Chemical Instrumentation: A Systematic ApproachWiley, 22 feb 1989 - 1248 pagine The Third Edition of this established work on chemical instrumentation has been completely rewritten and updated to account for the advances made since the Second Edition came out in 1973. More main methods of measurement are presented, and there is extended coverage of chromatography and electrochemistry. Most of the material is new--including coverage of microprocessors and microcomputers, statistical control of measurement quality, quantification and extraction of information, x-ray fluorescence spectrometry, surface spectrometric techniques, and chromatography and HPLC. The quality and range of the worked examples have been improved, and there are end-of-chapter exercises. |
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Pagina 15
... range of the source will establish the maximum wavelength range of the instrument . Where higher intensity in part of the range or a still greater range is desired , additional sources will be required . Further , the more intense and ...
... range of the source will establish the maximum wavelength range of the instrument . Where higher intensity in part of the range or a still greater range is desired , additional sources will be required . Further , the more intense and ...
Pagina 294
... range : a useful response is secured over about two decades of exposure . Given this short range , a user should make a preliminary survey of emulsions to select the one appropriate to the radiation level to be measured and to the ...
... range : a useful response is secured over about two decades of exposure . Given this short range , a user should make a preliminary survey of emulsions to select the one appropriate to the radiation level to be measured and to the ...
Pagina 325
... range F that appears only in that order . In this range there is no overlap of wavelengths from adjacent orders . Its breadth can easily be established mathematically . Let the free spectral range in the mth order be from λ , to λ2 ...
... range F that appears only in that order . In this range there is no overlap of wavelengths from adjacent orders . Its breadth can easily be established mathematically . Let the free spectral range in the mth order be from λ , to λ2 ...
Sommario
Measurement and Instrumentation | 1 |
Operational Amplifier Circuits | 4 |
BASIC ELECTRONICS | 21 |
Copyright | |
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Chemical Instrumentation: A Systematic Approach Howard A. Strobel,William R. Heineman Visualizzazione estratti - 1989 |
Parole e frasi comuni
absorbance absorption amplifier amplitude analyte analytical signal angle atomic band beam Beer's law bits capacitor cell Chem circuit components concentration constant curve detector device diagram differential diffraction diffraction grating diode dispersion electrical electronic elements emission energy ensure equation error example excited exit slit feedback filter flame flip-flop fluorescence frequency gate grating incident input instrument integrated integrated circuit intensity interference lamp laser limit measurements method microprocessor mirror mode modules molecules monochromator noise Ohm's law op-amp operation operational amplifier optical output voltage p-n junction peak photodiode photomultiplier photon polarized precision prism pulse R₁ R₂ radiation Raman range reflection refractive index region resistance resistor resolution result sample scanning Section shown in Fig signal slit width spectral spectrometer spectrophotometer spectrum standard stray light temperature transistor transition tube V₁ variable vibrational wave wavelength wavenumber zener diode