🔏
brainless
  • What is this?
  • Responsibility
  • Changelog
  • meta
    • Sharing
      • Inspirations
      • Workflows
      • Social Media
    • Geography
      • Life
      • Death
        • Family Death
    • Research
      • Project Index
      • 3D Printing
      • Photogrammetry
      • Drone Building
    • External Websites
    • [unreleased]
      • [Template]
      • [TEMP] CL V0.0.5 or whatever
      • Skincare
      • Travel
      • Working and Staying Busy
      • Stride
      • Funeral Playlist
      • Notes and Ideas
      • Boredom
      • Four Noble Truths of "Thermo"
      • Respect
      • Work
  • STE[A]M
    • [guide]
    • Science
      • Materials Modeling
        • Syllabus Description
        • Lecture Slides
        • Student Notes
        • Assignments
          • index
          • Carbon Nanotubes
    • Technology
      • Computer Science
        • Commands
      • Photogrammetry
      • Quantum Computing
      • Computers
      • Programs
        • Matlab and Octave
        • Audacity
        • Google Chrome
          • Websites
            • Google Suite Sites
            • Github
              • Version Control
            • Product Hunt
            • Twitter
            • Youtube
              • Channels
            • Vimeo
          • Extensions
            • Dark Reader
            • Vimium
        • [miscellaneous]
          • Octave
          • PureRef
          • git
          • gnu stow
          • mermaid.js
        • Excel
        • Blender
        • LaTeX
        • Sublime: Text Editor
        • Spotify
        • VLC Media Player
      • Android and iOS
      • Operating Systems
        • macOS
          • mackup
        • Unix
          • folder structure
        • Windows
          • App Installation
          • Meshroom
          • Corsair Utility Engine
      • 3D Printing
    • Engineering
      • Accreditation
        • Fundamentals of Engineering
        • Professional Engineering
      • Continuum Mechanics
        • Fluid Mechanics
          • Incompressible Flow
            • corona final
            • indexhw4
            • indexhw3
            • index
            • hw2
            • hw1
          • Syllabus Description
          • Lecture Slides
          • Student Notes
            • Dynamic or Kinematic Viscosity
          • Assignments
            • Homeworks
              • Homework 1
              • Homework 2
              • Homework 3
              • Homework 4
              • Homework 5
            • Vortex Project
        • Solid Mechanics
          • Syllabus Description
          • Lecture Slides
          • Student Notes
          • Assignments
        • Incompresible Flow
          • Syllabus Description
          • Lecture Slides
          • Student Notes
          • Assignments
      • Experimental Mechanics
        • Syllabus Description
        • Lecture Slides
        • Student Notes
        • Assignments
      • Finite Element Methods
        • Intro to Finite Elements
          • Syllabus Description
          • Lecture Slides
          • Student Notes
          • Assignments
        • Fundamentals of FEM
          • Syllabus Description
            • index
          • Lecture Slides
          • Student Notes
          • Assignments
            • Project
              • index
              • Untitled
            • Homework 1
            • Homework 4
            • index
      • Heat Transfer
        • Syllabus Description
        • Lecture Slides
        • Student Notes
        • Assignments
          • homework
            • hw10
            • q9
            • q8
            • q7
            • hw7
            • hw6
            • q5
            • q3
            • 1 ec
          • Discussions
            • d11
            • d10
            • d9
            • d8
            • d6
            • d4
            • d3
          • Project Notes
      • Machine Dynamics
        • Syllabus Description
        • Lecture Slides
        • Student Notes
        • Assignments
    • Art
      • Color Theory
      • Origami
        • FolderMath
          • Surveying Origami Math
          • Represent a Folded Object
          • Creating a Crease Pattern
          • Making the Folds
          • Simulating Folding Origami
          • List of Resources
            • Codes
            • Papers, Programs, and Inspirations
    • Mathematics
      • Complex Numbers
        • What is i^i?
      • Analytic Hierarchy Process
      • Probability
      • Conway's Game of Life
      • Metallic Numbers
      • Cauchy's Formula for Repeated Integration
      • Wavelet Transform
      • Laplace Tidal Equation
      • Alternating Summation of Ones
      • Constants
      • Bad Maths
      • Calculus
        • Syllabus Description
        • Miscellaneous
  • Thoughts
    • Marksmanship
      • Archery
    • Schooling
    • ...and Ideas?
      • Perceived Time and Learning
      • Content Comprehension
    • Comics and Games
      • Rubik's Cube
      • Dungeons and Dragons
      • Beyond-All-Reason
      • Sekiro: Shadows Die Twice
      • Super Smash Bros
        • Project M
        • Project +
      • League of Legends
      • Satisfactory
    • Literature and Art
      • Books
      • Reading is Hard
      • Various Words and Phrases
      • Poems
      • Interviews
      • Quotes
        • Phrases
      • Jokes
      • ASCII Art
    • Shows and Films
      • Cowboy Bebop
      • My Hero Academia
      • Sword of the Stranger
    • Working and Life Balance
  • Projects
Powered by GitBook
On this page
  • MTLE 6500 - Modeling of Materials
  • Summary from the Course Catalog Description
  1. STE[A]M
  2. Science
  3. Materials Modeling

Syllabus Description

PreviousMaterials ModelingNextLecture Slides

Last updated 4 years ago

Taught by Prof. Liping Huang in the spring of 2020. Following are collected handouts

content

content 4

content 5

Summary from the

This course introduces basic concepts used in the modeling of material properties. The course will include quantum mechanics, molecular dynamics, Monte Carlo and continuum level analysis, and multiscale methods as applied to the modeling of soft and hard matter. The methods are introduced in a computer laboratory environment. Open to graduates and qualified undergraduates. Prerequisites/Corequisites: Undergraduates must have junior standing or permission of the instructor. When Offered: Fall term odd-numbered years. Credit Hours: 3

MTLE 6500 - Modeling of Materials
Course Catalog Description
594KB
mane.6520.admin.syllabus.pdf
pdf
Fluids Syllabus