MARC record from Internet Archive

LEADER: 11328cam 2200457Ma 4500
001 ocn256492059
003 OCoLC
005 20210525115616.0
008 070705s2009 maua 001 0 eng
010 $a 2007932357
040 $aDLC$beng$cGPRCL$dAU@$dUBY$dUKM$dXFF$dEIK$dOCLCF$dOCLCO$dOCLCQ$dZ5A$dUKMGB$dCASCU
015 $aGBA786276$2bnb
016 7 $a014199873$2Uk
020 $a9780618857487$q(main student text)
020 $a0618857486$q(main student text)
020 $a9780618934690$q(instructor's annotated edition)
020 $a0618934693$q(instructor's annotated edition)
035 $a(OCoLC)256492059
050 00 $aQD31.3$b.E22 2009
060 $aQD 31.2$bE22 2009
082 04 $a540$222
100 1 $aEbbing, Darrell D.
245 10 $aGeneral chemistry /$cDarrell D. Ebbing, Steven D. Gammon.
250 $a9th ed.
260 $aBoston, Mass. :$bHoughton Mifflin Co.,$c2007.
300 $a1 volume (various pagings) :$billustrations (some color) ;$c28 cm
336 $atext$btxt$2rdacontent
337 $aunmediated$bn$2rdamedia
338 $avolume$bnc$2rdacarrier
500 $aIncludes index.
505 00 $gI.$tBasics of Chemistry --$g1.$tChemistry and Measurement --$g1.1.$tModern Chemistry: A Brief Glimpse --$g1.2.$tExperiment and Explanation --$g1.3.$tLaw of Conservation of Mass --$g1.4.$tMatter: Physical State and Chemical Constitution --$g1.5.$tMeasurement and Significant Figures --$g1.6.$tSI Units --$g1.7.$tDerived Units --$g1.8.$tUnits and Dimensional Analysis (Factor-Label Method) --$g2.$tAtoms, Molecules, and Ions --$g2.1.$tAtomic Theory of Matter --$g2.2.$tThe Structure of the Atom --$g2.3.$tNuclear Structure --$g2.4.$tAtomic Masses --$g2.5.$tPeriodic Table of the Elements --$g2.6.$tChemical Formulas --$g2.7.$tOrganic Compounds --$g2.8.$tNaming Simple Compounds --$g2.9.$tWriting Chemical Equations --$g2.10.$tBalancing Chemical Equations --$g3.$tCalculations with Chemical Formulas and Equations --$g3.1.$tMolecular Mass and Formula Mass --$g3.2.$tThe Mole Concept --$g3.3.$tMass Percentages from the Formula --$g3.4.$tElemental Analysis: Percentages of Carbon, Hydrogen, and Oxygen --$g3.5.$tDetermining Formulas --$g3.6.$tMolar Interpretation of a Chemical Equation --$g3.7.$tAmounts of Substances in a Chemical Reaction --$g3.8.$tLimiting Reactant --$g4.$tChemical Reactions --$g4.1.$tIonic Theory of Solutions and Solubility Rules --$g4.2.$tMolecular and Ionic Equations --$g4.3.$tPrecipitation Reactions --$g4.4.$tAcid-Base Reactions --$g4.5.$tOxidation-Reduction Reactions --$g4.6.$tBalancing Simple Oxidation-Reduction Equations --$g4.7.$tMolar Concentration --$g4.8.$tDiluting Solutions --$g4.9.$tGravimetric Analysis --$g4.10.$tVolumetric Analysis --$g5.$tThe Gaseous State --$g5.1.$tGas Pressure and Its Measurement --$g5.2.$tEmpirical Gas Laws --$g5.3.$tThe Ideal Gas Law --$g5.4.$tStoichiometry Problems Involving Gas Volumes --$g5.5.$tGas Mixtures --$g5.6.$tKinetic Theory of an Ideal Gas --$g5.7.$tMolecular Speeds --$g5.8.$tReal Gases --$g6.$tThermochemistry --$g6.1.$tEnergy and Its Units --$g6.2.$tHeat of Reaction --$g6.3.$tEnthalpy and Enthalpy Change --$g6.4.$tThermochemical Equations --$g6.5.$tApplying Stoichiometry to Heats of Reaction --$g6.6.$tMeasuring Heats of Reaction --$g6.7.$tHess's Law --$g6.8.$tStandard Enthalpies of Formation --$g6.9.$tFuels -- Foods, Commercial Fuels, and Rocket Fuels --$gII.$tAtomic and Molecular Structure --$g7.$tQuantum Theory of the Atom --$g7.1.$tThe Wave Nature of Light --$g7.2.$tQuantum Effects and Photons --$g7.3.$tThe Bohr Theory of the Hydrogen Atom --$g7.4.$tQuantum Mechanics --$g7.5.$tQuantum Numbers and Atomic Orbitals --$g8.$tElectron Configurations and Periodicity --$g8.1.$tElectron Spin and the Pauli Exclusion Principle --$g8.2.$tBuilding-Up Principle and the Periodic Table --$g8.3.$tWriting Electron Configurations Using the Periodic Table --$g8.4.