General Chemistry: Atoms First, Books a la Carte Edition; Modified Mastering Chemistry with Pearson eText -- ValuePack Access Card -- for General Chemistry: Atoms First (2nd Edition) - 2nd Edition - by John E. McMurry, Robert C. Fay - ISBN 9780321994080

General Chemistry: Atoms First, Books a...
2nd Edition
John E. McMurry, Robert C. Fay
Publisher: PEARSON
ISBN: 9780321994080

Solutions for General Chemistry: Atoms First, Books a la Carte Edition; Modified Mastering Chemistry with Pearson eText -- ValuePack Access Card -- for General Chemistry: Atoms First (2nd Edition)

Chapter

Section

Problem 0.1P:

Express the following quantities in scientific notation: (a) The diameter of a sodium atom,...

Problem 0.2P:

What units do the following abbreviations represent? (a) g(b) dm(c) ps(d) kA(e) mmol

Browse All Chapters of This Textbook

Name: General Chemistry: Atoms First, Books a la Carte Edition; Modified Mastering Chemistry with Pearson eText -- ValuePack Access Card -- for General Chemistry: Atoms First (2nd Edition)
Author: John E. McMurry, Robert C. Fay
ISBN: 9780321994080

Chapter 0 - Chemical Tools: Experimentation And Measurement Chapter 0.2 - Experimentation And Measurement In Chemistry Chapter 0.5 - Fundamental Units: Measuring Temperature Chapter 0.7 - Derived Units: Measuring Density Chapter 0.8 - Derived Units: Measuring Energy Chapter 0.9 - Accuracy, Precision, And Significant Figures In Measurement Chapter 0.10 - Rounding Numbers Chapter 0.11 - Converting Measurements From One Unit To Another Chapter 1 - The Structure And Stability Of Atoms Chapter 1.1 - Chemistry And The Elements

