And since both partial pressures are bigger, the total pressure has to be bigger.
由于两个分压都变大了,总体的压强也要变大。
And in each of the individual partial pressures.
每一个单独的分压。
So all the, both of the partial pressures and the total pressure are going to go lower than indicated here.
那么所有的,两个分压,和总压强会比,这里指示的低。
You use concentration instead of partial pressures, but pretty much all the ideas are the same.
我们使用浓度而不是分压,但是想法是一样的。
Ok, so it's obvious just from looking at this that each of the partial pressures is bigger than it is in the ideal case.
好,那么从这里就能明显看出,每一个分压强,比它在理想情况下要大。
And it's equal to the partial pressures of the products raised to their stoichiometry.
等于产物的分压,和化学量的次方数。
But we know now how to go from chemical potentials to partial pressures. It's written right here.
我们知道了怎样从化学势,得到分压,就写在这儿。
The partial pressures are given by these lines.
分压由这些线给出。
Total and partial pressures and all of that.
总压强的分压强。
Somehow we're going to have to get partial pressures in there.
我们要在这里,得到分压。
These log partial pressures all come from expanding out the chemical potential as mu naught plus RT log p.
这些log的分压都来自于,化学势对μ零加RTlogp的展开。
pA I'm trying mix up the partial pressures and the total pressure in all ways that I know how to write it And then hope that something's going to come out that's going to be helpful.
,我尝试把总压强用分压写出来,用一种我知道怎么写的方式写出来,我希望我能得到,某些有用的结果。
p And we're going to put a little p here, because it's in terms of the partial pressures.
在这里写一个小,因为这是压强的函数。
The design method commonly used in China is a simplified one, in which only one of the four partial pressures are considered.
国内常用的空气幕设计方法是仅考虑一项分压力的简化计算方法。
By this method, the nitrogen solubility in 304 stainless steel melt was measured at different temperatures and partial nitrogen pressures.
用该方法测定了304不锈钢熔体在不同温度和氮分压下的氮的溶解度值。
The dielectric properties of ferroelectric materials such as barium titanate are upgraded by sintering the dry pressed shapes in a vacuum having partial air pressures of 1 to 1000 microns.
在空气分压为1至1000微米汞柱的真空度下进行烧结干压成型,可以提高钛酸钡等铁电材料的介电性能。
The dielectric properties of ferroelectric materials such as barium titanate are upgraded by sintering the dry pressed shapes in a vacuum having partial air pressures of 1 to 1000 microns.
在空气分压为1至1000微米汞柱的真空度下进行烧结干压成型,可以提高钛酸钡等铁电材料的介电性能。
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