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It merely means that the amount of this element in the visible part of a star - the part that emits the spectrum - is too small to be detected by this method.
Hydrogen is the most abundant element in the universe.
On planet earth, silicon is the second most abundant element. It comprised 28 percent of the earth's crust. The most abundant is oxygen, which makes up about 47 percent of the earth's crust. The second most abundant element in the universe is helium.
Hydrogen is the most abundant element and makes up 99.8% of the Solar System.
Oxygen and Silicon
The spectral lines. Each element has a characteristic "fingerprint" in a spectrum.
The spectral lines. Each element has a characteristic "fingerprint" in a spectrum.
Each element has a unique adsorption and/or radiant spectrum. If you compare the spectrum you get with a list of known spectrums you can make a match.
It merely means that the amount of this element in the visible part of a star - the part that emits the spectrum - is too small to be detected by this method.
Elements have several spectral lines and although some lines may be the same between different elements most lines are not and the whole spectrum for each element is indeed unique.
The line spectrum is usually used to sort out the atomic fingerprint as the gas emit light at very specific frequencies when exposed to the electromagnetic waves. The electromagnetic waves are usually displayed in form of the spectral lines.
The most abundant element where? It is the most abundant element in Earth's crust. The most abundant element on planet Earth, on the other hand, is iron, while the most abundant element in the Universe is hydrogen.
The most abundant element in the universe is hydrogen.
Oxygen is most abundant element .
Hydrogen is the most abundant element in the universe.
the element labeled X is the most abundant element in the body. what is element X
Hydrogen is the most abundant element in the universe.