$tOrbital Diagrams of Atoms --$g8.5.$tMendeleev's Predictions from the Periodic Table --$g8.6.$tSome Periodic Properties --$g8.7.$tPeriodicity in the Main-Group Elements --$g9.$tIonic and Covalent Bonding --$g9.1.$tDescribing Ionic Bonds --$g9.2.$tElectron Configurations of Ions --$g9.3.$tIonic Radii --$g9.4.$tDescribing Covalent Bonds --$g9.5.$tPolar Covalent Bonds --$g9.6.$tWriting Lewis Electron-Dot Formulas --$g9.7.$tDelocalized Bonding: Resonance --$g9.8.$tExceptions to the Octet Rule --$g9.9.$tFormal Charge and Lewis Formulas --$g9.10.$tBond Length and Bond Order --$g9.11.$tBond Energy --$g10.$tMolecular Geometry and Chemical Bonding Theory --$g10.1.$tThe Valence-Shell Electron-Pair Repulsion (VSEPR) Model --$g10.2.$tDipole Moment and Molecular Geometry --$g10.3.$tValence Bond Theory --$g10.4.$tDescription of Multiple Bonding --$g10.5.$tPrinciples of Molecular Orbital Theory --$g10.6.$tElectron Configurations of Diatomic Molecules of the Second-Period Elements --$g10.7.$tMolecular Orbitals and Delocalized Bonding --$gIII.$tStates of Matter and Solutions --$g11.$tStates of Matter --$g11.1.$tComparison of Gases, Liquids, and Solids --$g11.2.$tPhase Transitions --$g11.3.$tPhase Diagrams --$g11.4.$tProperties of Liquids: Surface Tension and Viscosity --$g11.5.$tIntermolecular Forces --$g11.6.$tClassification of Solids by Type of Attraction of Units --$g11.7.$tCrystalline Solids --$g11.8.$tStructures of Some Crystalline Solids --$g11.9.$tCalculations Involving Unit-Cell Dimensions --$g11.10.$tDetermining Crystal Structure by X-Ray Diffraction --$g12.$tSolutions --$g12.1.$tTypes of Solutions --$g12.2.$tSolubility and the Solution Process --$g12.3.$tEffects of Temperature and Pressure on Solubility --$g12.4.$tWays of Expressing Concentration --$g12.5.$tVapor Pressure of a Solution --$g12.6.$tBoiling-Point Elevation and Freezing-Point Depression --$g12.7.$tOsmosis --$g12.8.$tColligative Properties of Ionic Solutions --$g12.9.$tColloids --$gIV.$tChemical Reactions and Equilibrium --$g13.$tRates of Reaction --$g13.1.$tDefinition of Reaction Rate --$g13.2.$tExperimental Determination of Rate --$g13.3.$tDependence of Rate on Concentration --$g13.4.$tChange of Concentration with Time --$g13.5.$tTemperature and Rate --$g13.6.$tArrhenius Equation --$g13.7.$tElementary Reactions --$g13.8.$tThe Rate Law and the Mechanism --$g13.9.$tCatalysis --$g14.$tChemical Equilibrium --$g14.1.$tChemical Equilibrium -- A Dynamic Equilibrium --$g14.2.$tThe Equilibrium Constant --$g14.3.$tHeterogeneous Equilibria --$g14.4.$tQualitatively Interpreting the Equilibrium Constant --$g14.5.$tPredicting the Direction of Reaction --$g14.6.$tCalculating Equilibrium Concentrations --$g14.7.$tRemoving Products or Adding Reactants --$g14.8.$tChanging the Pressure and Temperature --$g14.9.$tEffect of a Catalyst --$g15.$tAcids and Bases --$g15.1.$tArrhenius Concept of Acids and Bases --$g15.2.$tBronsted-Lowry Concept of Acids and Bases --$g15.3.$tLewis Concept of Acids and Bases --$g15.4.$tRelative Strengths of Acids and Bases --$g15.5.$tMolecular Structure and Acid Strength --$g15.6.$tSelf-Ionization of Water --$g15.7.$tSolutions of a Strong Acid or Base --$g15.8.$tThe pH of a Solution --$g16.$tAcid-Base Equilibria --$g16.1.$tAcid-Ionization Equilibria --$g16.2.$tPolyprotic Acids --$g16.3.$tBase-Ionization Equilibria --$g16.4.$tAcid-Base Properties of Salt Solutions --$g16.5.$tCommon-Ion Effect --$g16.6.$tBuffers --$g16.7.$tAcid-Base Titration Curves --$g17.$tSolubility and Complex-Ion Equilibria --$g17.1.$tThe Solubility Product Constant --$g17.2.$tSolubility and the Common-Ion Effect --$g17.3.$tPrecipitation Calculations --$g17.4.$tEffect of pH on Solubility --$g17.5.