Chapter 1.3 - Some Common Groups Of Elements And Their Properties Chapter 1.5 - More History: The Law Of Multiple Proportions And Dalton's Atomic Theory Chapter 1.7 - The Structure Of Atoms: Protons And Neutrons Chapter 1.8 - Atomic Numbers Chapter 1.9 - Atomic Masses, Atomic Weights, And The Mole Chapter 1.11 - Nuclear Change And Radioactivity Chapter 2 - Periodicity And The Electronic Structure Of Atoms Chapter 2.1 - The Nature Of Radiant Energy And The Electromagnetic Spectrum Chapter 2.2 - The Interaction Of Radiant Energy With Atoms: Balmer's Equation\Chapter 2.3 - Particle Like Properties Of Radiant Energy: The Photoelectric Effect And Planck’s Postulate Chapter 2.4 - Wavelike Properties Of Matter: De Broglie’s Hypothesis Chapter 2.6 - The Quantum Mechanical Model Of The Atom: Orbitals And The Three Quantum Numbers Chapter 2.7 - Orbitals And Their Shapes Chapter 2.9 - The Quantum Mechanical Model And Atomic Line Spectra Chapter 2.12 - Some Anomalous Electron Configurations Chapter 2.13 - Electron Configurations And The Periodic Table Chapter 2.14 - Electron Configurations And Periodic Properties: Atomic Radii Chapter 3 - Atoms And Ionic Bonds Chapter 3.1 - Ions, Molecules, And Chemical Bonds Chapter 3.2 - Naming Ionic Compounds Chapter 3.3 - Electron Configurations Of Ions Chapter 3.4 - Ionic Radii Chapter 3.5 - Removing An Electron From An Atom: Ionization Energy Chapter 3.6 - Higher Ionization Energies Chapter 3.7 - Adding An Electron To An Atom: Electron Affinity Chapter 3.8 - The Octet Rule For Main-group Atoms Chapter 3.9 - Ionic Bonds And The Formation Of Ionic Solids Chapter 3.10 - Lattice Energies In Ionic Solids Chapter 3.11 - Some Chemistry Of The Alkali Metals (group 1a)Chapter 3.12 - Some Chemistry Of The Alkaline-earth Metals (group 2a)Chapter 3.14 - Some Chemistry Of The Noble Gases (group 8a)Chapter 4 - Atoms And Covalent Bonds Chapter 4.2 - Covalent Bond Formation Chapter 4.4 - Polar Covalent Bonds: Electronegativity Chapter 4.5 - Naming Molecular Compounds Chapter 4.6 - Electron-dot Structures Chapter 4.7 - Electron-dot Structures Of Compounds Containing Only Hydrogen And Second-row Elements Chapter 4.8 - Electron-dot Structures Of Compounds Containing Elements Below The Second Row Chapter 4.9 - Electron-dot Structures And Resonance Chapter 4.10 - Electron-dot Structures And Formal Charge Chapter 5 - Covalent Bonds And Molecular Structure Chapter 5.1 - Molecular Shape: The Vsepr Model Chapter 5.3 - Hybridization And Sp3 Hybrid Orbitals Chapter 5.4 - Other Kinds Of Hybrid Orbitals Chapter 5.5 - Molecular Orbital Theory: The Hydrogen Molecule Chapter 5.6 - Molecular Orbital Theory: Other Diatomic Molecule Chapter 5.7 - Combining Valence Bond Theory And Molecular Orbital Theory Chapter 6 - Chemical Arithmetic: Stoichiometry Chapter 6.2 - Balancing Chemical Equations Chapter 6.3 - Stoichiometry: The Arithmetic Of Chemical Reactions Chapter 6.4 - Yields Of Chemical Reactions Chapter 6.5 - Reactions With Limiting Amounts Of Reactants Chapter 6.6 - Percent Composition And Empirical Formulas Of Compounds Chapter 6.7 - Determining Empirical Formulas By Elemental Analysis Chapter 6.8 - Concentrations Of Reactants In Solution: Molarity Chapter 6.9 - Diluting Concentrated Solutions Chapter 6.10 - Reaction Stoichiometry In Solutions Chapter 6.11 - Finding The Concentration Of A Solution: Titration Chapter 7 - Reactions In Aqueous Solution Chapter 7.1 - Electrolytes In Aqueous Solution Chapter 7.2 - Some Ways That Chemical Reactions Occur Chapter 7.3 - Aqueous Reactions And Net Ionic Equations Chapter 7.4 - Precipitation Reactions And Solubility Guidelines Chapter 7.5 - Acids, Bases, And Neutralization Reactions Chapter 7.6 - Oxidation–reduction (redox) Reactions Chapter 7.7 - Identifying Redox Reactions Chapter 7.8 - The Activity Series Of The Elements Chapter 7.9 - Balancing Redox Reactions By The Half-reaction Method Chapter 7.10 - Redox Titrations Chapter 8 - Thermochemistry: Chemical Energy Chapter 8.2 - Internal Energy Of Molecules: State Functions Chapter 8.3 - Expansion Work Done By Reactions Chapter 8.4 - Internal Energy And Enthalpy Of Molecules Chapter 8.5 - Measuring Heat Transfer: Calorimetry And Heat