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But let's just try maybe one of the basic questions they could ask, and they can say, all right, de Broglie, so you say that all matter, absolutely all matter has wave-like behavior.
让我们试一试他们,可能问到的一个基础问题,他们会说,好的,德布罗意,你说所有的物质,所有物质绝对会有波的特性。
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Why don't we see the influence of the wave-like behavior on every day matter?
在每天的生活中,我们为什么看不到物质的,波动性质带来的影响呢?
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After that, we'll move on to matter as a wave, and then the Schrodinger equation, which is actually a wave equation that describes the behavior of particles by taking into account the fact that matter also has these wave-like properties.
之后,我们会转移到物质,是一种波的话题和薛定谔方程,薛定谔方程是描述粒子,在考虑物质的波动性质后,的行为的方程。
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But once we got to the atomic size scale, what happens is we need to be taking into account the fact that matter has these wave-like properties, and we'll learn more about that later, but essentially classical mechanics does not take that into account at all.
但一到到了原子尺度量级,我们必须考虑到物质,这时候有波动性质,关于这点我们今后将会学到更多,但本质上经典力学并,没有考虑这个性质。
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And the reason that quantum mechanics is going to work where classical mechanics fails is that classical mechanics did not take into account the fact that matter has both wave-like and particle-like properties, and light has both wave-like and particle-like properties.
上发生的行为,量子力学得以成功,而经典力学却失败的原因,是因为经典力学,不能包容物质的,波动性和粒子性,和光的波动性和粒子性。
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