$tComplex-Ion Formation --$g17.6.$tComplex Ions and Solubility --$g17.7.$tQualitative Analysis of Metal Ions --$g18.$tThermodynamics and Equilibrium --$g18.1.$tFirst Law of Thermodynamics --$g18.2.$tEntropy and the Second Law of Thermodynamics --$g18.3.$tStandard Entropies and the Third Law of Thermodynamics --$g18.4.$tFree Energy and Spontaneity --$g18.5.$tInterpretation of Free Energy --$g18.6.$tRelating ?G to the Equilibrium Constant --$g18.7.$tChange of Free Energy with Temperature --$g19.$tElectrochemistry --$g19.1.$tBalancing Oxidation-Reduction Reactions in Acidic and Basic Solutions --$g19.2.$tConstruction of Voltaic Cells --$g19.3.$tNotation for Voltaic Cells --$g19.4.$tCell Potential --$g19.5.$tStandard Cell Potentials and Standard Electrode Potentials --$g19.6.$tEquilibrium Constants from Cell Potentials --$g19.7.$tDependence of Cell Potential on Concentration --$g19.8.$tSome Commercial Voltaic Cells --$g19.9.$tElectrolysis of Molten Salts --$g19.10.$tAqueous Electrolysis --$g19.11.$tStoichiometry of Electrolysis --$gV.$tNuclear Chemistry and Chemistry of the Elements --$g20.$tNuclear Chemistry --$g20.1.$tRadioactivity --$g20.2.$tNuclear Bombardment Reactions --$g20.3.$tRadiations and Matter: Detection and Biological Effects --$g20.4.$tRate of Radioactive Decay --$g20.5.$tApplications of Radioactive Isotopes --$g20.6.$tMass-Energy Calculations --$g20.7.$tNuclear Fission and Nuclear Fusion --$g21.$tChemistry of the Main-Group Elements --$g21.1.$tGeneral Observations About the Main-Group Elements --$g21.2.$tMetals: Characteristics and Production --$g21.3.$tBonding in Metals --$g21.4.$tGroup IVA: The Alkali Metals --$g21.5.$tGroup IIA: The Alkaline Earth Metals --$g21.6.$tGroup IIIA and Group IVA Metals --$g21.7.$tHydrogen --$g21.8.$tGroup IVA: The Carbon Family --$g21.9.$tGroup VA: Nitrogen and the Phosphorous Family --$g21.10.$tGroup VIA: Oxygen and the Sulfur Family --$g21.11.$tGroup VIIA: The Halogens --$g21.12.$tGroup VIIIA: The Noble Gases --$g22.$tThe Transition Elements and Coordination Compounds --$g22.1.$tPeriodic Trends in the Transition Elements --$g22.2.$tThe Chemistry of Two Transition Elements --$g22.3.$tFormation and Structure of Complexes --$g22.4.$tNaming Coordination Compounds --$g22.5.$tStructure and Isomerism in Coordination Compounds --$g22.6.$tValence Bond Theory of Complexes --$g22.7.$tCrystal Field Theory --$g23.$tOrganic Chemistry --$g23.1.$tThe Bonding of Carbon --$g23.2.$tAlkanes and Cycloalkanes --$g23.3.$tAlkenes and Alkynes --$g23.4.$tAromatic Hydrocarbons --$g23.5.$tNaming Hydrocarbons --$g23.6.$tOrganic Compounds Containing Oxygen --$g23.7.$tOrganic Compounds Containing Nitrogen --$g24.$tPolymer Materials: Synthetic and Biological --$g24.1.$tSynthesis of Organic Polymers --$g24.2.$tElectrically Conducting Polymers --$g24.3.$tProteins --$g24.4.$tNucleic Acids --$gAppendix A.$tMathematical Skills --$gAppendix B.$tVapor Pressure of Water at Various Temperatures --$gAppendix C.$tThermodynamic Quantities for Substances and Ions at 25 C --$gAppendix D.$tElectron Configurations of Atoms in the Ground State --$gAppendix E.$tAcid-Ionization Constants at 25 C --$gAppendix F.$tBase-Ionization Constants at 25 C --$gAppendix G.$tSolubility Product Constants at 25 C --$gAppendix H.$tFormation Constants of Complex Ions at 25 C --$gAppendix I.$tStandard Electrode (Reduction) Potentials in Aqueous Solution at 25 C.
650 0 $aChemistry.
650 7 $aChemistry.$2fast$0(OCoLC)fst00853344
700 1 $aGammon, Steven D.
029 1 $aAU@$b000043028982
029 1 $aNZ1$b13085850
029 1 $aUNITY$b10987983X
029 1 $aAU@$b000060857311
029 1 $aUKMGB$b014199873
994 $aZ0$bP4A
948 $hNO HOLDINGS IN P4A - 64 OTHER HOLDINGS