The British physicist and novelist C. P. Snow once said that a nonscientist who didn't know the second law of thermodynamics was like a scientist who had never read Shakespeare.
英国物理学家和小说家C·P斯诺曾说过一个不是科学家的人不知道热力学定律的话就如同一个科学家未曾看过莎士比亚的著作一般。
For example, that there's a lack of transitional fossils and that the second law of thermodynamics makes evolution impossible.
例如,缺乏渐进性过渡生物化石,热力学第二定律证明了进化论是不可能的,等等。
This, in a nutshell, is the second law of thermodynamics, which states that the entropy (a measure of the disorder) in a closed physical system never decreases.
简单来说,热力学第二定律表明在一个封闭的系统中,熵是不会降低的。
He suggested that gravity is merely a manifestation of entropy in the Universe, which always increases according to the second law of thermodynamics.
他认为,依据热力学第二定律,重力只是宇宙中熵的一种表现。
That's the second law of thermodynamics: Entropy goes up with time, things become more disorderly.
这是根据热力学第二定律(second law of thermodynamics)得到的:即熵随着时间增长,世间万物会变得更加无序。
A guy named Rudolf Clausius is generally credited with coming up with the second law of thermodynamics.
一位叫做鲁道夫·克劳修斯(Rudolf Clausius)的人表述了热力学第二定律。
Although the classical dissipative structure theory misapplied the second law of thermodynamics and the disorder of entropy, but could not conceal the value of dissipative structure theory itself.
经典耗散结构对其有序的分析虽然误用了热力学第二定律和无序度的熵,但这掩盖不了耗散结构本身的价值。
Whatever time forward or backward operation, most of the laws of physics can normal applications, but the second law of thermodynamics except.
无论时间向前或向后运行,大多数物理定律都能正常应用,但热力学第二定律除外。
To question the finality of the principle of entropy is not to dispute the second law of thermodynamics.
对熵原理所导致的结局提出质疑,并不意味着争辩第二热力学定律的真实性。
It was once widely believed that living organisms might be exempt from the second law of thermodynamics.
人们曾一度广泛相信,活着的有机体不受热力学第二定律的制约。
A third statement of the second law of thermodynamics makes use of a new concept called entropy.
热力学第二定律的第三种陈述方式引用了一个叫做熵的新概念。
The advantage in the second law of thermodynamics analysis is obviously illustrated with comparing enthalpy - exergy diagram to frequently utilized thermodynamic diagram.
通过焓火用图与常用热力学图线的比较,展示了焓火用图在进行第二定律分析时所具有的优势。
Classically, one could violate the second law of thermodynamics by material entering a black hole disappearing from our universe and resulting in a decrease of the total entropy of the universe.
经典地,一个靠材料进入黑洞从我们的宇宙消失而且造成宇宙总熵减少就违反了热力学第二定律。
This is clearly a violation of the second law of thermodynamics.
这很明显地违反了热力学第二定律。
According to the second law of thermodynamics, a heat engine can generate power from this temperature difference.
根据热力学第二定律,一个热机发电可以从这个温差。
The point of argument of this article is opposed to the attempt to deny the Second Law of Thermodynamics on "grounds" of certain phenomena in photo-chemical reactions.
本文针对那种试图以光化学反应为“依据”来否定热力学第二定律的观点提出了异议。
It's almost as important as the second law of thermodynamics, which you'll see in a week or so.
几乎同热力学第二定律,一样重要,你们将在接下来的几周时间里看到这点。
What of the second law of thermodynamics?
热力学第二定律又是对是错?
Using the exergy based on the second law of thermodynamics, the irreversibility during the important heat transfer as well as input and output power processes inside a NPP are analysed.
利用热力学第二定律建立的火用分析方法,对核动力装置中主要的热量传递、作功与受功过程的不可逆性进行了分析。
The paper discusses the relation of entropy change and quotient of heat-temperature based on the second law of thermodynamics.
通过热力学第二定律,从理论上分析熵变与热温商之间的关系,再进一步由实践验证。
What light does this discussion throw on the second law of thermodynamics?
这种讨论阐明了热力学第二定律的什么问题?
Because of the second law of thermodynamics both energy and matter in the Universe are becoming less useful as time goes on.
根据热力学第二定律,宇宙里的能量和物质随着时间的推移而变得越来越无用。
The state function, entropy, is introduced by the means of a perfect gas behavior, and the second law of thermodynamics is demonstrated based on the first law.
本文以理想气体的行为为手段引出熵函数,并以热力学第一定律为基础,论证了熵增大原理。
Its a kernel of thermal system analysis in power plant based on the second law of thermodynamics that the exhaust coefficient of a steam turbine is calculated.
以热力学第二定律为基础的火电厂热力系统分析方法核心是汽轮机排汽系数的确定。
The paper discusses the relation of entropy change and quotient of heat-temperature based on the second law of thermodynamics. The result has been verified in practice.
通过热力学第二定律,从理论上分析熵变与热温商之间的关系,再进一步由实践验证之。
This paper tries to prove equivalence of Kelvin Statement and Clausius Statement of the second law of thermodynamics under negative absolute temperature by reduction to absurdity.
用反证法证明在负绝对温度下热力学第二定律的开尔文表述和克劳修斯表述等效。
In this paper, it is shown that both of the Clausiua and the Kelvin statements of the second law of thermodynamics are not quite perfect, and two improved statements arc suggested.
本文指出热力学第二定律的克劳修斯说法和开耳芬说法都不甚完备,并提出了两种改进的说法。
The QPNS equations in entropy variables derived in the present paper have the symmetrization and satisfy the second law of thermodynamics automatically that can improve the stability of the solution.
本文导出的熵变量形式QPNS方程具有对称性和自动满足热力学第二定律,这将提高解的稳定性。
Having found the velocity and the temperature distribution, the second law of thermodynamics was invoked to find the local and average entropy generation rate.
求解速度和温度分布时,利用热力学第二定律求解了局部平均熵产率。
Having found the velocity and the temperature distribution, the second law of thermodynamics was invoked to find the local and average entropy generation rate.
求解速度和温度分布时,利用热力学第二定律求解了局部平均熵产率。
应用推荐