Introduction to Solid State Chemistry by Donald Sadoway (at MIT)

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source: tawkaw OpenCourseWare    2014年5月25日

35 Wrap up Closing Remarks about the Course; Student Course Evaluations 41:46
34 Two component Phase Diagrams Limited Solid Solubility; Lever Rule 51:19
33 Phase Diagrams Basic Definitions Phase, Component, Equilibrium; One component Phase Dia 46:04
30 Biochemistry The Amino Acids, Peptides, and Proteins 50:23
29 Structure property Relationships in Polymers, Crystalline Polymers 47:00
28 Organic Glasses Polymers Synthesis by Addition Polymerization and by Condensation Polym 50:57
27 Organic Chemistry Basic Concepts, Alkanes, Alkenes, Alkynes, Aromatics, Functional Groups 51:37
26 Acids and Bases Arrhenius, Brønsted Lowry, and Lewis Definitions, Acid Strength and pH
25 Solutions Solute, Solvent, Solution, Solubility Rules, Solubility Product 50:43
24 Fick's Second Law FSL and Transient state Diffusion; Error Function Solutions to FSL 45:42
23 Diffusion Fick's First Law and Steady state Diffusion, Dependence of the Diffusion Coeffi 50:50
22 Chemical Kinetics The Rate Equation, Order of Reaction, Rate Laws for Zeroth, First, and 51:17
21 Engineered Glasses Network Formers, Network Modifiers, Intermediates; Properties of Silic 50:32
20 Amorphous Solids, Glass Formation, Inorganic Glasses Silicates 50:14
19 Defects in Crystals Point Defects, Line Defects, Interfacial Defects, Voids 49:14
18 X ray Diffraction of Crystals Diffractometry, Debye Scherrer, Laue; Crystal Symmetry 49:59
17 X ray Spectra, Bragg's Law 51:52
16 Characterization of Atomic Structure The Generation of X rays and Moseley's Law 51:21
15 Properties of Cubic Crystals Simple Cubic, Face centered Cubic, Body centered Cubic, Diam 47:07
14 Introduction to the Solid State, the 7 Crystal Systems, the 14 Bravais Lattices 45:47
13 Intrinsic and Extrinsic Semiconductors, Doping, Compound Semiconductors, Molten Semicondu 51:28
12 Metallic Bonding, Band Theory of Solids Heitler and London, Band Gaps in Metals, Semicond 50:07
11 The Shapes of Molecules, Electron Domain Theory, Secondary Bonding 50:14
10 LCAO MO, Energy Level Diagrams for H2, He2, Li2 ; Hybridization, Double Bonds and Triple 50:36
09 Electronegativity, Partial Charge, Polar Bonds and Polar Molecules; Ionic Character of Co 49:14
08 Born Haber Cycle; Octet Stability by Electron Sharing Covalent Bonding; Lewis Structures; 50:36
07 Octet Stability by Electron Transfer Ionic Bonding; Properties of Ionic Compounds Crystal 26:45
06 De Broglie, Heisenberg, and Schrödinger; The Aufbau Principle, Pauli Exclusion Principle, 50:25
05 The Shell Model Bohr Sommerfeld Model and Multi electron Atoms; Quantum Numbers n, l, m, 50:50
04 Atomic Spectra of Hydrogen, Matter Energy Interactions Involving Atomic Hydrogen 51:05
03 Rutherford Model of the Atom, Bohr Model of Hydrogen 50:14
02 Classification Schemes for the Elements; Mendeleyev and the Periodic Table; Atomic Struct 47:47
01 Vision Statement, Administrative Details; Introduction; Taxonomy of Chemical Species; Ori 43:55
01 Course Introduction 7:22