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دانلود کتاب Introductory Chemistry: An Atoms First Approach
دانلود کتاب شیمی مقدماتی: رویکرد اول اتم ها
مشخصات کتاب
Introductory Chemistry: An Atoms First Approach
ویرایش:
نویسندگان: Julia Burdge. Michelle Driessen
سری:
ISBN (شابک) : 0073402702, 9780073402703
ناشر: McGraw-Hill Education
سال نشر: 2016
تعداد صفحات: 609
زبان: English
فرمت فایل : PDF (درصورت درخواست کاربر به PDF، EPUB یا AZW3 تبدیل می شود)
حجم فایل: 142 مگابایت
قیمت کتاب (تومان) : 31,000
در صورت تبدیل فایل کتاب Introductory Chemistry: An Atoms First Approach به فرمت های PDF، EPUB، AZW3، MOBI و یا DJVU می توانید به پشتیبان اطلاع دهید تا فایل مورد نظر را تبدیل نمایند.
توجه داشته باشید کتاب شیمی مقدماتی: رویکرد اول اتم ها نسخه زبان اصلی می باشد و کتاب ترجمه شده به فارسی نمی باشد. وبسایت اینترنشنال لایبرری ارائه دهنده کتاب های زبان اصلی می باشد و هیچ گونه کتاب ترجمه شده یا نوشته شده به فارسی را ارائه نمی دهد.
توضیحاتی در مورد کتاب شیمی مقدماتی: رویکرد اول اتم ها
از همان ابتدا، رویکرد شیمی مقدماتی: ابتدا اتم توسط
جولیا برج و میشل دریسن با استفاده از رویکرد اول اتم مخصوص شیمی
مقدماتی توسعه و نوشته شده است. این یک نسخه خلاصه شده از یک متن
شیمی عمومی نیست، بلکه با دقت و با در نظر گرفتن دانشجوی
مقدماتی-شیمی ساخته شده است.
ترتیب موضوعات توسعه مفهومی شیمی را برای تازهکارها تسهیل میکند، نه توسعه تاریخی که قبلاً انجام شده است. به طور سنتی استفاده می شود. زبان و سبک آن دانشجوپسند و محاوره ای است. و اهمیت و شگفتی شیمی در زندگی روزمره در هر فرصتی مورد تاکید قرار می گیرد. در ادامه سنت برج، این متن از یک برنامه هنری برجسته، یک رویکرد حل مسئله ثابت، برنامههای کاربردی جالبی که در سرتاسر فصلها بافته شدهاند، و طیف گستردهای از مسائل پایان فصل را به کار میگیرد.
توضیحاتی درمورد کتاب به خارجی
From its very origin, Introductory Chemistry: An Atoms
First Approach by Julia Burdge and Michelle Driessen has
been developed and written using an atoms‐first approach
specific to introductory chemistry. It is not a pared down
version of a general chemistry text, but carefully crafted with
the introductory‐chemistry student in mind.
The ordering of topics facilitates the conceptual development of chemistry for the novice, rather than the historical development that has been used traditionally. Its language and style are student‐friendly and conversational; and the importance and wonder of chemistry in everyday life are emphasized at every opportunity. Continuing in the Burdge tradition, this text employs an outstanding art program, a consistent problem-solving approach, interesting applications woven throughout the chapters, and a wide range of end-of-chapter problems.
