Fundamentals of Analytical ChemistrySaunders College Pub., 1988 - 894 pagine |
Dall'interno del libro
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Pagina 288
... cell reaction are indicated . The cell in Figure 12-2 is rep- resented as Pt ... potential develops at the phase boundary between the zinc electrode and the ... cell in Figure 12-2 contains only two phase boundaries because the ...
... cell reaction are indicated . The cell in Figure 12-2 is rep- resented as Pt ... potential develops at the phase boundary between the zinc electrode and the ... cell in Figure 12-2 contains only two phase boundaries because the ...
Pagina 391
... cells . Derive an equation relating cell potential to p - function . Assume the junction potential is negligible ; treat the indicator electrode as the cathode ; and specify any necessary concentra- tions as 1.00 × 10-4 M. ( a ) A cell ...
... cells . Derive an equation relating cell potential to p - function . Assume the junction potential is negligible ; treat the indicator electrode as the cathode ; and specify any necessary concentra- tions as 1.00 × 10-4 M. ( a ) A cell ...
Pagina 394
... potential or the IR drop of the cell . In order to develop a current of I amperes in an electrolytic cell having an electrical resistance of R ohms , it is necessary to apply a potential that exceeds the theoretical cell potential by an ...
... potential or the IR drop of the cell . In order to develop a current of I amperes in an electrolytic cell having an electrical resistance of R ohms , it is necessary to apply a potential that exceeds the theoretical cell potential by an ...
Sommario
Introduction | 1 |
Evaluation of Analytical Data | 6 |
Gravimetric Methods of Analysis | 57 |
Copyright | |
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absorbance absorption acid activity added addition amount analysis analyte applications aqueous assume atoms base becomes buffer Calculate carbonate cations cause cell chemical chloride chromatography color column common complex compounds concentration constant containing curve derived described determination deviation difference dilute dissociation dissolved EDTA effect electrode electrode potential end point Equation equilibrium equivalence error example excess expression Figure formation given gives glass H3O+ hydrogen important increases indicator involves ion concentration less liquid mean measurements metal method mmol molar NaOH Note obtained occurs organic oxidation particles phase potential precipitate prepared present Problem quantity radiation range ratio reaction reagent reduced relative sample separation shown silver sodium solid solubility solution solvent species standard Step strong Substitution surface Table temperature titration titration curves volume weak weight