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Faculty:
Thomas M. Adams, Ph.D., Georgia
Institute of Technology; Patricia
A. Brackin, Ph.D., Georgia
Institute of Technology; Bradley
T. Burchett, Ph.D., Oregon State
University; Zachariah Chambers,
Ph.D., University of Tennessee;
Phillip J. Cornwell, Ph.D.,
Princeton University; Patrick J.
Cunningham, Ph.D., Purdue
University; Jerry M. Fine, Ph.D., University
of Texas; David Fisher, Ph.D.,
Stanford; J. Darrell Gibson,
Ph.D., University of New Mexico;
Frederick Haan; Ph.D.,
University of Notre Dame; Richard A. Layton, Ph.D.,
University of Washington; Calvin Lui, Ph.D., Stanford; James E.
Mayhew, Ph.D., University of
California, Davis; Andrew R.
Mech, Ph.D., University of
Illinois; Michael S. Moorhead,
Ph.D., Cornell University; Sean
Moseley, Ph.D., The University
of California, Berkeley; Lorraine Olson,
Ph.D., Massachusetts Institute
of Technology; Richard M.
Onyancha, Ph.D., University of
New Hampshire; David J. Purdy,
Ph.D., Purdue University; Donald
E. Richards, Ph.D., Ohio State
University; L. Wayne Sanders,
Ph.D., Southern Methodist
University; Richard E. Stamper,
Ph.D., University of Maryland;
David Stienstra, Ph.D., Texas
A&M University; Kathleen
Toohey, Ph.D., University of
Illinois, Urbana-Champaign; Allen R. White,
Ph.D., Ohio State University.
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 Mechanical
Engineering.
Options of study are
available in Power/Energy,
Applied Mechanics, and Design.
In addition to courses in
engineering, technical electives
may be chosen from a variety
offered in mathematics, physics,
and chemistry.
Topics for thesis research
could come from areas such as
solar and wind energy, heat
transfer, corrosion,
thermodynamics, IC engines,
robotics, experimental stress
analysis, finite element
analysis, noise and vibration
control, aerodynamics, design
optimization, analytical
mechanics. Part-time students
from industry are encouraged to
select, with their advisory
committee chair, job-related
topics.
Master of Science In
Mechanical Engineering
The following three options
are recommended by the
Department of Mechanical
Engineering for qualified
students pursuing the M.S.
degree in Mechanical
Engineering. Each option is
selected to build upon a basic
undergraduate background and to
provide additional depth in that
general area and requires 36
hours of formal course work plus
12 hours of credit for thesis,
plus 3 hours of credit for
graduate seminar courses. Only
12 hours of credit of below 500
level courses may be used in any
plan of study (math courses
excluded). Other plans of study
may be selected subject to
approval by the student's
Advisory Committee and the
Department chair. Suggested
courses for the three options
are listed below.
Power/Energy Option
CH 450 Air Pollution
Control
EM 501 Topics in Fluid
Mechanics
ME 402 Advanced Heat
Transfer
ME 407 Power Plants
ME 408 Renewable Energy
ME 426 Turbomachinery
ME 427 Introduction to
Computational Fluid Dynamics
and Heat Transfer
ME 501 Advanced
Thermodynamics
ME 502 Topics in Heat
Transfer
ME 503 Viscous Fluid Flow
ME 510 Gas Dynamics
Plus approved Math electives
Plus approved technical
electives from Engineering
or Physics
Applied Mechanics Option
EM 403 Advanced Mechanics
of Materials
EM 502 Advanced Dynamics
EM 503 Advanced Vibration
Analysis
EM 505 Theory of Elasticity
ME 422 Finite Element
Fundamentals
ME 506 Advanced Control
Systems
ME 512 Lightweight
Structural Analysis
ME 522 Advanced Finite
Element Analysis
Plus approved Math electives
Plus approved technical
electives from Engineering
or Physics
Design Option
EM 503 Advanced Vibration
Analysis
ME 422 Finite Element
Fundamentals
ME 506 Advanced Control
Systems
ME 513 Environmental Noise
ME 518 Advanced Kinematics
ME 520 CAD/CAM
ME 522 Advanced Finite
Element Analysis
Plus approved Math electives
Plus approved technical
electives from Engineering
or Physics
Recommended Math Electives
MA 330 Vector Calculus
MA 366 Functions of a Real
Variable
MA 367 Functions of a
Complex Variable
MA 383 Engineering
Statistics II
MA 385 Quality Methods
MA 431 Calculus of
Variations
MA 433 Numerical Analysis
MA 434 Topics in Numerical
Analysis
MA 436 Introduction to
Partial Differential
Equations
MA 444 Deterministic Models
in Operations Research
MA 445 Stochastic Models in
Operations Research
MA 471 Linear Algebra II
MA 485 Applied Regression
Analysis & Introduction to
Time Series
MA 487 Design of Experiments
MA 580 Topics in Advanced
Probability Theory and
Applications
MA 590 Topics in Mathematics
Recommended Physics
Electives
PH 401 Intro. to Quantum
Mechanics
PH 402 Intro. to Atomic
Physics
PH 404, 530 Acoustics,
Advanced Acoustics
PH 405/505 Semiconductor
Materials and Devices I
PH 406/506 Semiconductor
Materials and Devices II
PH 407 Solid State Physics
PH 408/508 Microsensors
PH 425 Adv. Physics
Laboratory III
PH 440 X-Rays and
Crystalline Materials
PH 470 Special Topics in
Physics
PH 512 Methods of
Mathematical Physics
PH 514 Quantum Mechanics
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