Chemistry for engineers : an applied approach
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書誌事項
Chemistry for engineers : an applied approach
Houghton Mifflin, c2007
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注記
Includes index
内容説明・目次
内容説明
Through a vibrant four-color design, Chemistry for Engineers presents chemistry concepts most relevant to engineers and demonstrates them within an applied context. A thorough problem-solving and conceptually driven approach helps engineering students develop the quantitative and qualitative skills necessary to succeed in the course and in their fields. Features that emphasize skills, concepts, and engineering applications appear throughout each chapter, providing students with multiple opportunities to hone their understanding of chapter topics. For those students who need it, an introductory chapter, called "Fundamentals," provides a quick review of basic chemistry and math concepts. A complete technology package accompanies the text and helps make teaching and learning chemistry more dynamic. Resources include the CL Testing program powered by Diploma, the HM ClassPresent CD with scaleable videos and animations, and the Online Study Center for students with quizzes and tutorials.
目次
1. Fundamentals
1.1 Chemistry, Chemistry Everywhere (with apologies to Samuel Taylor Colderidge)
1.2 Atoms as Building Blocks: Atomic Theory
1.3 Gas Laws
1.4 Molecules and Representations
1.5 Stoichiometry
1.6 Naming Compounds
1.7 Energy
Principle: Energy Is Conserved
1.8 Concept Connections
2. Foundations
2.1 The Periodic Table
2.2 The Components of the Atom
2.3 Light--Unlocking the Electronic Structure of Atoms
2.4 Model of the Atom
2.5 Energy Levels of Multielectron Atoms
3. Physical and Chemical Periodicity
3.1 Trends in the Periodic Table
3.2 Electrons and Boding
3.3 Chemical Trends
3.4 Trends in Physical Properties
4. Metallic Bonding and Alloys
4.1 Bonding in Metals
4.2 Material Properties
4.3 Phase Transitions
4.4 Alloys
5. Chemical Bonding and Modern Electronics
5.1 Introduction to Nonmetallic Bonding
5.2 Resistivity and Conductors versus Semiconductors
5.3 Oxide Conductors and Semiconductors
6. Shape and Intermolecular Interactions
6.1 Shape
6.2 Intermolecular Interactions
6.3 Consequences: Surface Tension
7. Thermodynamics and the Direction of Change
7.1 Case Study: Cold Packs, Hot Packs, and Welding
7.2 The First Law of Thermodynamics: Heat and Energy in Chemical Reactions
7.3 The Second Law of Thermodynamics: The Way Forward
7.4 Coupled Reactions
8. Equilibrium: A Dynamic Steady State
8.1 Gas-Phase Reactions
8.2 Heterogeneous Equilibria
8.3 Variations on Equilibrium Constants
8.4 Aqueous Solutions
8.5 Eight Steps to Conquering Variations on K
8.6 Reaction Direction and the Thermodynamic Connection
8.7 Factors That Affect Equilibrium
9. Electrochemistry: Batteries, Corrosion, Fuel Cells, and Membrane Potentials
9.1 Case Study: Utility Poles, Nails, and Tin Cans
9.2 Oxidation Numbers
9.3 Activity Connected with the Periodic Table
9.4 Balancing Redox Reactions
9.5 Applications
9.6 The Thermodynamic Connection
9.7 Metallurgy
10. Coordination Chemistry: Gems, Magnetization, Metals, and Membranes
10.1 Gems
10.2 Transition Metal Complexes
10.3 Terminology
10.4 Interactions
10.5 Magnetism
10.6 Bioconnect
11. Polymers
11.1 Case Studies
11.2 Formation Mechanisms
11.3 Molecular Structure and Material Properties
12. Kinetics
12.1 Reaction Rates
12.2 Rate Laws
12.3 Elementary Reactions and the Rate Law: Mechanisms
12.4 Modeling Reactions
12.5 Rates and Equilibrium
12.6 Catalysts
Appendix A: Data Tables
Appendix B: Fundamental Constants
Appendix C: Relationships
Appendix D: List of Elements
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