Friday, 11 May 2018

Modern Analytical Chemistry - Lecture Notes, Study Materials and Important questions answers



Modern Analytical Chemistry
- Lecture Notes, Study Materials and Important questions answers




Subject : Modern Analytical Chemistry

Introduction

  1. Modern Analytical Chemistry: Introduction - Answer (click here)
  2. What Is Analytical Chemistry? - Answer (click here)
  3. The Analytical Perspective - Answer (click here)
  4. Common Analytical Problems - Answer (click here)

Basic Tools of Analytical Chemistry

  1. Numbers in Analytical Chemistry - Answer (click here)
  2. Units for Expressing Concentration - Answer (click here)
  3. Stoichiometric Calculations - Answer (click here)
  4. Basic Equipment and Instrumentation of Analytical Chemistry - Answer (click here)
  5. Preparing Solutions of Analytical Chemistry - Answer (click here)
  6. Analytical Chemistry: The Laboratory Notebook - Answer (click here)

The Language of Analytical Chemistry

  1. Language of Analytical Chemistry - Answer (click here)
  2. Language of Analytical Chemistry: Analysis, Determination, and Measurement - Answer (click here)
  3. Language of Analytical Chemistry: Techniques, Methods, Procedures, and Protocols - Answer (click here)
  4. Classifying Analytical Techniques - Answer (click here)
  5. Selecting an Analytical Method - Answer (click here)
  6. Language of Analytical Chemistry: Developing the Procedure - Answer (click here)
  7. Language of Analytical Chemistry: Protocols - Answer (click here)
  8. The Importance of Analytical Methodology - Answer (click here)

Evaluating Analytical Data

  1. Evaluating Analytical Data - Answer (click here)
  2. Characterizing Measurements and Results - Answer (click here)
  3. Analytical Data: Characterizing Experimental Errors - Answer (click here)
  4. Propagation of Uncertainty - Answer (click here)
  5. The Distribution of Measurements and Results - Answer (click here)
  6. Statistical Analysis of Data - Answer (click here)
  7. Statistical Methods for Normal Distributions - Answer (click here)
  8. Detection Limits - Answer (click here)

Calibrations Standardizations and Blank Corrections

  1. Calibrations, Standardizations, and Blank Corrections - Answer (click here)
  2. Calibrating Signals - Answer (click here)
  3. Standardizing Methods - Answer (click here)
  4. Reagents Used as Standards - Answer (click here)
  5. Standardizing Methods: Single-Point versus Multiple-Point Standardizations - Answer (click here)
  6. Standardizing Methods: External Standards - Answer (click here)
  7. Standardizing Methods: Standard Additions - Answer (click here)
  8. Standardizing Methods: Internal Standards - Answer (click here)
  9. Linear Regression and Calibration Curves - Answer (click here)
  10. Blank Corrections - Answer (click here)

Equilibrium Chemistry

  1. Equilibrium Chemistry - Answer (click here)
  2. Reversible Reactions and Chemical Equilibria - Answer (click here)
  3. Thermodynamics and Equilibrium Chemistry - Answer (click here)
  4. Manipulating Equilibrium Constants - Answer (click here)
  5. Equilibrium Constants for Chemical Reactions - Answer (click here)
  6. Equilibrium Constants for Precipitation Reactions - Answer (click here)
  7. Equilibrium Constants for Acid–Base Reactions - Answer (click here)
  8. Equilibrium Constants for Complexation Reactions - Answer (click here)
  9. Equilibrium Constants for Oxidation–Reduction Reactions - Answer (click here)
  10. Le Chatelier’s Principle - Answer (click here)
  11. Ladder Diagrams - Answer (click here)
  12. Ladder Diagrams for Acid–Base Equilibria - Answer (click here)
  13. Ladder Diagrams for Complexation Equilibria - Answer (click here)
  14. Ladder Diagram for Oxidation–Reduction Equilibria - Answer (click here)
  15. Solving Equilibrium Problems - Answer (click here)
  16. A Simple Problem: Solubility of Pb(IO3)2 in Water - Answer (click here)
  17. A More Complex Problem: The Common Ion Effect - Answer (click here)
  18. Systematic Approach to Solving Equilibrium Problems - Answer (click here)
  19. Solving Equilibrium Problems: pH of a Monoprotic Weak Acid - Answer (click here)
  20. Solving Equilibrium Problems: pH of a Polyprotic Acid or Base - Answer (click here)
  21. Effect of Complexation on Solubility - Answer (click here)
  22. Buffer Solutions - Answer (click here)
  23. Activity Effects - Answer (click here)
  24. Two Final Thoughts About Equilibrium Chemistry - Answer (click here)

