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" Chemistry for changing times / "
John W. Hill, University of Wisconsin--River Falls, Terry W. McCreary, Murray State University ; with contributions by Robert and Elzbieta Cook, Louisiana State University, Ricardo Delgado, Lindenwood University, Marilyn Duerst, University of Wisconsin-River Falls, Steven R. Gwaltney, Mississippi State University, Andrew Jorgensen, the University of Toledo, Jeremy Mason, Texas Tech University, Rill Ann Reuter, Winona State University.
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BL
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| Record Number
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875229
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| Main Entry
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Hill, John W., (John William),1933-
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| Title & Author
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Chemistry for changing times /\ John W. Hill, University of Wisconsin--River Falls, Terry W. McCreary, Murray State University ; with contributions by Robert and Elzbieta Cook, Louisiana State University, Ricardo Delgado, Lindenwood University, Marilyn Duerst, University of Wisconsin-River Falls, Steven R. Gwaltney, Mississippi State University, Andrew Jorgensen, the University of Toledo, Jeremy Mason, Texas Tech University, Rill Ann Reuter, Winona State University.
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| Edition Statement
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Fourteenth edition.
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| Publication Statement
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[Boston] :: Pearson,, [2016]
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| Page. NO
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xix, 720 pages :: illustrations (some color) ;; 28 cm
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| ISBN
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0321971183
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: 0321972023
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: 9780321971180
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: 9780321972026
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| Notes
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Includes index.
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| Contents
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Machine generated contents note: 1.1. Science and Technology: The Roots of Knowledge -- 1.2. Science: Reproducible, Testable, Tentative, Predictive, and Explanatory -- 1.3. Science and Technology: Risks and Benefits -- 1.4. Solving Society's Problems: Scientific Research -- 1.5. Chemistry: A Study of Matter and Its Changes -- 1.6. Classification of Matter -- 1.7. The Measurement of Matter -- 1.8. Density -- 1.9. Energy: Heat and Temperature -- 1.10. Critical Thinking -- Green Chemistry Green Chemistry: Reimagining Chemistry for a Sustainable World -- Summary -- Review Questions -- Problems -- Additional Problems -- Critical Thinking Exercises -- Collaborative Group Projects -- Chemistry @ Home Rainbow Density Column -- 2.1. Atoms: Ideas from the Ancient Greeks -- 2.2. Scientific Laws: Conservation of Mass and Definite Proportions -- 2.3. John Dalton and the Atomic Theory of Matter -- 2.4. The Mole and Molar Mass -- 2.5. Mendeleev and the Periodic Table
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Note continued: 11.3. Half-Life and Radioisotopic Dating -- 11.4. Artificial Transmutation -- 11.5. Uses of Radioisotopes -- 11.6. Penetrating Power of Radiation -- 11.7. Energy from the Nucleus -- 11.8. Nuclear Bombs -- 11.9. Uses and Consequences of Nuclear Energy -- Green Chemistry Can Nuclear Power Be Green? -- Summary -- Review Questions -- Problems -- Additional Problems -- Critical Thinking Exercises -- Collaborative Group Projects -- Chemistry @ Home The Brief Half-Life of Candy -- 12.1. Spaceship Earth: Structure and Composition -- 12.2. Silicates and the Shapes of Things -- 12.3. Metals and Ores -- 12.4. Earth's Dwindling Resources -- Green Chemistry Critical Supply of Key Elements -- Summary -- Review Questions -- Problems -- Additional Problems -- Critical Thinking Exercises -- Collaborative Group Projects -- Chemistry @ Home Fizzy Flintstones, Crumbling Calcium Carbonate -- 13.1. Earth's Atmosphere: Divisions and Composition -- 13.2. Chemistry of the Atmosphere