Capacity Chapter 8.6 - The Thermodynamic Standard State Chapter 8.7 - Enthalpies Of Physical And Chemical Change Chapter 8.8 - Calculating Enthalpy Changes Using Hess’s Law Chapter 8.9 - Calculating Enthalpy Changes Using Standard Heats Of Formation Chapter 8.10 - Calculating Enthalpy Changes Using Bond Dissociation Energies Chapter 8.11 - Fossil Fuels And Heats Of Combustion Chapter 8.12 - An Introduction To Entropy Chapter 9 - Gases: Their Properties And Behavior Chapter 9.1 - Gases And Gas Pressure Chapter 9.2 - The Gas Laws Chapter 9.3 - The Ideal Gas Law Chapter 9.4 - Stoichiometric Relationships With Gases Chapter 9.5 - Mixtures Of Gases: Partial Pressure And Dalton’s Law Chapter 9.6 - The Kinetic–molecular Theory Of Gases Chapter 9.7 - Gas Diffusion And Effusion: Graham’s Law Chapter 9.8 - The Behavior Of Real Gases Chapter 9.9 - The Earth’s Atmosphere Chapter 10 - Liquids, Solids, And Phase Changes Chapter 10.1 - Polar Covalent Bonds And Dipole Moments Chapter 10.2 - Kinds Of Intermolecular Forces Chapter 10.4 - Phase Changes Between Solids, Liquids, And Gases Chapter 10.5 - Evaporation, Vapor Pressure, And Boiling Point Chapter 10.8 - The Packing Of Spheres In Crystalline Solids: Unit Cells Chapter 10.9 - Structures Of Some Ionic Solids Chapter 10.11 - Phase Diagrams Chapter 11 - Solutions And Their Properties Chapter 11.2 - Energy Changes And The Solution Process Chapter 11.3 - Concentration Units For Solutions Chapter 11.4 - Some Factors That Affect Solubility Chapter 11.6 - Vapor-pressure Lowering Of Solutions: Raoult’s Law Chapter 11.7 - Boiling-point Elevation And Freezing-point Depression Of Solutions Chapter 11.8 - Osmosis And Osmotic Pressure Chapter 11.9 - Some Uses Of Colligative Properties Chapter 11.10 - Fractional Distillation Of Liquid Mixtures Chapter 12 - The Rates And Mechanisms Of Chemical Reactions Chapter 12.1 - Rates Of Chemical Reactions Chapter 12.2 - Rate Laws And Reaction Order Chapter 12.3 - Determining A Rate Law: The Method Of Initial Rates Chapter 12.4 - First-order Reactions: The Integrated Rate Law Chapter 12.5 - First-order Reactions: Half-life Chapter 12.6 - First-order Reactions: Radioactive Decay Chapter 12.7 - Second-order Reactions Chapter 12.9 - Reaction Rates And Temperature: Collision Theory And The Arrhenius Equation Chapter 12.10 - Using The Arrhenius Equation Chapter 12.11 - Reaction Mechanisms Chapter 12.12 - Rate Laws For Elementary Reactions Chapter 12.13 - Rate Laws For Overall Reactions Chapter 12.14 - Catalysis Chapter 12.15 - Homogeneous And Heterogeneous Catalysts Chapter 13 - Chemical Equilibrium: The Extent Of Chemical Reactions Chapter 13.2 - The Equilibrium Constant Kc Chapter 13.3 - The Link Between Chemical Equilibrium And Chemical Kinetics Chapter 13.4 - The Equilibrium Constant Kp Chapter 13.5 - Heterogeneous Equilibria Chapter 13.6 - Using The Equilibrium Constant Chapter 13.8 - The Effect Of Concentration Changes On An Equilibrium Mixture Chapter 13.9 - The Effect Of Pressure And Volume Changes On An Equilibrium Mixture Chapter 13.10 - The Effect Of Temperature Changes On An Equilibrium Mixture Chapter 13.11 - The Effect Of A Catalyst On Equilibrium Chapter 14 - Aqueous Equilibria: Acids And Bases Chapter 14.1 - Acid–base Concepts: The Brønsted–lowry Theory Chapter 14.2 - Acid Strength And Base Strength Chapter 14.3 - Factors That Affect Acid Strength Chapter 14.4 - Dissociation Of Water Chapter 14.5 - The Ph Scale Chapter 14.7 - The Ph In Solutions Of Strong Acids And Strong Bases Chapter 14.8 - Equilibria In Solutions Of Weak Acids Chapter 14.9 - Calculating Equilibrium Concentrations In Solutions Of Chapter 14.10 - Percent Dissociation In Solutions Of Weak Acids Chapter 14.11 - Equilibria In Solutions Of Polyprotic Acids Chapter 14.12 - Equilibria In Solutions Of Weak Bases Chapter 14.13 - Relation Between Ka And Kb Chapter 14.14 - Acid–base Properties Of Salts Chapter 14.15 - Lewis Acids And Bases Chapter 15 - Applications Of Aqueous Equilibria Chapter 15.1 - Neutralization Reactions Chapter 15.2 - The Common-ion Effect Chapter 15.3 - Buffer Solutions Chapter 15.4 - The Henderson–hasselbalch Equation Chapter 15.6 - Strong Acid–strong Base Titrations Chapter 