Obtaining and Preparing Samples for Analysis

  1. Obtaining and Preparing Samples for Analysis - Answer (click here)
  2. The Importance of Sampling - Answer (click here)
  3. Designing A Sampling Plan - Answer (click here)
  4. Where to Sample the Target Population - Answer (click here)
  5. What Type of Sample to Collect - Answer (click here)
  6. How Much Sample to Collect - Answer (click here)
  7. How Many Samples to Collect - Answer (click here)
  8. Minimizing the Overall Variance - Answer (click here)
  9. Implementing the Sampling Plan - Answer (click here)
  10. Implementing the Sampling Plan: Solutions - Answer (click here)
  11. Implementing the Sampling Plan: Gases - Answer (click here)
  12. Implementing the Sampling Plan: Solids - Answer (click here)
  13. Separating the Analyte from Interferents - Answer (click here)
  14. General Theory of Separation Efficiency - Answer (click here)
  15. Classifying Separation Techniques - Answer (click here)
  16. Classifying Separation Techniques: Separations Based on Size - Answer (click here)
  17. Classifying Separation Techniques: Separations Based on Mass or Density - Answer (click here)
  18. Classifying Separation Techniques: Separations Based on Complexation Reactions (Masking) - Answer (click here)
  19. Classifying Separation Techniques: Separations Based on a Change of State - Answer (click here)
  20. Classifying Separation Techniques: Separations Based on a Partitioning Between Phases - Answer (click here)
  21. Liquid–Liquid Extractions - Answer (click here)
  22. Separation Versus Preconcentration - Answer (click here)

Gravimetric Methods of Analysis

  1. Overview of Gravimetry - Answer (click here)
  2. Precipitation Gravimetry - Answer (click here)
  3. Theory and Practice of Precipitation Gravimetry: Solubility Considerations - Answer (click here)
  4. Theory and Practice of Precipitation Gravimetry: Avoiding Impurities - Answer (click here)
  5. Theory and Practice of Precipitation Gravimetry: Occlusions - Answer (click here)
  6. Theory and Practice of Precipitation Gravimetry: Controlling Particle Size - Answer (click here)
  7. Theory and Practice of Precipitation Gravimetry: Filtering the Precipitate - Answer (click here)
  8. Theory and Practice of Precipitation Gravimetry: Rinsing the Precipitate - Answer (click here)
  9. Theory and Practice of Precipitation Gravimetry: Drying the Precipitate - Answer (click here)
  10. Theory and Practice of Precipitation Gravimetry: Composition of Final Precipitate - Answer (click here)
  11. Theory and Practice of Precipitation Gravimetry: Representative Method - Answer (click here)
  12. Precipitation Gravimetry: Quantitative Applications - Answer (click here)
  13. Precipitation Gravimetry: Qualitative Applications - Answer (click here)
  14. Precipitation Gravimetry: Evaluating Precipitation Gravimetry - Answer (click here)
  15. Volatilization Gravimetry - Answer (click here)
  16. Volatilization Gravimetry: Theory and Practice - Answer (click here)
  17. Volatilization Gravimetry: Quantitative Applications - Answer (click here)
  18. Evaluating Volatilization Gravimetry - Answer (click here)
  19. Particulate Gravimetry - Answer (click here)
  20. Particulate Gravimetry: Theory and Practice - Answer (click here)
  21. Particulate Gravimetry: Quantitative Applications - Answer (click here)
  22. Particulate Gravimetry: Evaluating Particulate Gravimetry - Answer (click here)