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Note continued: 13.3. Pollution through the Ages -- 13.4. Automobile Emissions -- 13.5. Photochemical Smog: Making Haze While the Sun Shines -- 13.6. Acid Rain: Air Pollution -- Water Pollution -- 13.7. The Inside Story: Indoor Air Pollution -- 13.8. Stratospheric Ozone: Earth's Vital Shield -- 13.9. Carbon Dioxide and Climate Change -- 13.10. Who Pollutes? Who Pays? -- Green Chemistry It's Not Easy Being Green -- Summary -- Review Questions -- Problems -- Additional Problems -- Critical Thinking Exercises -- Collaborative Group Projects -- Chemistry @ Home Let the Sun Shine -- 14.1. Water: Some Unique Properties -- 14.2. Water in Nature -- 14.3. Chemical and Biological Contamination -- 14.4. Groundwater Contamination -> Tainted Tap Water -- 14.5. Water: Who Uses It and How Much? -- 14.6. Making Water Fit to Drink -- 14.7. Wastewater Treatment -- Green Chemistry Fate of Chemicals in the Water Environment -- Summary -- Review Questions -- Problems -- Additional Problems
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Note continued: 16.7. RNA: Protein Synthesis and the Genetic Code -- 16.8. The Human Genome -- Green Chemistry Green Chemistry and Biochemistry -- Summary -- Review Questions -- Problems -- Additional Problems -- Critical Thinking Exercises -- Collaborative Group Projects -- Chemistry @ Home DNA Dessert -- 17.1. Carbohydrates in the Diet -- 17.2. Fats and Cholesterol -- 17.3. Proteins: Muscle and Much More -- 17.4. Minerals, Vitamins, and Other Essentials -- 17.5. Starvation, Fasting, and Malnutrition -- 17.6. Flavorings: Spicy and Sweet -- 17.7. Other Food Additives: Beneficial or Dangerous? -- 17.8. Problems with Our Food -- Green Chemistry The Future of Food Waste -- A Green Chemistry Perspective -- Summary -- Review Questions -- Problems -- Additional Problems -- Critical Thinking Exercises -- Collaborative Group Projects -- Chemistry @ Home How Sweet It Is to Be Fermented by You! -- 18.1. Scientific Drug Design -- 18.2. Pain Relievers: From Aspirin to Oxycodone
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Note continued: 18.3. Drugs and Infectious Diseases -- 18.4. Chemicals against Cancer -- 18.5. Hormones: The Regulators -- 18.6. Drugs for the Heart -- 18.7. Drugs and the Mind -- 18.8. Drugs and Society -- Green Chemistry Green Pharmaceutical Production -- Summary -- Review Questions -- Problems -- Additional Problems -- Critical Thinking Exercises -- Collaborative Group Projects -- Chemistry @ Home Heal My Heartburn -- 19.1. Calories: Quantity and Quality -- 19.2. Vitamins, Minerals, Fluids, and Electrolytes -- 19.3. Weight Loss: Diets and Exercise -- 19.4. Measuring Fitness -- 19.5. Some Muscular Chemistry -- 19.6. Drugs, Athletic Performance, and the Brain -- Green Chemistry Your Fitness Benefits the Planet -- Summary -- Review Questions -- Problems -- Additional Problems -- Critical Thinking Exercises -- Collaborative Group Projects -- Chemistry @ Home Pumping Iron for Breakfast -- 20.1. Farming with Chemicals: Fertilizers -- 20.2. The War against Pests
