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It's not going to be zero this time because we have non zero heat exchange between the system and the environment, right.?
热力学量,但是现在让我们看一下,我们的特殊函数,这次它不会是零,因为系统与外界的热量交换并不是零,对吧?
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That is, in terms of equations of state. For any material Then we would really be able to essentially calculate anything. Anything thermodynamic.
换句话说,利用任何一种物质的状态方程,我们就能够实质上,计算所有物理量,所有热力学量。
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Which means that g we can really calculate all the thermodynamics in terms of only g.
这意味着,我们能够利用,计算出所有的热力学量。
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OK, All right, so these are the thermodynamic quantities that you're familiar with already.
好,这些是你们已经,熟悉了的热力学量,让我们很快地。
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Now we can use it to derive differential relations for all of the thermodynamics quantities.
现在我们可以利用他们,推导所有热力学量的微分关系。
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That doesn't come out of what we calculated before in thermochemistry.
我们以前在化学热力学中所计算的量,无法告诉我们这些。
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Since these are all state functions.
因为所有的热力学量都是态函数。
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