Titrimetric Methods of Analysis

  1. Titrimetric Methods of Analysis - Answer (click here)
  2. Overview of Titrimetry - Answer (click here)
  3. Titrations Based on Acid–Base Reactions - Answer (click here)
  4. Acid–Base Titration Curves - Answer (click here)
  5. Selecting and Evaluating the End Point - Titrations Based on Acid–Base Reactions - Answer (click here)
  6. Titrations in Nonaqueous Solvents - Answer (click here)
  7. Titrations Based on Acid–Base Reactions: Representative Method - Answer (click here)
  8. Titrations Based on Acid–Base Reactions: Quantitative Applications - Answer (click here)
  9. Titrations Based on Acid–Base Reactions: Qualitative Applications - Answer (click here)
  10. Titrations Based on Acid–Base Reactions: Characterization Applications - Answer (click here)
  11. Evaluation of Acid–Base Titrimetry - Answer (click here)
  12. Titrations Based on Complexation Reactions - Answer (click here)
  13. Chemistry and Properties of EDTA - Answer (click here)
  14. Complexometric EDTA Titration Curves - Answer (click here)
  15. Selecting and Evaluating the End Point - Titrations Based on Complexation Reactions - Answer (click here)
  16. Representative Method - Titrations Based on Complexation Reactions - Answer (click here)
  17. Quantitative Applications - Titrations Based on Complexation Reactions - Answer (click here)
  18. Evaluation of Complexation Titrimetry - Answer (click here)
  19. Titrations Based on Redox Reactions - Answer (click here)
  20. Redox Titration Curves - Answer (click here)
  21. Selecting and Evaluating the End Point - Titrations Based on Redox Reactions - Answer (click here)
  22. Representative Method - Titrations Based on Redox Reactions - Answer (click here)
  23. Quantitative Applications - Titrations Based on Redox Reactions - Answer (click here)
  24. Evaluation of Redox Titrimetry - Answer (click here)
  25. Precipitation Titrations - Answer (click here)
  26. Precipitation Titration Curves - Answer (click here)
  27. Selecting and Evaluating the End Point - Precipitation Titrations - Answer (click here)
  28. Quantitative Applications - Precipitation Titration - Answer (click here)
  29. Evaluation of Precipitation Titrimetry - Precipitation Titration - Answer (click here)

Spectroscopic Methods of Analysis

  1. Spectroscopic Methods of Analysis - Answer (click here)
  2. Overview of Spectroscopy - Answer (click here)
  3. Basic Components of Spectroscopic Instrumentation - Answer (click here)
  4. Spectroscopy Based on Absorption - Answer (click here)
  5. Absorbance of Electromagnetic Radiation - Spectroscopy Based on Absorption - Answer (click here)
  6. Transmittance and Absorbance - Spectroscopy Based on Absorption - Answer (click here)
  7. Absorbance and Concentration: Beer’s Law - Answer (click here)
  8. Limitations to Beer’s Law - Answer (click here)
  9. Ultraviolet-Visible and Infrared Spectrophotometry - Answer (click here)
  10. Instrument Designs for Molecular UV/Vis Absorption - Ultraviolet-Visible and Infrared Spectrophotometry - Answer (click here)
  11. Instrument Designs for Infrared Absorption - Ultraviolet-Visible and Infrared Spectrophotometry - Answer (click here)
  12. Quantitative Applications - Ultraviolet-Visible and Infrared Spectrophotometry - Answer (click here)
  13. Qualitative Applications - Ultraviolet-Visible and Infrared Spectrophotometry - Answer (click here)
  14. Characterization Applications - Ultraviolet-Visible and Infrared Spectrophotometry - Answer (click here)
  15. Evaluation - Ultraviolet-Visible and Infrared Spectrophotometry - Answer (click here)
  16. Atomic Absorption Spectroscopy - Answer (click here)
  17. Instrumentation - Atomic Absorption Spectroscopy - Answer (click here)
  18. Quantitative Applications - Atomic Absorption Spectroscopy - Answer (click here)
  19. Evaluation - Atomic Absorption Spectroscopy - Answer (click here)
  20. Spectroscopy Based on Emission - Answer (click here)
  21. Molecular Photoluminescence Spectroscopy - Answer (click here)
  22. Molecular Fluorescence and Phosphorescence Spectra - Molecular Photoluminescence Spectroscopy - Answer (click here)
  23. Instrumentation - Molecular Photoluminescence Spectroscopy - Answer (click here)
  24. Quantitative Applications Using Molecular Luminescence - Answer (click here)
  25. Evaluation - Molecular Photoluminescence Spectroscopy - Answer (click here)
  26. Atomic Emission Spectroscopy - Answer (click here)
  27. Atomic Emission Spectra - Atomic Emission Spectroscopy - Answer (click here)
  28. Equipment - Atomic Emission Spectroscopy - Answer (click here)
  29. Quantitative Applications - Atomic Emission Spectroscopy - Answer (click here)
  30. Evaluation - Atomic Emission Spectroscopy - Answer (click here)
  31. Spectroscopy Based on Scattering - Answer (click here)

