Encyclopedia of Physical Science and Technology, Volume 2Academic Press, 1992 - Physical sciences |
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Page 302
... spectral densities S ( f ) ( where ƒ is frequency ) such that [ * $ ( ƒ ) df = [ ] ƒS ( ƒ ) d ( ln ƒ ) = σ2 ( 8 ) where subscripts are often used to indicate the variables to which the spectral densities and variables apply . Note that ...
... spectral densities S ( f ) ( where ƒ is frequency ) such that [ * $ ( ƒ ) df = [ ] ƒS ( ƒ ) d ( ln ƒ ) = σ2 ( 8 ) where subscripts are often used to indicate the variables to which the spectral densities and variables apply . Note that ...
Page 365
... Spectral Line Interferences A grating or a prism are both able to take white light and split it into its component colors by the process of dispersion . A ... Spectral Band Interferences A spectral band arises due to ATOMIC SPECTROMETRY 365.
... Spectral Line Interferences A grating or a prism are both able to take white light and split it into its component colors by the process of dispersion . A ... Spectral Band Interferences A spectral band arises due to ATOMIC SPECTROMETRY 365.
Page 368
... spectral inter- ferences . There are more spectral interferences than in a flame , because the high energy of the plasma is capable of exciting almost anything that is put into it . Spectral overlap then becomes very likely in complex ...
... spectral inter- ferences . There are more spectral interferences than in a flame , because the high energy of the plasma is capable of exciting almost anything that is put into it . Spectral overlap then becomes very likely in complex ...
Contents
Guide to Using the Encyclopedia ix Atomic Physics | 339 |
Approximations and Expansions 1 Atomic Spectrometry | 357 |
Archaeological Geology 31 Atomic Spectroscopy | 381 |
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