The smart guide to chemistry

Title
The smart guide to chemistry

Personal Author EPSB
Brian. Nordstrom

Other Title
Chemistry

Year Published
2014

Series
Smart guide to

Physical Description
xvi, 385 pages : illustrations ; 24 cm.

Edition
Second edition.

Note
Includes index.

Contents
pt. I. The nature of matter -- 1. The wonderful world of atoms and molecules -- What is chemistry -- Analytical chemists -- Organic chemists -- Biochemists -- Inorganic chemists -- Physical chemists -- Nuclear chemists -- Chemical engineers -- Educational requirements to be a chemists -- Chemistry as a human enterprise -- 2. A brief history of chemistry -- Early chemistry in ancient civilizations -- Alchemy during the Middle Ages -- The chemical revolutions of the Eighteenth Century -- Phlogiston -- Development of modern chemistry during the Nineteenth Century -- Modern atomic theory -- The Periodic Table -- Organic compounds -- Thermochemistry and chemical kinetics -- The discovery of radioactivity -- Chemistry in the Twentieth and Twenty-first Centuries -- Quantum theory -- Chemical bonds -- Discovery of fission and fusion -- Elements beyond uranium -- Chemistry and biology -- Chemistry beyond Earth -- 3. The language of science -- Scientific notation -- Units and their abbreviations -- The International System (SI) of Units -- Metric prefixes -- Derived units -- Nonmetric units -- Temperature scales -- Absolute temperature scales -- Absolute zero -- 4. Elements and compounds -- The composition of atoms -- Chemical elements -- Allotropes -- Isotopes -- Chemical compounds -- Isomers -- 5. Mixtures of substances -- Mixtures and their properties -- Ways to separate the components of mixtures -- The variety of solutions -- Units of concentration for solutions -- Percent by weight -- Percent by volume -- Molarity -- Mole fraction -- Molality -- 6. Names and formulas of chemical compounds -- Ionic and molecular compounds -- Positive ions -- The Stock system -- Positive ions that do not contain a metal -- Negative ions -- Simple negative ions -- Complex negative ions -- Phosphate ions -- Halogen ions -- Formulas of ionic compounds -- Naming molecular compounds -- A question about +4 ions -- Trisodium phosphate --
 
pt. II. The transformations of matter -- 7. Chemical reactions -- The Law of Conservation of Mass -- Writing equations for chemical reactions -- Examples of chemical reactions -- Reactions in gas phase -- Reactions in aqueous solution -- Precipitation reactions -- Conservation of charge -- Acid-base reactions -- Other chemical reactions -- Stoichiometry of chemical reactions -- Molecular weight -- Calculating mass of a product in a chemical reaction -- 8. Precipitations reactions -- Solubility rules -- Precipitation reactions -- Total molecular equations -- Total ionic equations -- Net ionic equations -- Spectator ions -- More examples of net ionic equations -- 9. Acids and bases -- Definitions of acid and bases -- The Arrhenius definition -- The Brönsted-Lowry definition of acids and bases -- Bases -- Strengths of acids and bases -- Neutralization reactions -- Conjugate acid-base pairs -- The pH scale -- 10. Oxidation-reduction reactions -- Rules for assigning oxidation numbers -- combustion reactions -- The activity series of the metals -- Corrosion -- Photosynthesis and respiration -- 11. Electrochemical processes -- Galvanic cells -- The standard hydrogen potential -- Standard potentials -- Commercial batteries -- Ohm's Law -- Electrolytic cells -- 12. Energy and chemical reactions -- A brief history of energy -- Energy and work -- Kinetic energy -- Gravitational potential energy -- Thermal energy -- Chemical energy -- Radiant energy -- Electrical energy -- Nuclear energy -- Work -- Special kinds of processes -- The Law of Conservation of Energy -- Examples of different kinds of work and heat exchanges -- Automobile engines -- Atmospheric temperature lapse rate -- Phase changes -- 13. Radioactive processes and applications -- Symbols used in nuclear reactions -- Other particles besides atomic nuclei -- Radioactive decay -- Alpha decay -- Beta decay -- Gamma decay -- Half-life -- Equation for radioactive decay -- Applications of radionuclides in science -- Carbon dating -- Uranium and thorium dating -- Applications of radionuclides in medicine -- Using radioactive substances to diagnose disease -- Using radiation therapy to treat disease -- 14. Nuclear reactions and applications -- Transmutation reactions -- Nuclear fission -- The aftermath of Fukushima -- Nuclear fusion -- Production of superheavy elements --
 
