1) the zeroth law of thermodynamics
热力学第零定律
1.
In some higher education thermology textbooks,the zeroth law of thermodynamics is stated inaccurately,and its experiments are designed unscientificically,even dissociated from itself,and so on.
目前部分高校教材中对热力学第零定律内容存在的表述不准确、实验设计不科学、实验设计与所陈述的定律相游离等问题作了指陈和分析,并针对这些问题分别从热力学第零定律的物理实质和物理意义两个角度出发,提出了对应的两种定律陈述和实验设计的修改意见。
2) zeroth law of thermodynamics
热力学零定律
3) The Second Law of thermodynamics
热力学第二定律
1.
The Application of the Verbal Expression of the Second Law of Thermodynamics and Entropy Function;
热力学第二定律文字表述的应用与熵函数
2.
A different opinion on rearranging the theory of the second law of thermodynamics;
对重整热力学第二定律理论体系的不同看法
3.
The concrete thought on reclaiming width of the theory of the second law of thermodynamics
拓宽热力学第二定律理论体系的具体构思
4) second law of thermodynamics
热力学第二定律
1.
The Essence of Second Law of Thermodynamics in Statistical Mechanics;
热力学第二定律的统计实质
2.
The second law of thermodynamics and entropy revisited;
关于热力学第二定律与熵的再思考
3.
Some unsymmetry in the second law of thermodynamics;
热力学第二定律的非对称性
5) the first law of thermodynamics
热力学第一定律
1.
The application of the First Law of thermodynamics in estimation cooling water volume the diesel engine;
热力学第一定律在估算柴油机冷却水量中的应用
2.
The heating effect of capacitors in operation is given based on the first law of thermodynamics.
本文用热力学第一定律给出电容器在工作时产生的热效应。
3.
Using the first law of thermodynamics,the work done by and the heat absorbed and released and the change in intrinsic energy of Van Der Waals gas under quasi static processes are discussed It leads to the expressions of the solutions to work,heat and intrinsic energy The comparion between Van Der Waals gas and ideal gas is also made
应用热力学第一定律对范德瓦尔斯气体在各种准静态过程中所做的功,吸收或放出的热量以及内能的变化进行讨论,得出各准静态过程中功、热量和内能的求解表达式,并与理想气体进行比较。
6) first law of thermodynamics
热力学第一定律
1.
According to the first law of thermodynamics, if ice and water were mixed, the systemic total energy keeps conversation.
冰在熔解过程中需要吸取热能,根据热力学第一定律,将冰与水混合的过程中系统的总能量守恒,即冰在熔解及升温过程中所吸收的热量就等于水降温放出的热量,最终冰熔解并达到与水相同的温度。
2.
In this paper we have discussed the development course of some concepts such as heat, temperature, the first law of thermodynamics, which revealed that there filled with the struggles between dialectics and metaphysics.
作者通过讨论热学中“热”的本质、温度、热力学第一定律等概念发展历程,指出在物理学发展历程中充满着辩证法与形而上学的斗争,物理学正是在新旧认识的反复较量中,建立起一座座的历史丰碑,一次次的证明了唯物辩证法的正确性。
3.
It is shown that Up T→∞ does not violate the first law of thermodynamics by experimental fact.
用实验事实说明 U p T→∞不违反热力学第一定
补充资料:热力学第零定律
热力学中以热平衡概念为基础对温度作出定义的定律。通常表述为:与第三个系统处于热平衡状态的两个系统之间,必定处于热平衡状态。图中A、B、C为 3个质量和组成固定,且与外界完全隔绝的热力系统。将其中的B、C用绝热壁隔开,同时使它们分别与A发生热接触。待A与B和A与C 都达到热平衡时,再使B与C 发生热接触。这时B和C 的热力状态不再变化,这表明它们之间在热性质方面也已达到平衡。第零定律表明,一切互为热平衡的系统具有一个数值上相等的共同的宏观性质──温度。温度计所以能够测定物体温度正是依据这个原理。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条