Chemical Instrumentation: A Systematic ApproachAddison-Wesley Publishing Company, 1973 - 903 pagine |
Dall'interno del libro
Risultati 1-3 di 65
Pagina 53
... applied to the loop abcd gives EV = V - I3R3 - I , R1 = 0 and applied to loop abef gives EV = 14R4 — I3R3 = 0 . 1 - 2. The algebraic sum of the potential differences around any complete loop of a circuit is zero , E , V = 0. In Fig ...
... applied to the loop abcd gives EV = V - I3R3 - I , R1 = 0 and applied to loop abef gives EV = 14R4 — I3R3 = 0 . 1 - 2. The algebraic sum of the potential differences around any complete loop of a circuit is zero , E , V = 0. In Fig ...
Pagina 85
... applied voltage reduces the junction potential , permitting majority carriers to drift across easily . Holes drift into the n - region under the applied field , electrons into the p - region . Note that the polarity of the external ...
... applied voltage reduces the junction potential , permitting majority carriers to drift across easily . Holes drift into the n - region under the applied field , electrons into the p - region . Note that the polarity of the external ...
Pagina 633
... applied to a cell as by the activation energy intrinsic to the reaction . We commonly find that electrolysis current increases as a greater potential difference is applied to a cell . Indeed , it is this effect of applied voltage that ...
... applied to a cell as by the activation energy intrinsic to the reaction . We commonly find that electrolysis current increases as a greater potential difference is applied to a cell . Indeed , it is this effect of applied voltage that ...
Sommario
Measurement and Instrumentation | 1 |
Basic Electrical Variables | 25 |
9 | 47 |
Copyright | |
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Parole e frasi comuni
absorbance absorption amplitude analysis analyzer angle anode applied atoms beam Beer's law capacitance capacitor cathode cell circuit of Fig components concentration constant coulometry curve detection detector determined device diagram differential diode dispersion drop electrical electrode electrolysis emission emitter energy equation example excited feedback filter flame fluorescence frequency grating impedance incident input instrument intensity ionization ions magnetic measurement mercury meter method module molecular molecules monochromator noise obtained Ohm's law operational amplifier optical output voltage oxidation p-n junction peak phase photometer photomultiplier polarized polarography potential potentiometer precision prism proton pulse R₁ R₂ radiation range ratio RC circuit readout redox reduced refractive index resistance resistor resonance result sample scan schematic Section sensitivity shown in Fig signal slit solution species spectral spectrometer spectrophotometer Spectroscopy spectrum substance techniques temperature Thévenin equivalent titration transistor tube V₁ vibrational wave wavelength Wheatstone bridge width ΚΩ