Describes the regions of a liquid-solid, T-x phase diagram for a system composed of Mg and Si.

1. Atomic Bonding
2. Packing Factor for a Body-Centered Cubic Structure
3. Calculate Metal Density
4. Radius of a Metal Atom and Metal Density
5. Crystal Plane Miller Indices
6. (111) Planes in FCC Metal
7. Directions in Crystals
8. Direction in a HCP Unit Cell
9. XRD Peak Analysis
10. Crystal Systems and Ceramic Structures
11. Tetrahedral and Octahedral Sites
12. Linear and Planar Densities
13. Miller-Bravais Indices: Hexagonal Structure
14. Hume-Rothery Rules
15. Point Defects in Ceramics
16. Vacancies in Metals
17. Diffusion into a Solid
18. Stress-Strain Diagrams
19. Engineering Stress and Strain
20. Elastic Properties of Metals
21. Electrical Conductivity
22. Polymer Molecular Weight
23. Step-Growth Polymerization
24. Addition Polymerization
25. Pressure-Temperature Diagram
26. Solid-Liquid Phase Diagrams
27. Solid-Liquid Phase Diagram for Miscible Metals
28. Cooling Curves for a Liquid-Solid System
29. Lever Rule for Solid-Liquid Phase Diagram
30. Non-Equilibrium Microstructures
31. Phase Diagram with Peritectic Reaction
32. Gibbs Phase Rule for Material Science
33. Dislocations and Plastic Deformation
34. Recrystallization
35. Hydrogen Diffusion Through Palladium
36. Rock Salt Structure
37. Unit Cell Length for Iron Oxide
38. Solid-Liquid Phase Diagram
39. Txy Phase Diagrams for VLLE Tutorial

LearnChemE features faculty prepared engineering education resources for students and instructors produced by the Department of Chemical and Biological Engineering at the University of Colorado Boulder and funded by the National Science Foundation, Shell, and the Engineering Excellence Fund. In this course, LearnChemE covers topics such as Metal Density, Crystal Systems and Ceramic Structures, Stress-Strain Diagrams, Addition Polymerization, and much more.