| 1. | Optical spectroscopy is further divided into atomic absorption spectroscopy and atomic emission spectroscopy.
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| 2. | At this point the characteristic atomic emission lines of the elements can be observed.
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| 3. | Instead, atomic emission and mass spectrometry are usually used.
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| 4. | This energy can excite the atoms, after which they can lose their energy through atomic emission.
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| 5. | The variety of applications exceeds that of inductively coupled plasma atomic emission spectroscopy and includes isotopic speciation.
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| 6. | The scientists strike a laser spark on each runner, vaporizing microscopic bits of metal and analyzing the atomic emissions.
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| 7. | Mass spectrometry, nuclear magnetic resonance, atomic emission / absorption and chromatography experiments are also all by nature highly multivariate.
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| 8. | At higher temperatures, atomic emission lines of N and O, and ( in presence of water ) H, are present.
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| 9. | In atomic emission spectroscopy ] ], the intensity of the emitted light is directly proportional to the concentration of atoms.
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| 10. | In atomic emission, analyte atoms emit during different portions of the pulse than background atoms, allowing the two to be discriminated.
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