Analytical ChemistryWiley, 6 gen 1994 - 812 pagine Tabel of contents: Analytical Objectives, or: What Analytical Chemists Do. Data Handling. Stoichiometric Calculations. General Concepts of Equilibrium. Gravimetric Analysis. Acid-Base Equilibria. Acid-Base Titrations. Complexometric Titrations. Precipitation Reactions and Titrations. Electrochemical Cells and Electrode Potentials. Potentiometry. Redox and Potentiometric Titrations. Voltammetry and Electrochemical Sensors. Spectrometry. Atomic Spectrometric Methods. Solvent Extraction. Chromatographic Methods. Kinetic Methods of Analysis. Automation in the Laboratory. Clinical Chemistry. Environmental Analysis. Basic Tools and Operations of Analytical Chemistry. Experiments. Appendices. Index. |
Dall'interno del libro
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Pagina 66
... weights will be an average of the isotope weights of each element , taking into account their relative naturally occurring abundances . Thus , none of the elements has an integral weight . Gram - molecular weight ( gmw ) is the sum of ...
... weights will be an average of the isotope weights of each element , taking into account their relative naturally occurring abundances . Thus , none of the elements has an integral weight . Gram - molecular weight ( gmw ) is the sum of ...
Pagina 75
... weight or a volume basis : the quantity of analyte per unit weight or per volume of sample . The units used for the analyte will vary . We shall first review the common units of weight and volume in the metric system and then describe ...
... weight or a volume basis : the quantity of analyte per unit weight or per volume of sample . The units used for the analyte will vary . We shall first review the common units of weight and volume in the metric system and then describe ...
Pagina 681
... weights from the weight knobs to the nearest 0.1 g until the beam is in motion ( near balance ) . Start with the larger weights to find the nearest 10 g , then the unit weights ( nearest 1 g ) , and finally the 0.1 - unit weights ...
... weights from the weight knobs to the nearest 0.1 g until the beam is in motion ( near balance ) . Start with the larger weights to find the nearest 10 g , then the unit weights ( nearest 1 g ) , and finally the 0.1 - unit weights ...
Sommario
Data Handling | 14 |
Stoichiometric Calculations | 65 |
General Concepts of Equilibrium | 115 |
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absorbance acetic acid acid solution added AgCl agent analysis analyte anion base beaker buffer buret Ca2+ calcium Calculate calibration curve carbon cell Chapter chelate Chem chemical chloride chromatography color column complex compounds concentration containing detector determined dilute dissociation dissolved EDTA eluted end point enzyme Equation equilibrium constant equivalence point error example extraction Fe2+ Figure filter flame fluorescence glass H₂O half-reaction HOAc hydrogen indicator injected instrument ion-selective electrodes ionic strength ionization iron(III liquid measurements method millimoles mixture mmol mmol/mL molarity molecules moles NaOH Nernst equation obtained oxidizing oxidizing agent peak phase pipet potassium potential precipitate prepared proton quantitative radiation ratio react reaction reagent redox reference electrode salt sample separation serum silver sodium sodium hydroxide solubility solvent species spectrometry substances temperature tion titration titration curve tube unknown volume volumetric flask wavelength weak acid weight