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Note continued: 2.6. Atoms and Molecules: Real and Relevant -- Green Chemistry It's Elemental -- Summary -- Review Questions -- Problems -- Additional Problems -- Critical Thinking Exercises -- Collaborative Group Projects -- Chemistry @ Home Reaction in a Bag: Demonstrating the Law of Conservation of Matter -- 3.1. Electricity and the Atom -- 3.2. Serendipity in Science: X-Rays and Radioactivity -- 3.3. Three Types of Radioactivity -- 3.4. Rutherford's Experiment: The Nuclear Model of the Atom -- 3.5. The Atomic Nucleus -- 3.6. Electron Arrangement: The Bohr Model -- 3.7. Electron Arrangement: The Quantum Model -- 3.8. Electron Configurations and the Periodic Table -- Green Chemistry Clean Energy from Solar Fuels -- Summary -- Review Questions -- Problems -- Additional Problems -- Critical Thinking Exercises -- Collaborative Group Projects -- Chemistry @ Home Birthday Candle Flame Test -- 4.1. The Art of Deduction: Stable Electron Configurations
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Note continued: 20.3. Herbicides and Defoliants -- 20.4. Sustainable Agriculture -- 20.5. Looking to the Future: Feeding a Growing, Hungry World -- Green Chemistry Safer Pesticides through Biomimicry and Green Chemistry -- Summary -- Review Questions -- Problems -- Additional Problems -- Critical Thinking Exercises -- Collaborative Group Projects -- Chemistry @ Home Wash Away the Weeds -- 21.1. Cleaning with Soap -- 21.2. Synthetic Detergents -- 21.3. Laundry Auxiliaries: Softeners and Bleaches -- 21.4. All-Purpose and Special-Purpose Cleaning Products -- 21.5. Solvents, Paints, and Waxes -- 21.6. Cosmetics: Personal-Care Chemicals -- Green Chemistry Practicing Green Chemistry at Home -- Summary -- Review Questions -- Problems -- Additional Problems -- Critical Thinking Exercises -- Collaborative Group Projects -- Chemistry @ Home Happy Hands -- 22.1. Natural Poisons -- 22.2. Poisons and How They Act -- 22.3. More Chemistry of the Nervous System -- 22.4. The Lethal Dose
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Note continued: 22.5. The Liver as a Detox Facility -- 22.6. Carcinogens and Teratogens -- 22.7. Hazardous Wastes -- Green Chemistry Designing Safer Chemicals with Green Chemistry -- Summary -- Review Questions -- Problems -- Additional Problems -- Critical Thinking Exercises -- Collaborative Group Projects -- Chemistry @ Home Salty Seeds.
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Note continued: 4.2. Lewis (Electron-Dot) Symbols -- 4.3. The Reaction of Sodium and Chlorine -- 4.4. Using Lewis Symbols for Ionic Compounds -- 4.5. Formulas and Names of Binary Ionic Compounds -- 4.6. Covalent Bonds: Shared Electron Pairs -- 4.7. Unequal Sharing: Polar Covalent Bonds -- 4.8. Polyatomic Molecules: Water, Ammonia, and Methane -- 4.9. Polyatomic Ions -- 4.10. Rules for Writing Lewis Formulas -- 4.11. Molecular Shapes: The VSEPR Theory -- 4.12. Shapes and Properties: Polar and Nonpolar Molecules -- Green Chemistry Green Chemistry and Chemical Bonds -- Summary -- Review Questions -- Problems -- Additional Problems -- Critical Thinking Exercises -- Collaborative Group Projects -- Chemistry @ Home Molecular Shapes: Please Don't Eat the Atoms! -- 5.1. Chemical Sentences: Equations -- 5.2. Volume Relationships in Chemical Equations -- 5.3. Avogadro's Number and the Mole -- 5.4. Molar Mass: Mole-to-Mass and Mass-to-Mole Conversions -- 5.5. Solutions
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Note continued: 9.7. Carboxylic Acids and Esters -- 9.8. Nitrogen-Containing Compounds: Amines and Amides -- Green Chemistry The Art of Organic Synthesis: Green Chemists Find a Better Way -- Summary -- Review Questions -- Problems -- Additional Problems -- Critical Thinking Exercises -- Collaborative Group Projects -- Chemistry @ Home Saturate This! -- 10.1. Polymerization: Making Big Ones Out of Little Ones -- 10.2. Polyethylene: From the Battle of Britain to Bread Bags -- 10.3. Addition Polymerization: One + One + One + Gives One! -- 10.4. Rubber and Other Elastomers -- 10.5. Condensation Polymers -- 10.6. Properties of Polymers -- 10.7. Plastics and the Environment -- Green Chemistry Life-Cycle Impact Assessment of New Products -- Summary -- Review Questions -- Problems -- Additional Problems -- Critical Thinking Exercises -- Collaborative Group Projects -- Chemistry @ Home Polymer Bouncing Ball -- 11.1. Natural Radioactivity -- 11.2. Nuclear Equations
