• In principle, this value, this efficiency, can approach 1 as the low temperature approaches absolute zero.

    这个值,效率,当低温热源的温度1,是据对零度时可以达到一。

    麻省理工公开课 - 热力学与动力学课程节选

  • 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.

    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。

    麻省理工公开课 - 热力学与动力学课程节选

  • So, this temperature, this absolute zero here, which is absolute zero on the Kelvin scale.

    在负无穷处,现在把绝对零度定义为,开尔文温标中的0度。

    麻省理工公开课 - 热力学与动力学课程节选

  • So the concept of an absolute zero, a temperature below which you just can't go, that's directly out of the scheme here, this linear interpolation scheme with these two reference points.

    这就是绝对零度,这样,从线性插值的图像出发,我们得到了绝对零度的概念,你永远无法达到,低于绝对零度的状态。

    麻省理工公开课 - 热力学与动力学课程节选

  • Last time we reach the third law which is telling us that we can't quite get to zero degrees Kelvin .but that as the temperature approaches zero degrees Kelvin, the absolute entropy of a pure substance in perfect crystalline form is zero.

    上次课我们得到了热力学第三定律,这个定律告诉我们我们无法,达到0K的温度,但是在我们接近绝对零度的过程中,以完美晶体形式存在的纯物质的绝对熵,也趋向于零。

    麻省理工公开课 - 热力学与动力学课程节选

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