我们要做的最要紧的事,如果我们在思考这种问题的话,其实只不过是,准确地确定哪些轨道会导致,这五条分立谱线在光谱中出现。
So the first thing that we want to do, if we're thinking about something like this, is just to determine exactly what orbitals are causing the five different lines that we're seeing in the spectrum.
因此,我们在光谱中看不到,分立的谱线。
So that's why we're not seeing separate lines in this spectrum.
本文用多次迭代解线性方程组的方法处理分立采样得到的光谱辐射测量数据,实现了光源光谱功率分布的复原。
In this paper, the discrete samples of the spectre-radiometer were processed by iteration method, and the restoration of spectral distribution was completed.
We might be asked, for example, to determine what all of the different elements could be that would produce a spectrum that gave us 5 different lines.
那么我们会问,比如,有哪些不同的元素可以产生,一个有五条分立谱线的光谱?
So, let's say we're looking at an element and we have an emission spectra, and we know that it has five distinct different kinetic energies in that spectrum.
比如我们正在研究一个元素,而且我们得到了它的光谱,知道了在它的光谱里,有五个分立的动能。
- So the first thing that we want to do, if we're thinking about something like this, is just to determine exactly what orbitals are causing the five different lines that we're seeing in the spectrum.
我们要做的最要紧的事,如果我们在思考这种问题的话,其实只不过是,准确地确定哪些轨道会导致,这五条分立谱线在光谱中出现。
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