come from the thermodynamic laws that were based on empirical macroscopic observation.
你们能计算所有问题,你们能得到所有宏观的性质,它们通常来源于以实验的,宏观的观察为基础的热力学定律。163
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]。 yeeyan |