MEEG 2303 - INTRODUCTION TO MATERIALS
This course introduces students to the internal structure and basic properties of engineering materials, including metals, ceramics, and polymers.  Connections between material microstructure at difference length scales and mechanical strength, ductility, and fracture resistance are emphasized. 

Text: Essentials of the Science and Engineering of Materials, 3rd Ed. (Askeland and Wright), 2013
Previous Semesters
  • Fall 2014 :: Syllabus :: Average evaluation: 4.6/5.0
  • Spr 2014 :: Syllabus :: Average evaluation: 4.7/5.0
  • Fall 2013 :: Syllabus :: Average evaluation: 4.8/5.0
COMPUTATIONAL MATERIALS SCIENCE
MILLETT RESEARCH GROUP

MEEG 2303 - INTRODUCTION TO MATERIALS
This course introduces students to the internal structure and basic properties of engineering materials, including metals, ceramics, and polymers.  Connections between material microstructure at difference length scales and mechanical strength, ductility, and fracture resistance are emphasized. 

Text: Essentials of the Science and Engineering of Materials, 3rd Ed. (Askeland and Wright), 2013
Previous Semesters
  • Fall 2014 :: Syllabus :: Average evaluation: 4.6/5.0
  • Spr 2014 :: Syllabus :: Average evaluation: 4.7/5.0
  • Fall 2013 :: Syllabus :: Average evaluation: 4.8/5.0
MEEG 2303 - INTRODUCTION TO MATERIALS
This course introduces students to the internal structure and basic properties of engineering materials, including metals, ceramics, and polymers.  Connections between material microstructure at difference length scales and mechanical strength, ductility, and fracture resistance are emphasized. 

Text: Essentials of the Science and Engineering of Materials, 3rd Ed. (Askeland and Wright), 2013
Previous Semesters
  • Fall 2015 :: Syllabus :: Average evaluation: 4.7/5.0
  • Fall 2014 :: Syllabus :: Average evaluation: 4.6/5.0
  • Spr 2014 :: Syllabus :: Average evaluation: 4.7/5.0
  • Fall 2013 :: Syllabus :: Average evaluation: 4.8/5.0
This course introduces students to the internal structure and basic properties of engineering materials, including metals, ceramics, and polymers.  Connections between material microstructure at difference length scales and mechanical strength, ductility, and fracture resistance are emphasized. 

Text: Essentials of the Science and Engineering of Materials, 3rd Ed. (Askeland and Wright), 2013
Previous Semesters
This course introduces students to the internal structure and basic properties of engineering materials, including metals, ceramics, and polymers.  Connections between material microstructure at difference length scales and mechanical strength, ductility, and fracture resistance are emphasized. 

Text: Essentials of the Science and Engineering of Materials, 3rd Ed. (Askeland and Wright), 2013
Previous Semesters
MEEG 2703 - COMPUTER METHODS IN MECHANICAL ENGINEERING
This course introduces students to numerical methods formulated to solve engineering problems.  Topics include solving non-linear equations, matrix methods, optimization, curve-fitting, integration and differential equations.  Emphasis is placed on specific algorithms and MATLAB/EXCEL programming.

Text: Numerical Methods for Engineers, 7th Ed. (Chapra and Canale), 2015
Previous Semesters
  • Spr 2015 :: Syllabus :: Average evaluation: 4.5/5.0
   





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