具体描述
《定量化学分析》内容简介:This text brings together the individuals and the desire to develop a text for undergraduate students who have English as a second language. Our initial focus wasundergraduate students with chemistry major in the College of Chemistry and MolecularEngineering, Peking University, Beijing, China, but now we hope and expect that otherundergraduate students may be able to learn more easily with this text as they cope withthe English language and the essentials of analytical chemistry.
《定量的科学:解密物质世界的精确测量》 这是一本关于如何精准测量物质世界的书籍,它将带领读者走进一扇科学的大门,理解“定量”在理解宇宙万物中的核心地位。本书并非聚焦于某一本具体的教材或参考书,而是旨在揭示化学分析领域中最基本、最核心的科学原理、技术方法以及它们在现实世界中的广泛应用。 内容概述: 本书将从最基础的量纲分析和单位换算讲起,强调在任何科学测量中,单位的统一和准确是不可或缺的前提。我们将深入探讨不同类型的测量仪器,从简单的量筒、移液管,到复杂的精密天平、分光光度计,讲解它们的工作原理、精度限制以及如何正确使用和维护,以获得可靠的测量数据。 接着,本书将系统介绍物质的性质,例如质量、体积、密度、摩尔质量等,以及这些性质如何通过实验进行定量测定。我们将详细讲解不同物质状态(固态、液态、气态)下体积的测量方法,以及如何通过密度推算出物质的含量。 核心内容将围绕化学分析中的各种定量测定方法展开。这包括但不限于: 滴定分析: 详细讲解酸碱滴定、氧化还原滴定、沉淀滴定和络合滴定等经典滴定方法的原理,包括指示剂的选择、终点判断、标准溶液的配制与标定。我们会通过大量的实例,展示滴定如何在食品安全、药品质量控制、环境监测等领域发挥关键作用。 重量分析: 阐述通过称量待测物质在化学反应前后的质量变化来确定其含量的方法。我们会深入讲解沉淀条件的控制、沉淀的洗涤、干燥和灼烧等关键步骤,以及如何进行准确的计算。 光谱分析: 介绍基于物质与电磁波相互作用原理的定量分析技术。我们将探讨紫外-可见分光光度法,解释其在测定溶液浓度、物质纯度等方面的应用;还将触及原子吸收光谱和原子发射光谱,揭示它们在痕量元素分析中的强大能力。 仪器分析中的定量技术: 随着科技的进步,仪器分析已成为现代化学分析的重要组成部分。本书将介绍诸如高效液相色谱(HPLC)、气相色谱(GC)和质谱(MS)等技术在物质分离与定量分析中的原理和应用。我们会解释色谱分离的机制,以及如何通过峰面积或峰高来精确计算目标物质的含量。 此外,本书还将探讨实验数据的处理与评估。我们将介绍误差的来源(系统误差与随机误差),如何计算测量不确定度,以及统计学在数据分析中的应用,包括平均值、标准差、置信区间等的计算,帮助读者理解数据的可靠性。 本书特色: 理论与实践相结合: 本书并非枯燥的理论堆砌,而是通过大量的实际案例和应用场景,生动地展示定量化学分析的科学价值和实际意义。 注重方法与原理: 深入剖析各种定量分析方法的科学原理,让读者不仅知其然,更知其所以然。 全面性与系统性: 涵盖了化学分析领域中最常用、最重要的定量技术,形成一个系统而完整的知识体系。 易于理解: 语言通俗易懂,结构清晰,即使是初学者也能循序渐进地掌握相关知识。 目标读者: 本书适合化学、化工、药学、环境科学、食品科学、材料科学等相关专业的学生、研究人员,以及对物质世界进行精确测量感兴趣的读者。它将为理解和掌握物质的构成、性质与变化提供坚实的科学基础。 通过阅读本书,您将不仅学会如何进行精确的化学测量,更能体会到科学严谨的态度和探索未知世界的乐趣,理解“定量”的力量如何引领我们更深入地认识和改造我们的世界。
作者简介
目录信息
CHAPTER 1 INTRODUCTION OF ANALYTICAL CHEMISTRY 1.1 What is Analytical Chemistry 2 1.2 Steps in the Development of an Analytical Method 5 1.3 Classification of Quantitative Analytical Methods 7 1.3.1 Chemical Analysis 7 1.3.2 Instrumental Analysis 8 1.4 Principles of Volumetric Titration 8 1.4.1 Basic Terms 9 1.4.2 Requirements of Titration Reactions 9 1.4.3 Classification of Titration Processes 10 1.4.4 Primary Standards and Standard Solutions 10 1.4.5 Basic Apparatus in Chemical Analyses 11 1.5 Calculations in Volumetric Titration 15 1.5.1 Preparation of Standard Solutions 15 1.5.2 Titration Results 18CHAPTER 2 DATA ANALYSIS 22 2.1 Error and Classification 23 2.1.1 Accuracy and Precision 23 2.1.2 Errors and Deviation 24 2.1.3 Systematic and Random Errors 25 2.2 Distribution of Random Errors 26 2.2.1 Frequency Distribution 27 2.2.2 Normal Distribution 28 2.2.3 Predicting the Probability of Random Errors--Area under Gaussian Curve 30 2.3 Statistical Data Treatment 31 2.3.1 Estimation of Population Mean (μ) and Population Standard Deviation (α) 31 2.3.2 Confidence Interval for Population Mean 34 2.3.3 Statistical Aids to Hypothesis Testing 37 2.3.4 Detection of Gross Errors 42 2.4 Propagation of Error 43 2.4.1 Systematic Errors 43 2.4.2 Random Errors (Standard Deviation) 43 2.4.3 Maximum Errors (ER) 44 2.4.4 Distribution of Errors 44 2.5 Significant Figure Convention 45 2.5.1 Significant Figures 45 2.5.2 Numerical Rounding in Calculations 47CHAPTER 3 ACID-BASE EQUILIBRIUM 50 3.1 Equilibrium