Courses:

Fundamentals of Materials Science >> Content Detail



Lecture Notes



Lecture Notes

This section contains documents created from scanned original files and other documents that could not be made accessible to screen reader software. A "#" symbol is used to denote such documents.

Each class lecture includes structure and bonding content and thermodynamics content.

Instructor for Structure and Bonding: Prof. Nicola Marzari
Instructor for Thermodynamics: Prof. Darrell Irvine

For most lectures, slides are presented below in two versions: the original slides, and annotated slides with in-class markup by the instructors.


Structure and Bonding                          Thermodynamics
Ses #TopicsAnnotated SlidesTopicsAnnotated Slides
Orientation: Research and Careers in Materials Science and Engineering (PDF - 2.6 MB) (Courtesy of Prof. Caroline Ross. Used with permission.)
L1Classical or Quantum: Electrons as Waves, Wave Mechanics (PDF 1) (PDF 2)(PDF 1)

(PDF 2)
Fundamental Concepts (PDF - 3.2 MB)(PDF - 1.5 MB)#
L2Schrödinger's Equation and Discrete Energy States of a Confined Electron (PDF)(PDF)Fundamental Concepts (cont.) (PDF)(PDF - 2.6 MB)#
L3Free Electrons, Electrons in a Metal, and the Scanning Tunneling Microscope (PDF)(PDF)First Law of Thermodynamics (PDF)(PDF - 2.2 MB)#
L4Curiosity Killed the Cat: General Principles of Quantum Mechanics (PDF)(PDF - 1.0 MB)Temperature, Heat, and Entropy (PDF - 1.2 MB)(PDF - 1.0 MB)#
L5The Hydrogen Atom (PDF)(PDF)Heat Storage and Release in Phase Transitions (PDF - 1.1 MB)(PDF - 2.1 MB)#
L6The Hydrogen Atom (cont.) (PDF)(PDF)Examples of Work Important in Materials Science and Engineering: Polarization, Magnetic, Chemical (PDF)(PDF)#
L7Alphabet Soup: The Periodic Table (PDF)(PDF)Thermal Properties of Materials; Fundamental Equations (PDF - 3.9 MB)(PDF - 1.9 MB)#
L8The Periodic Table (cont.) (PDF)(PDF)Fundamental Equations (cont.); Equilibrium and the Second Law (PDF)(PDF)#
L9The Variational Principle; Application to Hydrogen Atom (PDF)(PDF)Free Energy; Applying the Second Law in Laboratory Conditions (PDF - 1.7 MB)(PDF)#
L10Molecules from Atoms: Energy Minimization, Hybridization of Atomic Orbitals (PDF)(PDF)Chemical Potentials and the Gibbs Free Energy (PDF - 1.1 MB)(PDF - 2.4 MB)#
L11Bonding in Molecules: Hartree and Hartree-Fock Equations, Symmetries, Bond Order (PDF)(PDF)Models of the Chemical Potential (PDF)(PDF - 1.2 MB)#
L12Polymers Part 1: Diagonalization on a Basis, Huckel Model (PDF)Chemical Reaction Equilibria (PDF)(PDF)#
L13Quantum Oscillation (PDF)Electrochemical Equilibria (PDF)(PDF - 3.4 MB)#
L14Point Groups and Bravais Lattices (PDF - 1.8 MB)Batteries; Thermodynamic Stability (PDF)#(PDF - 2.8 MB)#
L15Symmetry Operations (PDF)Phase Changes and Phase Diagrams of Single-Component Materials (PDF - 1.8 MB)(PDF - 9.0 MB)#
L16Structure of Solids (PDF - 1.8 MB)(PDF - 1.9 MB)Single-Component Phase Diagrams (cont.); Thermodynamics of Solutions (PDF - 2.7 MB)(PDF - 1.9 MB)#
L17X-ray Diffraction (PDF - 1.4 MB)(PDF - 1.5 MB)Free Energy of Multi-phase Solutions at Equilibrium (PDF - 1.1 MB)(PDF - 2.3 MB)#
L18X-rays at Work: Laue Condition, Ewald Construction, Bragg's Law, Powder Diffraction (PDF - 1.7 MB)(PDF - 2.0 MB)Binary Phase Diagrams: Miscibility Gaps and Eutectics (PDF - 1.9 MB)(PDF - 1.8 MB)#
L19From Diffraction to Structure (PDF - 1.1 MB)(PDF - 1.2 MB)Binary Phase Diagrams (cont.) (PDF)(PDF)#
L20Symmetries and Tensors (PDF)(PDF)Spinodals and Binodals; Continuous Phase Transitions; Introduction to Statistical Mechanics (PDF)(PDF - 2.5 MB)#
L21Non-crystalline Materials (PDF - 2.3 MB)(PDF - 1.9 MB)Connecting Events at the Atomic/Molecular Level to Macroscopic Thermodynamic Behavior: Two Postulates of Statistical Mechanics; Microscopic Definition of Entropy (PDF)(PDF - 1.2 MB)#
L22Polymers Part 2 (PDF)(PDF)Connecting Events at the Atomic/Molecular Level to Macroscopic Thermodynamic Behavior (cont.): The Boltzman Factor and Partition Function; Thermal Behavior of the Einstein Solid (PDF)(PDF - 2.0 MB)#
L23Glasses (PDF - 2.3 MB)#(PDF - 1.2 MB)Lattice Models of Materials; Modeling Polymer Solutions (PDF - 4.1 MB)(PDF - 3.4 MB)#
L24Liquid Crystals (PDF - 9.3 MB)(PDF - 9.4 MB)Flory-Huggins Theory (PDF - 1.5 MB)(PDF - 2.6 MB)

 








© 2017 Coursepedia.com, by Higher Ed Media LLC. All Rights Reserved.