So in the high temperature limit, the energy does change with temperature. 所以在高温极限下,能量随温度变化而变化。
In this design, the heat transfer efficiency is generally limited by the size of the furnace and the temperature limit of the refractories. 采用这种方法时,传热效率往往会受到窑炉的尺寸大小和窑炉耐火材料所能承受的极限温度的限制而大打折扣。
There's only one allowed possible state in the low temperature limit. 只有一种允许的可以被占据的态,在低温极限下。
So now let's look at the high temperature limit. 那么现在我们来看看高温极限。
The vibrational frequencies are usually high, so that you're not in the high temperature limit. 的振动频率一般比较高,所以通常我们都不能用高温极限。
You immediately go to the high temperature limit. 你马上就达到高温极限。
But what we've found is that in the high temperature limit, we had the equipartition of energy result. 但是我们会发现在高温极限下,我们可以得到能量均分原理。
And in the low temperature limit, now go to the opposite limit. 对于低温的极限,即相反的极限。
So that's the low temperature limit. 那就是低温极限。
The limiting factor in valve selection is the lowest temperature limit of the packing or seat. 阀门选型的限制因素是密封填料或阀座的最低温度限制。
Namely, the low temperature limit is zero. 也就是,低温极限是零。
The operating and detecting principle of temperature limit equipment were analysed, and the hardware and software design were introduced in this paper. 本文分析了限温装置的工作和检测原理,介绍了检测仪的硬件和软件设计。
So we know it's got to be zero at the low temperature limit. 它应该是零,我们知道低温极限下。
So in the high temperature limit we can easily calculate things. 因此在高温极限下,我们可以很简单进行计算。
I'm at the low temperature limit for the molecular vibrations of nitrogen or oxygen. 在低温极限下,对于氮或氧的分子振动。
In the low temperature limit, 1 it's just one, right? 在低温极限下,配分函数就等于?
And we know that it's this constant value in the high temperature limit. 它是常数,我们知道在高温极限时。
What'll happen in the high temperature limit might vary, depending on the structure of the energy levels. 在高温极限下,不同自由度的配分函数会有不同,这依赖于他们具体能级结构。
Though the low temperature limit has not been tested, we can reasonably deduce that the FOXY Sensor operates successfully well below the freezing point of water. 虽然低温限制未进行测量,我们能适当地推定FOXY传感器在低于水的凝固点的温度下运行也良好。
In one case, when the high temperature limit where kT is much bigger than any of this stuff. 第一种情况,在高温极限下,当kT比这些状态的能量都高。
Temperature limit equipment detector for aeroengine was used to detect the performance of temperature limit equipment for aeroengine. 航空发动机限温装置检测仪用来检测发动机限温装置的性能。
Because of course I'm certainly in the high temperature limit. 因为当然我一定,是在高温极限。
So the high temperature limit, physically, is one that's simple to understand. 因此高温极限,从物理的角度是容易理解的。
What was the low temperature limit of the heat capacity? 热容的低温极限是什么?
So the energy doesn't change with temperature in that low temperature limit. 所以能量不随温度改变,在低温极限。
And in the other case In the low temperature limit, now let's say kT is really low. 对于另一种情况,在低温极限,现在比方说kT很低。
So just write q, vibrational, in the low temperature limit, 1 is just one. 写下q振动,在低温极限下,等于。
Then you have the same high temperature limit to it. 然后你对它有相同的高温极限。
But work, bigger, allowed temperature limit rotational speed is low. 但工作时,温升较大,允许极限转速较低。