So it's a science that's based on macroscopic properties of matter.
所以它是一门,基于物质宏观性质的科学。
But it's all mixed up together in a homogeneous, macroscopic fashion.
但是它们在宏观上,以均匀的方式融合了。
And then saying, well, OK, my macroscopic stuff is just a collection of those microscopic entities.
然后说,好的,我们的宏观物质,只是大量微观物体的集合。
NO So that the more complete answer to the question is that no, we're never going to be able to observe that because of the uncertainty principle it's not possible to observe a velocity that's this slow for a macroscopic object.
所以这个问题的完整答案是,由于不确定性原理,我们不可能测量到这么慢的,宏观物体的速度,希望这个解释。
And it's, again it's a macroscopic pretty big thing so typical might be 10 kilojoules per Kelvin, and that's pretty big, right?
相当大的数值,典型值大概,是10kJ/K,它相当大,对吧?,注意这里不是每摩尔?
So, we would actually need a really, really, really tiny velocity here to actually overcome the size of the mass, if we're talking about macroscopic particles, to have a wavelength that's going to be on the order.
是10的负34次方焦耳每秒,所以如果我们谈论的是要一个,宏观粒子有相应数量级的波长的话,我们需要一个非常非常非常小的速度来。
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