pt. IV. The states of matter -- 19. The nature of the chemical bond -- The nature of stored energy -- The positive and negative of electrostatic forces -- Ionic bonds : transferring electrons -- Covalent bonds : sharing electrons -- Lewis electron dot structures -- Electronegativity -- Polar covalent bonds -- Nonpolar covalent bonds -- 20. Shapes of molecules -- Lewis electron dot structures for molecules -- Valence shell electron pair repulsion theory -- Polar and nonpolar molecules -- Intermolecular forces -- Dipole-dipole forces -- Hydrogen bonding -- London forces -- Resonance structures -- Expanded octets -- Hybrid orbitals -- Shapes of larger molecules -- 21. The properties of gases -- Boyle's Law -- Charles's Law -- The need for an absolute temperature scale -- Avogadro's Law -- The Ideal Gas Law -- Kinetic theory of gases -- Dalton's Law of Partial Pressures -- Graham's Law of Effusion -- 22. Solutions and how we describe them -- Solutions : solutes and solvents -- Solutions : aquatic environments -- Solutions : the atmosphere -- Other kinds of solutions -- Saturated solutions -- 23. Physical properties of solutions -- The effect of polarity on solubility -- Mixing polar and nonpolar substances -- Mixing two polar substances -- Mixing two nonpolar substances -- The effect of temperature on solubility -- Dissolving solids in liquids -- Dissolving gases in liquids -- The effect of pressure on solubility -- Henry's Law -- The effect on the vapor pressure of a liquid when a solute is added -- The effect on the freezing point of a liquid when a solute is added -- The effect on the boiling point of a liquid when a solute is added -- 24. The chemistry of water -- The shape of a water molecule -- The many effects of hydrogen bonding -- Ice floats -- Capillary action -- Rate of evaporation -- Vapor pressure of water -- Water's specific heat -- Latent heats of fusion and vaporization -- Surface tension -- The shape of snowflakes -- the discovery of water's true nature -- Heavy water -- Water as a solvent -- Aquatic ecosystems --
 
pt. III. The organization of matter -- 15. The periodic table of the elements -- Families of elements -- Properties of metals, nonmetals, and metalloids -- The discovery and naming of elements -- How elements are named -- Relative abundance of elements -- The not-so-rare earths -- Relative abundance of elements in the human body -- The transuranium elements -- The future of the periodic table -- 16. Early models of the atom -- Democritus and the ancient Greeks -- John Dalton, the father of modern atomic theory -- Conservation of mass -- Dalton's model of the atom -- Classical physics in the 1800s -- Henri Becquerel and the discovery of radioactivity -- J.J. Thomson and the discovery of the electron -- Thomson's model of the atom -- Ernest Rutherford and the discovery of the nucleus -- The gold foil experiment -- The nuclear model of the atom -- 17. Modern models of the atom -- Niels Bohr and the planetary model of the atom -- Quantum theory -- Louis de Broglie and the wave nature of matter -- The quantum mechanical model of the atom -- Quantum numbers -- The relationship between quantum numbers and the arrangement of electrons -- The Pauli exclusion principle -- The Aufbau principle -- Hund's rule -- electronic configurations -- Energy level diagrams -- 18. The periodic properties of elements -- Families of elements -- the alkali metals -- The alkaline earths -- Trends in sizes of atoms in the periodic table -- Trends in sizes of ions -- Nonmetals -- Trends in ionization energies -- Trends in electron affinities -- Trends in electronegativities -- Trends in melting points of metals --
 