فهرست مطالب
Cover Title Page Copyright Page Dedication About the Authors Brief Contents Contents Acknowledgments 1 ATOMS AND ELEMENTS 1.1 The Study of Chemistry Why Learn Chemistry? The Scientific Method 1.2 Atoms First 1.3 Subatomic Particles and the Nuclear Model of the Atom 1.4 Elements and the Periodic Table Elements in the Human Body Helium 1.5 Organization of the Periodic Table Elements in Earth\'s Crust 1.6 Isotopes Mass Spectrometry Iron-Fortified Cereal 1.7 Atomic Mass 2 ELECTRONS AND THE PERIODIC TABLE 2.1 The Nature of Light Laser Pointers 2.2 The Bohr Atom Fireworks The Photoelectric Effect Visualizing Chemistry - Bohr Atom 2.3 Atomic Orbitals s orbitals p orbitals d and f orbitals 2.4 Electron Configurations 2.5 Electron Configurations and the Periodic Table 2.6 Periodic Trends 2.7 Ions: The Loss and Gain of Electrons Electron Configuration of Ions Lewis Dot Symbols of Ions 3 COMPOUNDS AND CHEMICAL BONDS 3.1 Matter: Classification and Properties States of Matter Mixtures Properties of Matter 3.2 Ionic Bonding and Binary Ionic Compounds 3.3 Naming Ions and Binary Ionic Compounds Naming Atomic Cations Naming Atomic Anions Naming Binary Ionic Compounds 3.4 Covalent Bonding and Molecules Covalent Bonding Molecules Molecular Formulas Fixed Nitrogen in Fertilizers 3.5 Naming Binary Molecular Compounds 3.6 Covalent Bonding in Ionic Species: Polyatomic Ions Product Labels Product Labels Hydrates 3.7 Acids 3.8 Substances in Review Properties of Atoms Distinguishing Elements and Compounds Determining Whether a Compound Is Ionic or Molecular Naming Compounds 4 HOW CHEMISTS USE NUMBERS 4.1 Units of Measurement Base Units Mass, Length, and Time Metric Multipliers Temperature The Fahrenheit Temperature Scale 4.2 Scientific Notation Very Large Numbers Very Small Numbers Using the Scientific Notation Function on Your Calculator 4.3 Significant Figures Exact Numbers Measured Numbers Arthur Rosenfeld Calculations with Measured Numbers 4.4 Unit Conversion Conversion Factors The Importance of Units Derived Units The International Unit Dimensional Analysis 4.5 Success in Introductory Chemistry Class 5 THE MOLE AND CHEMICAL FORMULAS 5.1 Counting Atoms by Weighing The Mole (The \"Chemist\'s Dozen\") Molar Mass Interconverting Mass, Moles, and Numbers of Atoms 5.2 Counting Molecules by Weighing Calculating the Molar Mass of a Compound Interconverting Mass, Moles, and Numbers of Molecules (or Formula Units) Combining Multiple Conversions in a Single Calculation Redefining the Kilogram 5.3 Mass Percent Composition Iodized Salt 5.4 Using Mass Percent Composition to Determine Empirical Formula Fertilizer & Mass Percents 5.5 Using Empirical Formula and Molar Mass to Determine Molecular Formula 6 MOLECULAR SHAPE 6.1 Drawing Simple Lewis Structures Lewis Structures of Simple Molecules Lewis Structures of Molecules with a Central Atom Lewis Structures of Simple Polyatomic Ions 6.2 Lewis Structures Continued Lewis Structures with Less Obvious Skeletal Structures Lewis Structures with Multiple Bonds Exceptions to the Octet Rule Bleaching, Disinfecting, and Decontamination 6.3 Resonance Structures 6.4 Molecular Shape Flavor, Molecular Shape, and Line Structures Bond Angles Molecular Shapes Resulting from Expanded Octets 6.5 Electronegativity and Polarity Electronegativity Bond Polarity Molecular Polarity How Bond Dipoles Add to Determine Molecular Polarity 6.6 Intermolecular Forces Dipole-Dipole Forces Hydrogen Bonding Dispersion Forces Linus Pauling Intermolecular Forces in Review 7 SOLIDS, LIQUIDS, AND PHASE CHANGES 7.1 General Properties of the Condensed Phases 7.2 Types of Solids Ionic Solids Molecular Solids Atomic Solids Network Solids A Network Solid as Hard as Diamond 7.3 Physical Properties of Solids Vapor Pressure Melting Point 7.4 Physical Properties of Liquids Viscosity Surface Tension Surface Tension and the Shape of Water Drops Vapor Pressure Boiling Point High Altitude and High-Pressure Cooking 7.5 Energy and Physical Changes Temperature Changes Solid-Liquid Phase Changes: Melting and Freezing Liquid-Gas Phase Changes: Vaporization and Condensation Solid-Gas Phase Changes: Sublimation 8 GASES 8.1 Properties of Gases Gaseous Substances Kinetic Molecular Theory of