原子发射光谱法 atomic emission spectroscopy ; AES ; atomic emission spectrometry ; atomic atomic emission spectrometry
氢原子光谱 Hydrogen spectral series ; atomic spectrum of hydrogen ; hydrogen atom spectrum ; Spectrum of hydrogen atom
原子吸收光谱 AAS ; atomic absorption spectroscopy ; atomic adsorption spectorm ; atomic absorption spectrometry
原子光谱 [物] atomic spectrum ; Atomic Spectra ; atom spectrum ; Atomic spectroscopy
原子吸收光谱仪 AAS ; atomic absorption spectroscopy ; Atomic Absorption Spectrometer
原子荧光光谱法 atomic fluorescence spectrometry ; AFS ; Atom fluorescence spectrum method ; Atomic Fluorescence Speebrophotometry
原子荧光光谱仪 atomic fluorescence spectroscopy ; AFS ; Atomic Fluorescence Spectrometer ; Atomic Fluorescence Spectroscopy AFS u d `j
火焰原子吸收光谱法 Flame atomic absorption spectrometry ; FAAS ; Atomic absorption spectrometry ; Flame atomic absorption spectrometric method
原子荧光光谱 AFS ; atomic fluorescence spectrometry ; atomic fluorescence spectra ; CVAFS
石墨炉原子吸收光谱法 GFAAS ; Graphite furnace atomic absorption spectrometry ; graphite furnace atomic
想想在钢铁英雄电影中莱克斯·卢梭能够像超人那样看到这个世界时的样子,他回过神来,看见原子们在电磁光谱中跳跃着。
Name the man of Steel movie where Lex Luthor comes to his senses once he's able to see the world as Superman does, watching atoms dance in the electromagnetic spectrum.
研究小组将一层石墨烯薄膜至于两层高分子材料之间,然后用拉曼光谱来测量拉伸时碳原子键的反应。
The team put a single graphene sheet between two layers of polymer and used Raman spectroscopy to measure how the carbon bonds responded when the graphene was stretched.
我们可以在宇宙里遥远的地方测量阿尔法常数,从而通过研究这些原子光谱线回到过去。
And alpha is something that we can measure at distant places in the universe and thereby back in time by looking at these atomic spectral lines.
So, how many distinct, so again, we're talking about distinct kinetic energies, a spectrum for the element hafnium, 72 and I'll tell you here that it has a z of 72, so you don't have to spend two minutes searching your periodic table.
好,有多少分立的……还是一样,我们讨论的还是不同的动能,铪元素的光谱中出现,而且我来告诉大家铪的原子序数是,这样你就不用因为在元素周期表中找它,而花费两分钟的时间了。
So, for example, when people, and we'll talk about this next class, were looking at different characteristics spectra of different atoms, what they were seeing is that it appeared to be these very discreet lines that were allowed or not allowed for the different atoms to emit, but they had no way to explain this using classical physics.
举个例子,当大家看到,不同原子的特征光谱时,他们看到的是一些分离的线,那可以使不同的原子,发射或不发射出去,但是这些无法用经典物理来解释。
So there are two electron configurations in the n equals one shell, if we follow according to the selection rules that we spelled out last day.
如果根据上次课,我们阐明的原子光谱选择定则,我们就会知道在n等于1的那一层,有两种电子图像构型。
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