因为它,可以直接从状态方程中得到?
Because this is what comes directly out of an equation of state, right?
我们需要描述实际气体,的状态方程。
For real gases. This is an equation of state for an ideal gases.
我们可以通过测量得到状态方程的数据。
这是状态方程告诉我们的。
这意味着我们假定,我们知道其状态方程。
更一般的,我们可以测量状态方程。
我们再一次发现,这个可以从状态方程中得出。
And again, this is something that comes from an equation of state.
结果表明,修正的状态方程精度较高。
The results show that the modified equation of state is more accurate.
目标状态方程和量测方程得到了简化。
Both target status equation and measurement equation are simplified.
然后我们就可以把这些数据,作为我们的状态方程。
Well, then, we could just use that for our equation of state.
借助状态方程,内能和其它变量发生关系。
The internal energy is related to other variables through the equations of state.
如果我们知道状态方程,我们就可以知道所有的物理量。
Again, if we know the equation of state, we know all this stuff.
一个状态方程有关的压力,温度和气体密度。
An equation of state relates the pressure, temperature, and density of the gas.
本文研究的主要内容有:1、状态方程组的建立。
The main content is as follows:1. The establishment of the state equations .
利用理想气体状态方程计算气泡内空气的最高温度。
The ideal gas state equation is used to calculate the maximum temperature of air trap.
利用理想气体状态方程计算气泡内空气的最高温度。
The ideal gas state equation is used to calculate the maximum temperature of air trap.
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