Analytical Chemistry: An IntroductionSaunders College Pub., 2000 - 773 pagine The new edition highlights some of the latest techniques such as supercritical fluid chromatography and capillary electrophoresis. The addition of spreadsheet exercises and problems throughout the text provides students with a more modern approach to analytical chemistry. |
Dall'interno del libro
Risultati 1-3 di 85
Pagina 56
... Mass of bottle less sample , g 5 Mass of sample , g 6 7 Crucible masses , with AgCl , g 8 Crucible masses , empty , g 9 Mass of AgCl , g 10 11 % Chloride 12 Mean % Chloride 13 Standard deviation , % Chloride 14 RSD , parts per thousand ...
... Mass of bottle less sample , g 5 Mass of sample , g 6 7 Crucible masses , with AgCl , g 8 Crucible masses , empty , g 9 Mass of AgCl , g 10 11 % Chloride 12 Mean % Chloride 13 Standard deviation , % Chloride 14 RSD , parts per thousand ...
Pagina 63
... mass of the crucible , however , remains constant regardless of where you measure it . Weight and mass are related by the familiar expression W = mg where W is the weight of an object , m is its mass , and g is the acceleration due to ...
... mass of the crucible , however , remains constant regardless of where you measure it . Weight and mass are related by the familiar expression W = mg where W is the weight of an object , m is its mass , and g is the acceleration due to ...
Pagina 64
... mass units ( amu ) , or daltons . The atomic mass unit is based on a relative scale in which the reference is the 12C carbon isotope , which is assigned a mass of exactly 12 amu . Thus , the amu is by definition 1/12 of the mass of one ...
... mass units ( amu ) , or daltons . The atomic mass unit is based on a relative scale in which the reference is the 12C carbon isotope , which is assigned a mass of exactly 12 amu . Thus , the amu is by definition 1/12 of the mass of one ...
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Analytical Chemistry: An Introduction Douglas A. Skoog,F. James Holler Anteprima non disponibile - 2000 |
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acid activity added addition amount analysis analytical appear applied balance base becomes buffer Calculate carbonate cation cause cell Chapter charge chemical chemistry chloride coefficient color complex computed concentration consider constant containing described determined difference dilute dissociation EDTA effect electrode electrode potential electrolyte end point entered equal Equation equilibrium equivalence point error Example Excel excess expression Figure formation formula function given gives H3O+ hydrogen hydroxide illustrated important indicator ionic liquid mass mean measurement metal method mmol molar NaOH needed Note obtained occurs oxidation plot positive potential precipitate prepared problem quantity reaction reagent reduced reference relative sample shown shows silver sodium solid solubility solution species spreadsheet standard deviation step strength strong surface Table tion titration titration curve volume weighing write