Constants and Effect of Electrolytes 51 3.2 Acid-base Reactions and Equilibria 53 3.2.1 Acid and Base--Bronsted Concept 53 3.2.2 Dissociation of Acid or Base and Acid-base Equilibria 55 3.2.3 Magnitude of Dissociating Species at a Given pH: x-values 57 3.3 Solving Equilibrium Calculations Using pH Calculations as an Example 61 3.3.1 General Approaches (Systematic Approaches) 61 3.3.2 pH Calculations 64 3.4 Buffer Solutions 71 3.4.1 pH Calculations of Buffer Solutions 71 3.4.2 Buffer Capacity 72 3.4.3 Preparation of Buffers 74CHAPTER 4 ACID-BASE TITRATION 78 4.1 Acid/Base Indicators 79 4.1.1 Principle 79 4.1.2 Examples 80 4.1.3 Titration Errors 82 4. 1.4 Factors Influencing Performance 82 4.2 Titration Curves and Selection of Indicators 83 4.2.1 Strong Acids (Bases) 83 4.2.2 Monoprotic Acids (Bases) 86 4.2.3 Strong and Weak Acids (Bases) 91 4.2.4 Polyfunctional Weak Acids (Bases) 92 4.2.5 Mixture of Weak Acids (Bases) 95 4.3 Titration Error Calculations 95 4.3.1 Strong Acids (Bases) 95 4.3.2 Monoprotic Weak Acids (Bases) 96 4.3.3 Polyfunctional Acids (Bases) 97 4.4 Preparation of Standard Solutions 98 4.4.1 Standard Acid Solutions 98 4.4.2 Standard Base Solutions 99 4.4.3 The Carbonate Error 100 4.5 Examples of Acid-base Titrations 101 4.5.1 Determination of Total Alkalinity 101 4.5.2 Determination of Nitrogen 102 4.5.3 Determination of Boric Acid 103 4.6 Acid-base Titrations in Non-aqueous Solvents 104 4.6.1 Non-aqueous Solvents 104 4.6.2 Examples of Non-aqueous Titrations 105CHAPTER 5 COMPLEXATION REACTION AND COMPLEXOMETRIC TITRATION 108 5.1 Complexes and Formation Constants 109 5.1.1 Formation Constants 109 5.1.2 Concentration of MLn in Complexation Equilibria 111 5.1.3 Ethylenediaminetetraacetic Acid (EDTA) and Metal-EDTA Complexes 113 5.1.4 Side Reaction Coefficients and Conditional Formation Constants in Complexation Reactions 115 5.2 Metallochromic Indicators 122 5.2.1 How a Metallochromic Indicator Works 122 5.2.2 Color Transition Point pM ((pM)t) for Metallochromic Indicators 123 5.2.3 Frequently Used Metallochromic Indicators 125 5.3 Titration Curves and Titration Errors 126 5.3.1 Titration Curves 126 5.3.2 Titration Errors 128 5.3.3 pH Control in Complexometric Titrations 129 5.4 Selective Titrations of Metal Ions in the Presence of Multiple Metal Ions 130 5.4.1 Selective Titration by Regulating pH 131 5.4.2 Selective Titration Using Masking Reagents 133 5.5 Applications of Complexometric Titrations 137 5.5.1 Buffer Selection in Complexometric Titrations !37 5.5.2 Titration Methods and Applications 138 5.5.3 Preparation of Standard Solutions 142CHAPTER 6 REDOX EQUILIBRIUM AND TITRATION 146 6.1 Standard Electrode Potentials, Formal Potentials and Redox Equilibria 147 6.1.1 Standard Electrode Potentials 147 6.1.2 The Nernst Equation and Formal Potentials 149 6.1.3 Factors Affecting the Formal Potential 150 6.1.4 The Equilibrium Constant of Redox Reaction 154 6.2 Factors Affecting the Reaction Rate 155 6.2.1 Concentrations 156 6.2.2 Temperature 157 6.2.3 Catalysts and Reaction Rate 157 6.2.4 Induced Reaction 157 6.3 Redox Titrations 158 6.3.1 Constructing Redox Titration Curves 158 6.3.2 Indicators 162 6.3.3 Auxiliary Oxidizing and Reducing Agents 164 6.4 Examples of Redox Titrations 165 6.4.1 Potassium Permanganate (KMnO4) 165 6.4. 2 Potassium Dichromate (K2Cr2O7) 168 6.4. 