Chemical Instrumentation: A Systematic Approach to Instrumental AnalysisAddison-Wesley Publishing Company, 1960 - 653 pagine |
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Risultati 1-3 di 63
Pagina 330
... circuit + V Input circuit Cathode circuit FIG . 12-14 . Representative triode circuit with conventional subcircuits . Since all involve at least two electrodes of the electron tube , they partially overlap . The input and output circuits ...
... circuit + V Input circuit Cathode circuit FIG . 12-14 . Representative triode circuit with conventional subcircuits . Since all involve at least two electrodes of the electron tube , they partially overlap . The input and output circuits ...
Pagina 403
... circuit for these applications is Fig . 13-15 . A clear visual response is obtained at the point of minimum input , whether d - c or a - c , since the shadow sector just closes . When this circuit is used with a - c , the potential on ...
... circuit for these applications is Fig . 13-15 . A clear visual response is obtained at the point of minimum input , whether d - c or a - c , since the shadow sector just closes . When this circuit is used with a - c , the potential on ...
Pagina 405
... circuit . Interestingly , this circuit is identical to the RC circuit for coupling the stages of an amplifier described in Section 12-12 . The two circuits differ only in their time constants . Relative to the period of the signal , RC ...
... circuit . Interestingly , this circuit is identical to the RC circuit for coupling the stages of an amplifier described in Section 12-12 . The two circuits differ only in their time constants . Relative to the period of the signal , RC ...
Sommario
THE SCIENCE OF INSTRUMENTATION | 1 |
ERRORS OF MEASUREMENT | 14 |
CHAPTER 3 | 37 |
Copyright | |
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Chemical Instrumentation: A Systematic Approach to Instrumental Analysis Howard A. Strobel Visualizzazione estratti - 1960 |
Parole e frasi comuni
absorbance absorption acid activity addition allow amplifier analysis angle applied atoms band beam capacitor cathode cell charge circuit complex components concentration conductance constant curve dependence desired detector determined device direction discussed dispersion drop effect electrical electrode electrolysis energy error example field filter frequency give given glass greater grid incident increase indicator intensity interest ions known light limited lines means measurement mercury metal method mixture molecules negative Note observed obtained occurs operation optical output plate polarized positive possible potential precision present prism procedure produced radiation range reaction reduced reference reflection refractive region relative representative resistance response result sample scattering sensitivity shown signal slit solution species standard substance surface Table temperature tion titration tube usually varies voltage wave wavelength