Electrochemical Methods of Analysis

  1. Classification of Electrochemical Methods - Answer (click here)
  2. Potentiometric Methods of Analysis - Answer (click here)
  3. Potentiometric Measurements - Potentiometric Methods of Analysis - Answer (click here)
  4. Reference Electrodes - Potentiometric Methods of Analysis - Answer (click here)
  5. Metallic Indicator Electrodes - Potentiometric Methods of Analysis - Answer (click here)
  6. Membrane Electrodes - Potentiometric Methods of Analysis - Answer (click here)
  7. Membrane Potentials - Potentiometric Methods of Analysis - Answer (click here)
  8. Selectivity of Membranes - Potentiometric Methods of Analysis - Answer (click here)
  9. Glass Ion-Selective Electrodes - Potentiometric Methods of Analysis - Answer (click here)
  10. Crystalline Solid-State Ion-Selective Electrodes - Potentiometric Methods of Analysis - Answer (click here)
  11. Liquid-Based Ion-Selective Electrodes - Potentiometric Methods of Analysis - Answer (click here)
  12. Gas-Sensing Electrodes - Potentiometric Methods of Analysis - Answer (click here)
  13. Potentiometric Biosensors - Potentiometric Methods of Analysis - Answer (click here)
  14. Quantitative Applications - Potentiometric Methods of Analysis - Answer (click here)
  15. Evaluation - Potentiometric Methods of Analysis - Answer (click here)
  16. Coulometric Methods of Analysis - Answer (click here)
  17. Controlled-Potential Coulometry - Answer (click here)
  18. Controlled-Current Coulometry - Answer (click here)
  19. Quantitative Applications - Coulometric Methods of Analysis - Answer (click here)
  20. Characterization Applications - Coulometric Methods of Analysis - Answer (click here)
  21. Evaluation - Coulometric Methods of Analysis - Answer (click here)
  22. Voltammetric Methods of Analysis - Answer (click here)
  23. Voltammetric Measurements - Answer (click here)
  24. Current in Voltammetry - Answer (click here)
  25. Shape of Voltammograms - Answer (click here)
  26. Quantitative and Qualitative Aspects of Voltammetry - Answer (click here)
  27. Voltammetric Techniques - Answer (click here)
  28. Quantitative Applications - Voltammetric Methods of Analysis - Answer (click here)
  29. Characterization Applications - Voltammetric Methods of Analysis - Answer (click here)
  30. Evaluation - Voltammetric Methods of Analysis - Answer (click here)

