Razón española, Edizioni 21-26Fundación Balmes, 1983 |
Dall'interno del libro
Risultati 1-3 di 21
Pagina 568
... electrolyte solution . For electricity to flow , it is necessary : ( 1 ) that the electrodes be connected externally by means of a metal conductor and ( 2 ) that the two electrolyte solutions be in contact to permit movement of ions ...
... electrolyte solution . For electricity to flow , it is necessary : ( 1 ) that the electrodes be connected externally by means of a metal conductor and ( 2 ) that the two electrolyte solutions be in contact to permit movement of ions ...
Pagina 569
... electrolyte solu- tions that differ in composition . Occasionally , useful cells can be con- structed in which the electrodes share a common electrolyte . An example of a cell without liquid 19A Electrochemical Cells 569.
... electrolyte solu- tions that differ in composition . Occasionally , useful cells can be con- structed in which the electrodes share a common electrolyte . An example of a cell without liquid 19A Electrochemical Cells 569.
Pagina 629
... electrolyte concentration becomes larger . When these concentrations are converted to activities , the upper curve is obtained ; note that this straight line has the Nernstian slope of 0.0296 ( 0.0591 / 2 ) . Activity coefficients for ...
... electrolyte concentration becomes larger . When these concentrations are converted to activities , the upper curve is obtained ; note that this straight line has the Nernstian slope of 0.0296 ( 0.0591 / 2 ) . Activity coefficients for ...
Sommario
Contents | 1 |
Elementary Electronics | 30 |
Microcomputers and Microprocessors in Chemical Instrumentation | 80 |
Copyright | |
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absorbance absorption acid amplifier Anal analysis analyte analytical signal anode applications atoms beam Beer's law Calculate cathode cell Chem chemical chromatography circuit column components compounds concentration constant containing coulometric curve detector determination device dispersion effect elec electrical electrode elements emission employed energy Equation example excited filter flame fluorescence frequency function hydrogen infrared input instruments ionization iron(II liquid magnetic mass mass spectrometer measurements membrane ment methods mobile phase molar absorptivities molecular molecules monochromator obtained operational amplifier optical output oxidation particles peak photomultiplier plate polarized polarography potential prism protons pulse quantitative radiation Raman range reaction reagent refractive refractive index region relative rotation sample sensitivity shown in Figure signal slit solution solvent species spectra spectrometer spectrophotometer spectroscopy spectrum standard deviation stationary phase surface temperature tion titration trode tube typical ultraviolet V₁ vibrational voltage wave wavelength X-ray