pt. VI. The basis of life -- 30. The world of carbon -- Structural formulas of molecules -- Characteristics of functional groups -- Counting in Greek -- Alkanes -- Saturated hydrocarbons -- Properties of alkanes -- Cycloalkanes -- Alkenes -- Alkynes -- Aromatic compounds -- The stability of benzene -- Derivatives of benzene -- Phenols -- Toluene -- Alcohols -- Methanol -- Ethanol -- Isopropyl alcohol -- Ethers -- Compounds containing a carbonyl group -- Carboxylic acids -- Esters -- Compounds that contain nitrogen -- 31. The chemistry of life -- Carbohydrates aka saccharides -- Sugars -- Starch and cellulose -- Photosynthesis -- Lipids -- Fatty acids -- Steroids -- Proteins -- Amino acids -- Essential amino acids -- How protein molecules are formed -- Enzymes -- Nucleic acids -- Nitrogenous bases -- The role of RNA -- The question of the origin of life -- 32. What's on your dining table? -- Transgenic crops -- How genetic engineering works -- The research effort -- Feeding 7 million people -- Fertilizers -- Pesticides -- One solution : genetic engineering -- Meeting the world's demand for more food -- Vegetable oils -- Tomatoes -- Soybeans -- Rice -- Corn -- Potatoes -- Papaya -- Sugar beets -- GMOs in animals -- To GMO or not to GMO -- 33. What's in your medicine cabinet? -- Genetically engineered food versus genetically engineered drugs -- Infectious disease -- Early vaccines -- Smallpox vaccine -- Rabies vaccine -- Polio vaccine -- Genetically engineered drugs -- Insulin -- Antibiotics -- Anticoagulants -- Interleukins -- Interferons -- HIV/AIDS -- Malaria -- Lyme disease -- Tuberculosis -- Hepatitis B.
 
pt. V. Chemistry in the environment -- 25. Chemical kinetics -- Collision theory and the three conditions for products to form -- chemical reactions and transition state theory -- The five factors that affect the rate of a chemical reactions -- The rates of reaction depend on the nature of the reactants -- The rates of reaction depend on the surface area of solids -- The effect of concentration -- The effect of temperature -- Chemical reactions take place more quickly in the presence of a catalyst -- 26. The composition of the atmosphere -- The relative concentration of gases found in the atmosphere -- Regions of the atmosphere -- chemistry of Earth's unique atmosphere -- Nitrogen -- Oxygen -- Argon -- Carbon Dioxide -- Other gases -- 27. The chemistry of acid rain -- The role of CO2 in aquatic ecosystems -- Characteristics of acid rain -- Natural sources of sulfuric acid -- Natural sources of nitric acid -- anthropogenic sources of H2SO4 and HNO3 -- The regions of North America most affected by acid rain -- The harmful effects of acid rain -- Mitigating the effects of acid rain or preventing its formations -- 28. The chemistry of ozone -- The chemistry of ozone in the troposphere -- Pollution of the air we breathe -- The daily cycle of air pollution -- Enter the Clean Air Act -- Getting the lead out while we are at it -- Ozone in the stratosphere -- Catalyst that destroy stratospheric ozone -- Oxides of nitrogen -- Chlorine -- The hole over Antarctica -- 29. Global climate change -- The changing climate -- The natural balance of heat on Earth -- The greenhouse effect -- The Goldilocks effect -- Greenhouse gases -- The effect of the combustion of fossil fuels -- Expected effects of global climate change --

Subject
Chemistry.

ISBN
9781937636623

Publisher
Norman, OK. : Smart Guide Publications, Inc., [2014]
 
©2014


LibraryCall NumberTypeItem BarcodeStatus
Edmonton Christian High540 NORBook30905000080154Non-Fiction