15.7 - Weak Acid–strong Base Titrations Chapter 15.9 - Polyprotic Acid–strong Base Titrations Chapter 15.10 - Solubility Equilibria For Ionic Compounds Chapter 15.11 - Measuring Ksp And Calculating Solubility From Ksp Chapter 15.12 - Factors That Affect Solubility Chapter 15.13 - Precipitation Of Ionic Compounds Chapter 15.14 - Separation Of Ions By Selective Precipitation Chapter 15.15 - Qualitative Analysis Chapter 16 - Thermodynamics: Entropy, Free Energy, And Equilibrium Chapter 16.1 - Spontaneous Processes Chapter 16.2 - Enthalpy, Entropy, And Spontaneous Processes: A Brief Review Chapter 16.3 - Entropy And Probability Chapter 16.5 - Standard Molar Entropies And Standard Entropies Of Reaction Chapter 16.6 - Entropy And The Second Law Of Thermodynamics Chapter 16.7 - Free Energy And The Spontaneity Of Chemical Reactions Chapter 16.8 - Standard Free-energy Changes For Reactions Chapter 16.9 - Standard Free Energies Of Formation Chapter 16.10 - Free-energy Changes For Reactions Under Nonstandard-state Conditions Chapter 16.11 - Free Energy And Chemical Equilibrium Chapter 17 - Electrochemistry Chapter 17.1 - Galvanic Cells Chapter 17.2 - Shorthand Notation For Galvanic Cells Chapter 17.3 - Cell Potentials And Free-energy Changes For Cell Reactions Chapter 17.4 - Standard Reduction Potentials Chapter 17.5 - Using Standard Reduction Potentials Chapter 17.6 - Cell Potentials Under Nonstandard-state Conditions: The Nernst Equation Chapter 17.7 - Electrochemical Determination Of Ph Chapter 17.8 - Standard Cell Potentials And Equilibrium Constants Chapter 17.9 - Batteries Chapter 17.10 - Fuel Cells Chapter 17.11 - Corrosion Chapter 17.12 - Electrolysis And Electrolytic Cells Chapter 17.13 - Commercial Applications Of Electrolysis Chapter 17.14 - Quantitative Aspects Of Electrolysis Chapter 18 - Hydrogen, Oxygen, And Water Chapter 18.1 - Hydrogen Chapter 18.2 - Preparation And Uses Of Hydrogen Chapter 18.3 - Reactivity Of Hydrogen Chapter 18.4 - Binary Hydrides Chapter 18.8 - Oxides Chapter 18.9 - Peroxides And Superoxides Chapter 18.10 - Hydrogen Peroxide Chapter 18.13 - Hydrates Chapter 19 - The Main-group Elements Chapter 19.1 - Review Of General Properties And Periodic Trends Chapter 19.2 - Distinctive Properties Of The Second-row Elements Chapter 19.4 - Boron Chapter 19.7 - Carbon Chapter 19.8 - Silicon Chapter 19.10 - Nitrogen Chapter 19.13 - Sulfur Chapter 19.14 - The Halogens: Oxoacids And Oxoacid Salts Chapter 20 - Transition Elements And Coordination Chemistry Chapter 20.1 - Electron Configurations Chapter 20.3 - Oxidation States Of Transition Elements Chapter 20.4 - Chemistry Of Selected Transition Elements Chapter 20.5 - Coordination Compounds Chapter 20.6 - Ligands Chapter 20.7 - Naming Coordination Compounds Chapter 20.8 - Isomers Chapter 20.9 - Enantiomers And Molecular Handedness Chapter 20.10 - Color Of Transition Metal Complexes Chapter 20.11 - Bonding In Complexes: Valence Bond Theory Chapter 20.12 - Crystal Field Theory Chapter 21 - Metals And Solid-state Materials Chapter 21.1 - Sources Of The Metallic Elements Chapter 21.2 - Metallurgy Chapter 21.3 - Iron And Steel Chapter 21.4 - Bonding In Metals Chapter 21.5 - Semiconductors Chapter 21.6 - Semiconductor Applications Chapter 21.7 - Superconductors Chapter 21.8 - Ceramics Chapter 21.9 - Composites Chapter 22 - Nuclear Chemistry Chapter 22.1 - Nuclear Stability Chapter 22.2 - Energy Changes During Nuclear Reactions Chapter 22.3 - Nuclear Fission And Fusion Chapter 22.4 - Nuclear Transmutation Chapter 22.6 - Some Applications Of Nuclear Chemistry Chapter 23 - Organic And Biological Chemistry Chapter 23.1 - Organic Molecules And Their Structures: Alkanes Chapter 23.2 - Families Of Organic Compounds: Functional Groups Chapter 23.3 - Naming Organic Compounds Chapter 23.4 - Unsaturated Organic Compounds: Alkenes And Alkynes Chapter 23.5 - Cyclic Organic Compounds Chapter 23.6 - Aromatic Compounds Chapter 23.7 - Alcohols, Ethers, And Amines Chapter 23.8 - Carbonyl Compounds Chapter 23.10 - Amino Acids, Peptides, And Proteins Chapter 23.11 - Carbohydrates Chapter 23.12 - Lipids Chapter 23.13 - Nucleic Acids Chapter A.1 - Scientific Notation Chapter A.2 - Logarithms

