We learned that the pressure dependence of the Gibbs free energy gives you the pressure dependence for the chemical potential.
我们还知道吉布斯自由能,对压强的依赖关系决定了,化学势对压强的依赖关系。
Now, the chemical potential, as we saw, was the Gibbs free energy.
现在,化学势,就像我们看到的,等于吉布斯自由能。
What this is telling us is that we just have a chemical potential, of Helmholtz free energy per molecule.
这告诉我们的是,我们只有化学势,每个分子的亥姆霍兹自由能。
Especially when you're talking about something like a chemical potential, which is really nothing but the Gibbs free energy.
尤其是当你谈论诸如,化学势之类的东西的时候,实际上这就是吉布斯自由能。
So of course, the free energy in either case is just the sum of the number of moles of each times the chemical potential of each.
那么当然,任一种情况的自由能,就是各组分的分子数,乘以化学势再加和。
So there's so much chemistry that takes place in liquid mixtures that it is really important to have a sense of what the free energy and chemical potential of each of the species is doing in there.
在液体混合物中发生,如此多的化学现象,以致了解每一种液体的,自由能和化学势,是怎样的非常重要。
Changes in Gibbs free energy, changes in the chemical potential. Everything will be related to this partition function. This subsystem.
吉布斯自由能和化学势的变化,一切都,由这个子系统决定。
Corresponding energy and chemical potential are also worked out by numerical method.
并且,通过数值模拟我们计算了不同原子数的能量和化学势。
It is found that the radiation spectrum is not only relative to the radiation temperature of black-body, but also to the energy and the chemical potential and the kinds of particles.
发现辐射谱不仅与黑体的辐射温度有关,还与辐射粒子的能量、化学势和种类有关。
The reaction products of the process include oil, which may be a potential energy source or chemical material.
处理过程的反应产物能提供不少可作为能源或化工原料的原油。
Secondly, the particle density, energy density, net baryon density and net strangeness density are calculated, and the relation between them and chemical potential is discussed.
其次计算粒密度、能密度,净重子密度和净奇异子密度以及分析它们和化学势的关系。
The refining and chemical production processes that the greats quantity are in separate process, heat exchange and reaction processes, the energy conservation potential is tremendous.
炼油、石化生产过程中大量存在的分离、换热和反应工序,节能潜力巨大。
The optimal co-ordination mode for the hydration of complementary bases G-C, A-T in B-DNA molecule has been derived by using quantum chemical calculations and empirical potential energy functions.
本文通过对B—DNA分子中互补碱基对A—T、G—C水合作用的量子化学计算以及最优化处理求得了它们水合作用的最优配位模式。
This paper analyzes energy dissipation and potential utilization of human body. Power harvest ways are surveyed including kinetic energy, heat and chemical energy.
本文分析了人体的能量分布和利用潜力,并对目前能量收集方法进行了总结,包括人体的运动能量、热能和化学能等。
This paper analyzes energy dissipation and potential utilization of human body. Power harvest ways are surveyed including kinetic energy, heat and chemical energy.
本文分析了人体的能量分布和利用潜力,并对目前能量收集方法进行了总结,包括人体的运动能量、热能和化学能等。
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