Yes, we would be able to use a similar approach to identify a mixture of two or three elements with emission spectrum analysis because of the distinction between energy levels of the elements.
Since each element has a distinct range of energies, the lines in an emission spectrum will be bright while those in an absorption spectrum will be dark. This makes spectra useful for identifying the elements in a sample. The investigation of the electromagnetic radiation that atoms absorb and release is known as atomic spectroscopy.
Atomic spectroscopy, specifically the electromagnetic spectrum or mass spectrum, is used to determine the elemental compositions because distinct elements have distinctive spectra. Each element has a distinct energy level because its nucleus contains a different number of protons.
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Complete question is:
Would you be able to use a similar approach to identify a mixture of two or three elements with emission spectrum analysis? Why or why not? the similar approach is: "Magnesium metal burns with a bright white flame. What conclusions can you draw about the electron transitions that can take place for a magnesium atom?
The conclusion that you can draw about the electron transitions that can take place for a magnesium atom is that the photons produced are not of a lone wavelength, therefore from many dissimilar levels to subsequent levels, with many different wavelengths joining to create white."
