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 969
... cell compartment due to the loss of Cu2 + by reduction to Cu . An overall movement of positive ionic charge from the anode half - cell to the cathode half - cell and of negative charge in the reverse direction occurs to maintain elec ...
... cell compartment due to the loss of Cu2 + by reduction to Cu . An overall movement of positive ionic charge from the anode half - cell to the cathode half - cell and of negative charge in the reverse direction occurs to maintain elec ...
Pagina 970
... CELL POTENTIALS AND THE NERNST EQUATION Free Energy and Cell Potential . The free - energy change ( AG ) for a chemical reaction is a measure of the thermodynamic driving force for the reaction to occur . The free - energy change for ...
... CELL POTENTIALS AND THE NERNST EQUATION Free Energy and Cell Potential . The free - energy change ( AG ) for a chemical reaction is a measure of the thermodynamic driving force for the reaction to occur . The free - energy change for ...
Pagina 975
... cell is easily calculated by first calculating the potential of each half - cell , both written in terms of reduction reactions . For example , the ap- propriate expressions for Eright and Eleft for the general case considered in Eqs ...
... cell is easily calculated by first calculating the potential of each half - cell , both written in terms of reduction reactions . For example , the ap- propriate expressions for Eright and Eleft for the general case considered in Eqs ...
Sommario
Measurement and Instrumentation | 1 |
BASIC ELECTRONICS | 21 |
Analog Electrical and Electronic Modules | 57 |
Copyright | |
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Chemical Instrumentation: A Systematic Approach Howard A. Strobel,William R. Heineman Visualizzazione estratti - 1989 |
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absorbance absorption amplifier amplitude analysis analyte analytical signal angle anode atoms beam Beer's law calibration capacitor cathode cell Chem chemical chromatographic circuit column components concentration constant curve detection detector determined device diode dispersion electrochemical cell electron elements elution emission energy equation error example excitation filter flame fluorescence frequency gas chromatograph grating incident input instrument intensity ionization laser light limits mass mass spectrometer measurements method mobile phase modules molar absorptivity molecular molecules monochromator noise obtained op-amp operation operational amplifier optical output particles peak photomultiplier photon plate polarized potential precision prism pulse radiation Raman range ratio rays reflection refractive index resistor resolution result sample scanning scattering Section shown in Fig signal slit solution species spectral spectrometer spectrophotometer spectroscopy spectrum standard stationary phase surface techniques temperature tube V₁ vibrational voltage wave wavelength wavenumber width X-ray