这是一个绝热过程。
We could do an adiabatic process.
我们再来研究绝热过程。
绝热可逆路径。
Such reactions are called non-adiabatic.
这种反应叫做非绝热反应。
So we've got our reversible adiabatic path right.
那么我们有了这条可逆绝热路径。
Here comes an adiabatic expansion, to point three.
通过绝热膨胀到,第3点。
It's set up to be well-insulated so it's adiabatic.
所以它是绝热的。
Yes, exactly, it's adiabatic, right constant pressure.
对,没错,它是绝热的。
This is isothermal. This is adiabatic, there's no heat.
一个是等温,一个是绝热。
We know in an adiabatic expansion the system's going to cool.
我们知道在绝热膨胀过程中,系统温度会降低。
Our constraint is going to be an adiabatic expansion or compression.
现在约束改成了,绝热膨胀,或者压缩。
Second, we study the stability in the inviscid adiabatic limit.
然后,我们研究无粘滞的绝热吸积流。
So this is still adiabatic. It's insulated, but now it's constant volume, OK.
这仍然是绝热的,是隔热的,但现在它的体积是恒定的。
And now we're going to have another adiabatic step, an adiabatic compression.
现在我们进行另外一步,绝热收缩过程。
We're pretty much done with our definitions STUDENT: Was adiabatic reversible?
各种定义,学生:绝热过程是可逆的吗?
Assume that atmosphere is made of diatom ideal gas in adiabatic equilibrium.
大气可看成绝热平衡下的双原子理想气体。
So your time scale it just fast enough that this is basically an adiabatic compassion.
你的时间足够快以至于,基本上是一个绝热过程。
In an adiabatic system, this heat release serves to increase the chamber temperature.
在一绝热系统中,放出的热量增加了房间的温度。
Adiabatic throttle coefficient is used to denote adiabatic throttle effect of real gas.
实际气体的绝热节流效应通常用绝热节流系数来表示。
The boundary line between stability and instability is the dry adiabatic lapse rate line.
稳定的和不稳定的界限就是干的绝热垂直率线。
Now, this is a reversible adiabatic path, so there's a relationship that I'm sure you'll remember.
现在是可逆绝热过程,因此这里有一个关系式,我相信你们还记得。
OK, so now we're going to do the same kind of experiment, but irreversibly. An irreversible adiabatic.
现在来在,不可逆的条件下,完成相同的实验。
Two kinds of adiabatic shear bands were found, including the deformed band and the phase-transformed band.
在弹孔周围同时发现相变带和形变带两种绝热剪切带。
So now we have a relationship between the ratios of these volumes that are reached during these adiabatic paths.
现在我们有了一个联系,这些绝热过程中,体积比的关系式。
All kinds of civil cold storage, the Treasury and the subway, tunnel and other basic adiabatic applications.
各种民用冷库、库房和地铁、隧道等基础绝热应用。
This paper presents a simple method for measuring gas adiabatic constant by use of simple harmonic oscillation.
本文介绍了一种简单的利用简谐振动现象测量气体的定熵指数的方法。
This paper presents a simple method for measuring gas adiabatic constant by use of simple harmonic oscillation.
本文介绍了一种简单的利用简谐振动现象测量气体的定熵指数的方法。
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