MSE2620_3050_Overlap - Physics III Oscillations Waves and...

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Chemistry for Engineers Physics II: Heat / Electromagnetism Physics III: Oscillations, Waves and Quantum Physics Mechanical Properties of Materials: From Nanodevices to Superstructures Electronic Materials for the Information Age Atomic and Molecular Structure of Matter Materials Chemistry Thermodynamics of Concensed Systems Kinetics, Diffusion , and Phase Transformations Electronic, Magnetic and Dielectric Properties of Materials Chem 2090 Phys 2213 Phys 2214 MSE 2610 MSE 2620 MSE 2060 MSE 3010 MSE 3030 MSE 3040 MSE 3050 Chapter 1 Elementary Materials Science 1.1 Atomic Structure and Atomic Number Introduce Primary 1.2 Atomic Mass and Mole Introduce Primary 1.3 Bonding and Types of Solids Introduce Primary 1.3.1 Molecules and General Bonding Principles Introduce Primary 1.3.2 Covalently Bonded Solids: Diamond Introduce Primary 1.3.3 Metallic Bonding: Copper Introduce Primary 1.3.4 lonically Bonded Solids: Salt Introduce Primary 1.3.5 Secondary Bonding Introduce Primary 1.3.6 Mixed Bonding Introduce Primary 1.4 Kinetic Molecular Theory Introduce Secondary 1.4.1 Mean Kinetic Energy and Temperature Introduce Secondary 1.4.2 Thermal Expansion Introduce Secondary 1.5 Molecular Velocity and Energy Distribution Introduce Secondary 1.6 Heat, Thermal Fluctuations, and Noise Introduce Secondary 1.7 Thermally Activated Processes Introduce Introduce Primary 1.7.1 Anhenius Rate Equation Introduce Introduce Primary 1.7.2 Atomic Diffusion and the Diffusion Coefficient Introduce Introduce Primary Need to add anisotropy concepts to these topics 1.8 The Crystalline State Secondary Introduce Primary 1.8.1 Types of Crystals Secondary Introduce Primary 1.8.2 Crystal Directions and Planes Secondary Introduce Primary 1.8.3 Allotropy and Carbon Introduce Primary 1.9 Crystalline Defects and Their Significance Primary Introduce 1.9.1 Point Defects: Vacancies and Impurities Primary Introduce 1.9.2 Line Defects: Edge and Screw Dislocations Primary Introduce 1.9.3 Planar Defects: Grain Boundaries Primary Introduce 1.9.4 Crystal Surfaces and Surface Properties Introduce Primary 1.9.5 Stoichiometry, Nonstoichiometry, and Defect Structures Introduce Primary Secondary 1.10 Single-Crystal Czochralski Growth Secondary Primary 1.11 Glasses and Amorphous Semiconductors Primary 1.11.1 Glasses and Amorphous Solids Introduce Secondary Primary 1.11.2 Crystalline and Amorphous Silicon Secondary Primary 1.12 Solid Solutions and Two-Phase Solids Introduce Primary Secondary 1.12.1 Isomorphous Solid Solutions: Isomorphous Alloys Introduce Primary Secondary 1.12.2 Phase Diagrams: Cu-Ni and Other Isomorphous Alloys Introduce Primary Secondary 1.12.3 Zone Refining and Pure Silicon Crystals Primary 1.12.4 Binary Eutectic Phase Diagrams and Pb-Sn Solders Introduce Primary Secondary 1.13 Bravais Lattices Secondary Introduce Primary Chapter 2 Electrical and Thermal Conduction in Solids 2.1 Classical Theory: The Drude Model Primary 2.1.1 Metals and Conduction by Electrons Primary 2.2 Temperature Dependence of Resistivity: Ideal Pure Metals
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  • Spring '09
  • Electron, Magnetism, Magnetic Field, Dielectric, Primary Primary Primary Primary Primary Primary Primary Primary Primary Secondary Secondary Secondary Secondary Secondary Primary Primary Primary Primary Primary Primary Primary Introduce Introduce Primary Primary Primary Introduce Primary Primary Seconda

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MSE2620_3050_Overlap - Physics III Oscillations Waves and...

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