Chromatographic and Electrophoretic Methods

  1. Overview of Analytical Separations - Answer (click here)
  2. General Theory of Column Chromatography - Answer (click here)
  3. Chromatographic Resolution - Theory of Column Chromatography - Answer (click here)
  4. Capacity Factor - Theory of Column Chromatography - Answer (click here)
  5. Column Selectivity - Theory of Column Chromatography - Answer (click here)
  6. Column Efficiency - Theory of Column Chromatography - Answer (click here)
  7. Peak Capacity - Theory of Column Chromatography - Answer (click here)
  8. Nonideal Behavior - Theory of Column Chromatography - Answer (click here)
  9. Optimizing Chromatographic Separations - Answer (click here)
  10. Optimizing Chromatographic Separations Using the Capacity Factor to Optimize Resolution - Answer (click here)
  11. Optimizing Chromatographic Separations Using Column Selectivity to Optimize Resolution - Answer (click here)
  12. Optimizing Chromatographic Separations Using Column Efficiency to Optimize Resolution - Answer (click here)
  13. Gas Chromatography: Mobile Phase - Answer (click here)
  14. Gas Chromatography: Chromatographic Columns - Answer (click here)
  15. Gas Chromatography: Stationary Phases - Answer (click here)
  16. Gas Chromatography: Sample Introduction - Answer (click here)
  17. Gas Chromatography: Temperature Control - Answer (click here)
  18. Gas Chromatography: Detectors for Gas Chromatography - Answer (click here)
  19. Gas Chromatography: Quantitative Applications - Answer (click here)
  20. Gas Chromatography: Qualitative Applications - Answer (click here)
  21. Gas Chromatography: Representative Method - Answer (click here)
  22. Gas Chromatography: Evaluation - Answer (click here)
  23. High-Performance Liquid Chromatography (HPLC) - Answer (click here)
  24. High-Performance Liquid Chromatography Columns - Answer (click here)
  25. High-Performance Liquid Chromatography (HPLC): Stationary Phases - Answer (click here)
  26. High-Performance Liquid Chromatography (HPLC): Mobile Phases - Answer (click here)
  27. High-Performance Liquid Chromatography Plumbing - Answer (click here)
  28. High-Performance Liquid Chromatography (HPLC): Sample Introduction - Answer (click here)
  29. High-Performance Liquid Chromatography (HPLC): Detectors for HPLC - Answer (click here)
  30. High-Performance Liquid Chromatography (HPLC): Quantitative Applications and Representative Method - Answer (click here)
  31. High-Performance Liquid Chromatography (HPLC): Evaluation - Answer (click here)
  32. Liquid–Solid Adsorption Chromatography - Answer (click here)
  33. Ion-Exchange Chromatography - Answer (click here)
  34. Size-Exclusion Chromatography - Answer (click here)
  35. Supercritical Fluid Chromatography - Answer (click here)
  36. Electrophoresis - Answer (click here)
  37. Theory of Capillary Electrophoresis - Answer (click here)
  38. Electrophoresis: Instrumentation - Answer (click here)
  39. Capillary Electrophoresis Methods - Answer (click here)
  40. Electrophoresis: Representative Method and Evaluation - Answer (click here)

Kinetic Methods of Analysis

  1. Kinetic Methods of Analysis - Answer (click here)
  2. Methods Based on Chemical Kinetics - Answer (click here)
  3. Methods Based on Chemical Kinetics: Theory and Practice - Answer (click here)
  4. Methods Based on Chemical Kinetics: Instrumentation - Answer (click here)
  5. Methods Based on Chemical Kinetics: Quantitative Applications - Answer (click here)
  6. Methods Based on Chemical Kinetics: Characterization Applications - Answer (click here)
  7. Evaluation of Chemical Kinetic Methods - Answer (click here)
  8. Radiochemical Methods of Analysis - Answer (click here)
  9. Radiochemical Methods of Analysis: Theory and Practice - Answer (click here)
  10. Radiochemical Methods of Analysis: Instrumentation - Answer (click here)
  11. Radiochemical Methods of Analysis: Quantitative Applications - Answer (click here)
  12. Radiochemical Methods of Analysis: Characterization Applications - Answer (click here)
  13. Radiochemical Methods of Analysis: Evaluation - Answer (click here)
  14. Flow Injection Analysis - Answer (click here)
  15. Flow Injection Analysis: Theory and Practice - Answer (click here)
  16. Flow Injection Analysis: Instrumentation - Answer (click here)
  17. Flow Injection Analysis: Quantitative Applications - Answer (click here)
  18. Flow Injection Analysis: Evaluation - Answer (click here)

Developing a Standard Method

  1. Developing a Standard Method - Answer (click here)
  2. Optimizing the Experimental Procedure - Answer (click here)
  3. Optimizing the Experimental Procedure: Response Surfaces - Answer (click here)
  4. Searching Algorithms for Response Surfaces - Answer (click here)
  5. Mathematical Models of Response Surfaces - Answer (click here)
  6. Verifying the Method - Answer (click here)
  7. Validating the Method as a Standard Method - Answer (click here)
  8. Two-Sample Collaborative Testing - Answer (click here)
  9. Collaborative Testing and Analysis of Variance - Answer (click here)
  10. What Is a Reasonable Result for a Collaborative Study? - Answer (click here)

Uality Assurance

  1. Uality Assurance - Answer (click here)
  2. Quality Control - Answer (click here)
  3. Quality Assessment - Answer (click here)
  4. Evaluating Quality Assurance Data: Prescriptive Approach - Answer (click here)
  5. Evaluating Quality Assurance Data: Performance-Based Approach - Answer (click here)
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