MSE585 F20 Lecture 10 Module 4 - Bragg's Law
MSE585 F20 Lecture 10 Module 1 - Generation of X-rays
MSE585 F20 Lecture 20 Module 4 - TEM Selected-Area Diffraction
MSE585 F20 Lecture 8 Module 2 - Pure Rotations
MSE585 F20 Lecture 11 Module 4 - Diffraction Intensity
MSE 585 F20 Lecture 19 Module 4 - Comparing TEM to Other Microscopes
MSE585 F20 Lecture 8 Module 3 - Pure Reflections & Inversions
MSE585 F20 Lecture 7 Module 4 - Example Problems of Points, Directions and Planes
MSE585 F20 Lecture 9 Module 4 - Reciprocal Lattices Part 2
MSE585 F20 Lecture 8 Module 1 - Crystal Symmetry
MSE585 F20 Lecture 20 Module 1- Contrast in TEM
MSE585 F20 Lecture 10 Module 2 - Characteristic X-rays
MSE585 F20 Lecture 10 Module 3 - X-ray Absorption
MSE585 F20 Lecture 13 Module 4 - XRD Distortions: Peak Broadening
Lecture 10 Phase Contrast
MSE585 F20 Lecture 19 Module 2 - Specialized SEM
MSE585 F20 Lecture 9 Module 6 - Reciprocal Lattices Part 4
MSE585 F20 Lecture 20 Module 3 - Phase-Contrast or HRTEM
MSE585 F20 Lecture 8 Module 4 - Roto-inversions
Calculating Mineral Components 4: convert olivine formula to weight %