3 Iodine: Iodimetry and Iodometry 169 6.4. 4 Potassium Bromate (KBrO3) 173 6.4.5 Ceric Sulfate (Ce(SO4)2) 174CHAPTER 7 PRECIPITATION EQUILIBRIUM, TITRATION, AND GRAVIMETRY 177 7.1 Precipitation Equilibria and Solubility 178 7.1.1 Solubility of Precipitates in Pure Water 178 7.1.2 Ionic Strength and the Solubility of Precipitates 178 7.1.3 Common Ion and the Solubility of Precipitates 179 7.1.4 pH and the Solubility of Precipitates 179 7.1.5 Complexing Agents and the Solubility of Precipitates 182 7.2 Precipitation Titrations 184 7.2.1 Titration Curves 184 7.2.2 Examples of Methods Classified by Endpoint Indication 186 7.2.3 Preparation of Standard Solutions 189 7.3 Precipitation Gravimetry 190 7.3.1 Classification of Gravimetric Methods of Analysis 190 7.3.2 General Procedure and Requirements for Precipitation 190 7.3.3 Precipitate Formation 192 7.3.4 Obtaining High Purity Precipitates 193 7.3.5 Experimental Considerations 197 7.3.6 Examples of Organic Precipitating Reagents 200CHAPTER 8 SPECTROPHOTOMETRY 206 8.1 Principle of Spectrochemical Analysis 207 8.1.1 Properties of Electromagnetic Radiation 207 8.1.2 Interaction of Electromagnetic Radiation with Matter 208 8.1.3 Beer's Law, the Quantitative Principle of Light Absorption 213 8.1.4 Limitations to Beer's Law 216 8.2 Principles of Instrumentation 217 8.2.1 Instrumentation 217 8.2.2 Instrumental Errors in Absorption Measurement 226 8.3 Applications of Spectrophotometry 226 8.3.1 Single Component Analyses 226 8.3.2 Multicomponent Analyses 228 8.3.3 Spectrophotometric Titrations 230 8.3.4 Studies of Complex Formation in Solutions 231 8.3.5 Measurements of Dissociation Constants of Organic Acids/Bases 233CHAPTER 9 INTRODUCTION TO ANALYTICAL SEPARATION 238 9.1 General Considerations of Separation Efficiency 239 9.2 Separation by Precipitation 241 9.2.1 Inorganic Precipitants 241 9.2.2 Organic Precipitants 242 9.2.3 Coprecipitation of Species in Trace Amounts for Separation 243 9.2.4 Improving the Selectivity of Precipitation Separation 244 9.3 Separation by Extraction 245 9.3.1 Principles for Liquid-liquid Extraction 245 9.3.2 Percent Extraction 247 9.3.3 Extraction of Inorganic Species 249 9.3.4 Other Extraction Methods 254 9.4 Separation by Ion Exchange 257 9.4.1 Ion Exchange Resins 257 9.4.2 Cross-linkage and Exchange Capacity 259 9.4.3 Ion Exchange Equilibria 260 9.4. 4 Applications of Ion Exchange Separation 261 9.5 Separation by Chromatography 263 9.5.1 Classification 263 9.5.2 Chromatogram 264 9.5.3 Column Chromatography 265 9.5.4 Planar Chromatography 266CHAPTER 10 SOLVING A REAL ANALYTICAL PROBLEM 271 10.1 Definition of the Analytical Problem 272 10.2 Literature Review 273 10.3 Choosing a Method 275 10.4 Developing and Evaluating the Method 276 10.4.1 Selectivity 276 10.4.2 Accuracy 277 10.4.3 Sensitivity and Linear Dynamic Range 279 10.5 Conclusion 280APPENDICES 281 Appendix A References 281 Appendix B Indicators 283 Appendix C Activity Coefficients(г) for Ions at 25℃ 285 Appendix D Constants for Acid-base, Complexometric, Redox, and Precipitation Titrimetry 286 Appendix E Molecular Masses 299ANSWERS 302INDEX 305PERIODIC TABLE OF THE ELEMENTS 309
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抄的书,不多说,英语更不多说
评分抄的书,不多说,英语更不多说
评分抄的书,不多说,英语更不多说
评分抄的书,不多说,英语更不多说
评分抄的书,不多说,英语更不多说
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