而理想气体的话两边温度将一样。
就像理想气体一样浓度,代替分压。
This looks just like the ideal gas, where the concentration replaces the partial pressure.
我们用理想气体定律,来消去温度。
理想气体的条件,也依然成立。
这跟理想气体相比,会稍微有点复杂。
Now, it's a little bit more complicated than for the ideal gas.
对于理想气体,我们知道u与体积无关。
理想气体定律结果,就是一个很好的近似。
The ideal gas law may turn out to be a very good approximation.
就像理想气体在平衡态。
所有的都是理想气体。
这意味着,我们把理想气体装在一个容器中。
What that means is, I've got my ideal gas in some container.
对理想气体就是这个。
因为这一项,和理想气体中的对应结果不同。
And that's because this is different from what it is in the ideal gas case.
在理想气体中是与真空做参考的,什么也没有。
In an ideal gas, it's reference to vacuum, basically there's nothing there.
我们只是讨论了温度下降时,理想气体的行为。
We just treated the one case of an ideal gas as the temperature is reduced.
如果不是理想气体。
这个等式被叫做理想气体定律。
这些是理想气体。
从理想气体开始。
有点像理想气体定律,我们可以从原理上理解这点。
It's like the ideal gas law, and one could know that in principle.
当我们有一个混合物时,我们从理想气体开始讨论。
When we have a mixture, and we're going to start with ideal gases.
大气可看成绝热平衡下的双原子理想气体。
Assume that atmosphere is made of diatom ideal gas in adiabatic equilibrium.
不正确的,但是幸运的是,对于理想气体是完全正确的。
H for an ideal gas is only a function of temperature. This is not true for a real gas fortunately, but it's true for an ideal gas.
概述了热容量为常量的理想气体的卡诺循环效率。
This paper Outlines Carnot cycle efficiency of ideal gas whose heat capacity is a constant.
从宏观角度看,理想气体的定义是由推论而得来的。
At the macroscopic level, an ideal gas is defined by a process of extrapolation.
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.
等于CvdT,du,is,Cv,dT。,因为是理想气体,所以等于w1一撇。
等于CvdT,du,is,Cv,dT。,因为是理想气体,所以等于w1一撇。
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