有第零定律,这些定律中的每一条都定义了,热力学中一个基本物理量的概念,第零定律定义了温度。
There's a zeroth law the zeroth law every one of these laws basically defines the quantity in thermodynamics and then defines the concept.
在讨论热力学第三定律的时候,我们讨论过压强变化,即对于纯净的完美晶体,随着温度下降到绝对零度熵也变成零。
We looked at pressure change before, actually, in discussing the third law, the fact that the entropy goes to zero as the absolute temperature goes to zero for a pure, perfect crystal.
这就是热力学第零定律。
对零点剩余炳的存在提出了一种新解释,指出零点剩余熵的存在和熵冻结实际上是等价的,比热测量的结果并不违背热力学第三定律。
It is shown that the existence of the residual entropy and the entropy-freezing are in fact equal and that the third law of thermodynamics is still valid in glass systems.
指出了钟速同步与热力学第零定律的关系,以及奇性定理与热力学第三定律的关系。
The relation between the synchronization of clock rate and the zeroth law of thermodynamics, and the relation between the singularity theorem and the third law of thermodynamics are pointed out.
前提是系统要孤立。在热力学行话中,混乱程度叫做熵。第三定律断言,没有一个系统能达到绝对零度。
As long as the system is isolated. In thermodynamics jargon, randomness is called entropy. The third law states that no system can be reduced to 0 K.
唯一的问题是,根据热力学第三定律,温度不可能低于零下459华氏度。
The only snag is the Third Law of Thermodynamics, which says it's impossible to go below-459F.
唯一的问题是,根据热力学第三定律,温度不可能低于零下459华氏度。
The only snag is the Third Law of Thermodynamics, which says it's impossible to go below-459F.
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