And then he says the tetrachloride will be volatile, 9 and it will have a density of 1.9.
他说四氯化物具有不稳定性,密度是1。
And at the end of the reaction, you have the reactor consumed of titanium tetrachloride magnesium.
在反应的结尾时,反应器里面,消耗了四氯化钛和镁。
And subsequently germanium tetrachloride 88 was synthesized and measured to be 1.88.
随后,四氯化锗被合成出来了,密度测量出是1。
And, this is a really clever reaction because titanium tetrachloride is a gas.
这是一个非常巧妙的反应,因为四氯化钛是一种气体。
How do we know that mag will reduce titanium tetrachloride?
我们如何知道,镁会还原四氯化钛?
Nobody says titanium tetrachloride.
没人会称之四氯化钛。
And, this involves the reaction of titanium tetrachloride with magnesium to form magnesium chloride plus titanium And, this was invented in 1937 by W. J. Kroll.
四氯化钛和镁,反应生成氯化镁和钛,1937年W。J。克劳尔发明了这个方法。
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