The ΔG about the reacting process has been calculated according to the reversible process.
按此可逆过程计算了反应的ΔG,所得结果与运用化学势方法计算的结果完全吻合。
This paper discusses two questions about the first and the second lows of thermodynamics in teaching so as to point out that a whole understanding of the reversible process character is the key to the problem.
本文讨论了热力学第一和第二定律教学中 ,两个学生质疑产生的原因 ,指出全面理解可逆过程的特点是问题的关
In terms of the symmetry of the physical variable describing the thermodynamic system, the concept and the characters of entropy is introduced with the analogy method,and the principle of entropy increment has been established based on the relationship between the work and the energy in the reversible process in contrast with the irreversible process.
本文根据物理量之间的对称关系应用类比的方法引出了熵的概念 ,并得到熵的性质 ;利用可逆过程与不可逆过程中的功能关系的对比建立了熵增加原理。
Accessible set is a kind of measurable set which correlated with predictable set,and corresponding to accessible set is the accessible process.
可及集是与可料集相联系的一类可测集,与可及集相对应的是可及过程。
On this basis,the paper finds the relations between predictable process and natural-lifting process,and applies the concept of natural-lifting process to accessible process.
在此基础上,找到了可料过程与自然提升过程之间的关系,并且把自然提升过程引入到了可及过程当中,得出了自然提升过程是适应过程的另一个充分必要条件。
In light of this fact,we prove that if X is a d-dimensional semimartingale and a d-dimensional predictable process,H is X-integrable in the sense of vector stochasti.
在此基础上又证明了:若X是关于P的d维半鞅,d维可料过程H关于P在半鞅向量随机积分的意义下对X可积,则当概率测度Q■locP时,H关于Q在半鞅向量随机积分的意义下也对X可积,并且两种积分是Q-无区别的。
It establishes a result which can be easily applied to the problem derived from the different predictable process in the decomposition of semimartingales in the sense of vector stochastic integrals.
建立了半鞅向量随机积分的一个结果,能方便处理可料过程在向量随机积分意义下对半鞅的分解随可料过程不同而不同的问题。
On this basis,the paper finds the relations between predictable process and natural-lifting process,and applies the concept of natural-lifting process to accessible process.
在此基础上,找到了可料过程与自然提升过程之间的关系,并且把自然提升过程引入到了可及过程当中,得出了自然提升过程是适应过程的另一个充分必要条件。
On the treatment of reversible and irreversible processes or cycles in Clausius' method of entropy deduction
关于克劳修斯方法对可逆和不可逆过程(循环)的处理
For any irreversible process, the efficiency is less than that of the Carnot cycle.
任何不可逆过程中,效率是小于的卡诺循环。
Study on the Application of Thermodynamics of Irreversible Processes in Metallurgy;
不可逆过程热力学在冶金中的应用研究
Jarzynski s Equality in Irreversible Processes of Chaotic Few-body Systems;
混沌少体系统不可逆过程中的Jarzynski等式(英文)
On the Intrinsic Property of the Irreversible Process;
不可逆过程的两个基本特征——自组织和随机性
Thermodynamic Solution for the rate of Entropy Production in Irreversible Process;
不可逆过程熵产生率的热力学处理方法
Discussion of Reversible Process Thermodynamics of Liquid junction Equation;
液体接界电位的不可逆过程热力学讨论
The Decrease Rate's Calculation of Gibbs Function in the Irreversible Process
不可逆过程中吉布斯函数减少率的计算
The Mathematical Model and Application of Rate Irreversible Process
不可逆过程进行速率问题的数学模型及应用
Poisoning is usually a slow, irreversible process.
中毒通常是一个缓慢的,不可逆的过程。
The Orientation and the Limitation of the Process--the Equilibrium Criterion(Ⅱ);
宏观过程的方向与限度——可逆性判据(Ⅱ)
Irreversible loss analysis of heat transfer in helical tube
螺旋管内传热过程的不可逆损失分析
Study on The Meaning of Sentence Pattern and Derived Process of "NP_O+V+NP_L";
可逆性与非可逆性“NP_受+V+NP_处”的派生过程及句类意义
It follows that every reversible adiabatic process is one of constant entropy, and may be described as isentropic.
可见可逆绝热过程都是熵不变的过程,可以把这种过程叫做等熵过程。
Are you sure you want to promote ^1 to a project? This process cannot be reversed.
是否确实要将 ^1 提升为项目?此过程将不可逆。
Aging, like death, is an irreversible process.
衰老像死亡一样是一个不可逆转的过程。
Adhesion process and reversible adhesion kinetics of psychrotrophs
耐冷菌群的固定过程及其可逆附着动力学讨论
Analysis of Thermodynamic and Statistics for Irreversibility of Free Expansion and Diffusion Process;
自由膨胀和扩散过程不可逆性的热统分析