The study of thermodynamics enables us to predict which processes or reactions might occur spontaneously . 热力学的研究使我们能够预示哪些过程或反应可以自发地进行。
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。
We have no evidence at all to confirm or contradict the applicability of thermodynamics to the universe as a whole . 我们还毫无证据足以肯定或否定热力学在整个宇宙中的适用性。
To the biochemist, the importance of thermodynamics lies in its ability to predict the position of equilibrium in a system . 对于生物化学家来说,热力学的重要性在于它能预示一个体系在平衡时的位置。
Thermal pollution is an inevitable concomitant of power generationan unavoidable implication of the second law of thermodynamics . 热污染是动力生产所无法摆脱的它与热力学第二定律有着难解之缘。
In the large-scale world, the elaborate complexity of many systems is one reason for the special importance of the second law of thermodynamics . 在大尺度世界中,许多系统在细节上的错综复杂,这又是热力学第二定律显得特别重要的原因之一。
The micro explanation of the first law of thermodynamics 热力学第一定律的微观阐释
Fick law and the diffusion ' s thermodynamics theory 菲克定律与扩散的热力学理论
Recognizatiou on chemistry thermodynamics entropy criterm 对化学热力学熵判据的讨论
Metallurgical processes and non - equilibrium thermodynamics 冶金过程与非平衡态热力学