Gases 8.2 Pressure Definition and Units of Pressure Measurement of Pressure Fritz Haber 8.3 The Gas Equations The Ideal Gas Equation Pressure Exerted by a Column of Fluid The Combined Gas Equation The Molar Mass Gas Equation 8.4 The Gas Laws Boyle\'s Law: The Pressure-Volume Relationship Charles\'s Law: The Temperature-Volume Relationship Automobile Air Bags and Charles\'s Law Avogadro\'s Law: The Moles-Volume Relationship 8.5 Gas Mixtures Dalton\'s Law of Partial Pressures Mole Fractions Hyperbaric Oxygen Therapy 9 PHYSICAL PROPERTIES OF SOLUTIONS 9.1 General Properties of Solutions Honey - A Supersaturated Solution Instant Hot Packs 9.2 Aqueous Solubility 9.3 Solution Concentration Percent by Mass Trace Concentrations Molarity Molality Comparison of Concentration Units 9.4 Solution Composition Robert Cade, M.D. 9.5 Solution Preparation Preparation of a Solution from a Solid Preparation of a More Dilute Solution from a Concentrated Solution Preparing a Solution from a Solid Serial Dilution 9.6 Colligative Properties Freezing-Point Depression Boiling-Point Elevation Ice Melters Osmotic Pressure 10 CHEMICAL REACTIONS AND CHEMICAL EQUATIONS 10.1 Recognizing Chemical Reactions 10.2 Representing Chemical Reactions with Chemical Equations Metals Nonmetals Noble Gases Metalloids 10.3 Balancing Chemical Equations The Stoichiometry of Metabolism 10.4 Types of Chemical Reactions Precipitation Reactions Acid-Base Reactions Oxygen Generators Oxidation-Reduction Reactions Antoine Lavoisier Dental Pain and Redox 10.5 Chemical Reactions and Energy 10.6 Chemical Reactions in Review 11 USING BALANCED CHEMICAL EQUATIONS 11.1 Mole to Mole Conversions 11.2 Mass to Mass Conversions 11.3 Limitations on Reaction Yield Limiting Reactant Percent Yield Combustion Analysis Alka-Seltzer 11.4 Aqueous Reactions 11.5 Gases in Chemical Reactions Predicting the Volume of a Gaseous Product Calculating the Required Volume of a Gaseous Reactant Joseph Louis Gay-Lussac 11.6 Chemical Reactions and Heat 12 ACIDS AND BASES 12.1 Properties of Acids and Bases James Lind 12.2 Definitions of Acids and Bases Arrhenius Acids and Bases BrØnsted Acids and Bases Conjugate Acid-Base Pairs 12.3 Water as an Acid 12.4 Strong Acids and Bases 12.5 pH and pOH Scales Antacids and the pH Balance in Your Stomach Lake Natron 12.6 Weak Acids and Bases 12.7 Acid-Base Titrations 12.8 Buffers 13 EQUILIBRIUM 13.1 Reaction Rates Collision Theory 13.2 Chemical Equilibrium How Do We Know That the Forward and Reverse Processes Are Ongoing in a System at Equilibrium? 13.3 Equilibrium Constants Sweet Tea Calculating Equilibrium Constants Magnitude of the Equilibrium Constant 13.4 Factors that Affect Equilibrium Hemoglobin Production at High Altitude Addition or Removal of a Substance Changes in Volume Changes in Temperature 14 ORGANIC CHEMISTRY 14.1 Why Carbon Is Different 14.2 Hydrocarbons Alkanes Alkenes and Alkynes Reactions of Hydrocarbons 14.3 Isomers Partially Hydrogenated Vegetable Oils Representing Organic Molecules with Bond-Line Structures 14.4 Functional Groups 14.5 Alcohols and Ethers 14.6 Aldehydes and Ketones 14.7 Carboxylic Acids and Esters 14.8 Amines and Amides 14.9 Polymers 15 BIOCHEMISTRY 15.1 Biologically Important Molecules Glycerol Fatty Acids Amino Acids Sugars Phosphates Organic Bases 15.2 Lipids Fats Phospholipids Steroids 15.3 Proteins Primary Structure Secondary Structure Tertiary Structure Quaternary Structure 15.4 Carbohydrates Monosaccharides Disaccharides Polysaccharides 15.5 Nucleic Acids 16 NUCLEAR CHEMISTRY 16.1 Radioactive Decay 16.2 Detection of Radiation and Its Biological Effects Radioactivity in Tobacco 16.3 Dating Using Radioactive Decay 16.4 Medical Applications of Radioactivity How Nuclear Chemistry Is Used to Treat Cancer 16.5 Nuclear Fission and Nuclear Fusion Nuclear Fission and Fusion 17 ELECTROCHEMISTRY 17.1 Balancing Oxidation-Reduction Reactions Using the Half-Reaction Method 17.2 Batteries Construction of a Galvanic Cell Dry Cells and Alkaline Batteries Lead Storage Batteries Lithium-Ion Batteries Fuel Cells 17.3 Corrosion 17.4 Electrolysis Electrolysis of Molten Sodium Chloride Electrolysis of Water Appendix: Mathematical Operations Glossary Answers to Odd-Numbered Problems Index