Sample Solutions for this Textbook

We offer sample solutions for General Chemistry: Atoms First, Books a la Carte Edition; Modified Mastering Chemistry with Pearson eText -- ValuePack Access Card -- for General Chemistry: Atoms First (2nd Edition) homework problems. See examples below:

Chapter 0, Problem 0.18CP The alkali metals are indicated in pink color in the periodic table. Figure-1 The first group metals...Chapter 2, Problem 2.24CP Chapter 3, Problem 3.29CP Chapter 4, Problem 4.26CP Chapter 5, Problem 5.18CP Chapter 6, Problem 6.30CP To match the given reactions with given representations. Given reactions are, (a) 2 Na+(aq) +...Chapter 8, Problem 8.27CP

Given, 1:1 Mixture of helium (red) and argon (blue) According to Charles law, Volume of the...From the given electrostatic potential diagram, The Oxygen atom is electron rich (red colour) due to...Chapter 11, Problem 11.29CP Chapter 12, Problem 12.24CP Chapter 13, Problem 13.26CP Chapter 14, Problem 14.33CP Chapter 15, Problem 15.34CP Chapter 16, Problem 16.20CP Zinc electrode is labelled as anode and lead is labelled as cathode. The ions present in the...Given: Given representation is shown in Figure 1. Figure 1 In this picture, ivory spheres denotes...Figure 1 s and p blocks elements are called as main group elements or representative element. The...Given electronic configuration, [Ar] 3 d7 4 s2 Electron filling concepts in orbitals: Electrons...Given, Figure 1 In periodic table, the element C is in group IIA and the element is strontium with...160W (Atomic Number = 74) 185W (Atomic Number = 74) Neutron = (160-74) = 86 Neutron = (185-74) = 111...Given molecular model presence of seven carbon atoms and 14 hydrogen atoms and all hydrogen atoms...