MIT RES.3-004 Visualizing Materials Science, Fall 2017
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8 learners
What you'll learn
This course includes
- 4.3 hours of video
- Certificate of completion
- Access on mobile and TV
Course content
1 modules • 27 lessons • 4.3 hours of video
MIT RES.3-004 Visualizing Materials Science, Fall 2017
27 lessons
• 4.3 hours
MIT RES.3-004 Visualizing Materials Science, Fall 2017
27 lessons
• 4.3 hours
- Student Video: Creating Mathematica Functions to Determine Degree of Crystallinity from XRD Plots 06:02
- Student Video: Thin Film Rainbows 10:55
- Student Video: Real and Reciprocal Space in 2D and 3D 07:18
- Student Video: Finding the Perfect Diamond: Why It's Impossible 05:50
- Student Video: Nanoparticle-polymer Network 12:59
- Student Video: Visualizing the Energies of Screw Dislocations 10:08
- Student Video: Quantum Time Evolution Using the Split Operator Fourier Transform Algorithm 12:28
- Studentenvideo: Quantenzeitentwicklung mit dem Fourier-Transformations-Algorithmus des Split-Ope... 12:42
- Student Video: Tight Binding Model 10:18
- Student Video: Crystallography, a Visualisation Tool for CS, BCC and FCC Bravais Lattice Structures. 12:59
- Student Video: Potential Energy Surfaces 15:38
- Video de l'estudiant: superfícies d'energia potencial 15:19
- Student Video: 2D Brillouin Zones 10:18
- Student Video: A Visualisation of Crystallographic Point Groups 09:54
- Student Video: A Basic and Fun Introduction to Crystalline Structures (English) 11:27
- Video del estudiante: Una introducción básica y divertida a las estructuras cristalinas (español) 11:22
- Student Video: Heat Transfer in a Material 12:10
- Vidéo étudiante: Transfert de chaleur dans un matériau 11:59
- Student Video: Mohr's Circles 10:25
- Student Video: Mohr’s Circle 09:04
- Student Video: Fluid Flow in Pipes and Rivers 06:21
- Student Video: Hooke's Law in Cubic Solids 06:42
- Student Video: Modeling & Energy Analysis of Liquid Crystals 07:23
- Student Video: Liquid Crystals 04:51
- Student Video: Spherical Distribution Problem 05:17
- Student Video: Simulation of Vacancy Diffusion 07:18
- Student Video: Particle in a Tube 04:33