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Note continued: Critical Thinking Exercises -- Collaborative Group Projects -- Chemistry @ Home Disappearing Dilution -- 15.1. Our Sun, a Giant Nuclear Power Plant -- 15.2. Energy and Chemical Reactions -- 15.3. Reaction Rates -- 15.4. The Laws of Thermodynamics -- 15.5. Power: People, Horses, and Fossils -- 15.6. Coal: The Carbon Rock of Ages -- 15.7. Natural Gas and Petroleum -- 15.8. Convenient Energy -- 15.9. Nuclear Energy -- 15.10. Renewable Energy Sources -- Green Chemistry Where Will We Get the Energy? -- Summary -- Review Questions -- Problems -- Additional Problems -- Critical Thinking Exercises -- Collaborative Group Projects -- Chemistry @ Home Some Like It Hot and Some Like It Cool! -- 16.1. Energy and the Living Cell -- 16.2. Carbohydrates: A Storehouse of Energy -- 16.3. Fats and Other Lipids -- 16.4. Proteins: Polymers of Amino Acids -- 16.5. Structure and Function of Proteins -- 16.6. Nucleic Acids: Parts, Structure, and Function
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Note continued: Green Chemistry Acids and Bases-Greener Alternatives -- Summary -- Review Questions -- Problems -- Additional Problems -- Critical Thinking Exercises -- Collaborative Group Projects -- Chemistry @ Home Acids and Bases and pH, Oh My! -- 8.1. Oxidation and Reduction: Four Views -- 8.2. Oxidizing and Reducing Agents -- 8.3. Electrochemistry: Cells and Batteries -- 8.4. Corrosion and Explosion -- 8.5. Oxygen: An Abundant and Essential Oxidizing Agent -- 8.6. Some Common Reducing Agents -- 8.7. Oxidation, Reduction, and Living Things -- Green Chemistry Green Redox Catalysis -- Summary -- Review Questions -- Problems -- Additional Problems -- Critical Thinking Exercises -- Collaborative Group Projects -- Chemistry @ Home Light My Fruit -- 9.1. Aliphatic Hydrocarbons -- 9.2. Aromatic Compounds: Benzene and Its Relatives -- 9.3. Halogenated Hydrocarbons: Many Uses, Some Hazards -- 9.4. The Functional Group -- 9.5. Alcohols, Phenols, and Ethers -- 9.6. Aldehydes and Ketones
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Note continued: Green Chemistry Atom Economy -- Summary -- Review Questions -- Problems -- Additional Problems -- Critical Thinking Exercises -- Collaborative Group Projects -- Chemistry @ Home Cookie Equations -- 6.1. Solids, Liquids, and Gases -- 6.2.Comparing Ionic and Molecular Substances -- 6.3. Forces between Molecules -- 6.4. Forces in Solutions -- 6.5. Gases: The Kinetic-Molecular Theory -- 6.6. The Simple Gas Laws -- 6.7. The Ideal Gas Law -- Green Chemistry Supercritical Fluids -- Summary -- Review Questions -- Problems -- Additional Problems -- Critical Thinking Exercises -- Collaborative Group Projects -- Chemistry @ Home Blow Up My Balloon -- 7.1. Acids and Bases: Experimental Definitions -- 7.2. Acids, Bases, and Salts -- 7.3. Acidic and Basic Anhydrides -- 7.4. Strong and Weak Acids and Bases -- 7.5. Neutralization -- 7.6. The pH Scale -- 7.7. Buffers and Conjugate Acid-Base Pairs -- 7.8. Acids and Bases in Industry and in Daily Life
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| Subject
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Chemistry, Textbooks.
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| Subject
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Chemistry.
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| Dewey Classification
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540
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| LC Classification
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QD33.2.H54 2016
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| Added Entry
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Kolb, Doris K.
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McCreary, Terry Wade,1955-
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