Graduate program: Civil Engineering
This program has been designed to build upon a student's
undergraduate background and provide additional depth and breadth
in the challenging and versatile profession of Civil Engineering.
Options of study are available in Structural/Geotechnical
Engineering. In addition to courses in engineering, technical
electives may be chosen from a variety offered in mathematics,
physics, and chemistry. Students interested in the areas of
Environmental Engineering and Water Resources should refer to the
Master of Science in Environmental Engineering Program.
Topics for thesis research could come from areas such as
structural mechanics, including finite element analysis, or
geotechnical mechanics, including soil-structure interaction, and
earthquake engineering. Study of engineering failures in
structures and/or geotechnical mechanics is also encouraged.
Part-time students from industry are encouraged to select,
with their advisory committee chairperson, job-related topics.
Department of Civil Engineering
Website
Master of Science in Civil Engineering
requirements
20 credit hours of core courses
12 credit hours of thesis work
8 credit hours of mathematics courses
8 credit hours of elective courses
3 credit hours of graduate seminar
Core Courses
CE 421 Structural Analysis II
CE 434 Advanced Structural Design in Concrete II
CE 436 Foundation Engineering
CE 531 Structural Design in Masonry
CE 535 Structural Design in Prestressed Concrete
CE 536 Advanced Soil Mechanics
CE 598 Special Topics in Failure Analysis, Geosynthetics and
Ground Modification, and Soil/Structure Interaction
Mathematics Courses
MA 330 Vector Calculus
MA 366 Functions of a Real Variable
MA 367 Function of a Complex Variable
MA 381 Introduction to Probability with Statistics
Applications
MA 383 Engineering Statistics II
MA 433 Numerical Analysis
MA 444 Deterministic Models in Operations Research
MA 445 Stochastic Models in Operations Research
MA 487 Design of Experiments
Electives (depending on concentration)
EM 505 Theory of Elasticity
ME 422 Introduction to Finite Elements Fundamentals
ME 522 Advanced Finite Element Analysis
| Civil Engineering Faculty: John Aidoo, Ph.D.,
E.I., University of South Carolina; James H. Hanson, Ph.D., P.E.,
Cornell; Robert J. Houghtalen, Ph.D., P.E., Colorado State
University; James L. McKinney, Ph.D., P.E., Purdue University;
Michael A. Robinson, Ph.D., P.E., Virginia Tech; Kevin G. Sutterer,
Ph.D., P.E., Georgia Tech; Martin J. Thomas, Ph.D., University of
Notre Dame. |