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Yes very easily - most if not all AA machines can be put in Flame Emmision mode
Spectral interference is more common in atomic emission spectroscopy due to overlapping spectral lines.
Source modulation is employed to distinguish between atomic absorption (an ac signal) and flame emission (a dc signal).
The acronyms are synonyms. AES = Atomic Emission Spectroscopy OES = Optical Emission spectroscopy
Flame emission spectroscopy is commonly used in situations where the elemental composition of a sample needs to be determined. It is frequently employed in environmental monitoring to analyze trace elements in water and soil samples. It is also utilized in metallurgical and pharmaceutical industries, as well as in forensic analysis to identify the presence of specific elements in crime scene evidence.
It can be used for element identification and can used in Atomic spectroscopy and can be used to help "atoms with low ionization potentials become ionized."
Yes very easily - most if not all AA machines can be put in Flame Emmision mode
The emission spectrum is the electromagnetic radiation spectrum of a particular chemical. The major ways this is observed is through special equipment designed for it, though flame emission spectroscopy is its own method, wherein burning a chemical produces a particular color of flame.
Emission photo-spectroscopy and Absorption photo-spectroscopy.
Spectral interference is more common in atomic emission spectroscopy due to overlapping spectral lines.
Source modulation is employed to distinguish between atomic absorption (an ac signal) and flame emission (a dc signal).
The acronyms are synonyms. AES = Atomic Emission Spectroscopy OES = Optical Emission spectroscopy
Gae Ho Lee has written: 'Sample entraining multi-electrode plasma sources for atomic emission spectroscopy' -- subject(s): Atomic emission spectroscopy, Plasma spectroscopy
John David Brown has written: 'The visible emission' -- subject(s): Absorption spectroscopy, Emission spectroscopy, Spectra, Iodine
Terence Richard Mattoon has written: 'A three-phase argon plasma arc for analytical emission spectroscopy' -- subject(s): Argon, Emission spectroscopy
Flame emission spectroscopy is commonly used in situations where the elemental composition of a sample needs to be determined. It is frequently employed in environmental monitoring to analyze trace elements in water and soil samples. It is also utilized in metallurgical and pharmaceutical industries, as well as in forensic analysis to identify the presence of specific elements in crime scene evidence.
advantages of atomic emission