Mechanical Engineering Major, B.S.

Course Title Credits
General Requirements
General Education26
Required Courses 1
MATH 2640Calculus and Analytic Geometry I4
MATH 2740Calculus and Analytic Geometry II4
MATH 2840Calculus and Analytic Geometry III4
MATH 3630Differential Equations I3
MATH 4030Statistical Methods with Applications3
CHEMSTRY 1450Chemistry for Engineers5
PHYSICS 2240General Physics I4
PHYSICS 2340General Physics II4
GENENG 1030Introduction to Engineering Projects1
GENENG 2030Engineering Modeling and Design3
GENENG 2820Engineering Economy2
GENENG 2130Engineering Mechanics-Statics3
GENENG 2230Engineering Mechanics-Dynamics3
GENENG 2340Mechanics of Materials4
Choose one of the following:3-7
Applications of Electrical Engineering
Circuit Modeling I
and Circuit Modeling II
Professional Engineering Courses 1, 2
MECHENG 2630Thermodynamics3
MECHENG 3030Mechanical Vibrations3
MECHENG 3040Engineering Materials3
MECHENG 3230Manufacturing Processes3
MECHENG 3300Fluid Dynamics3
MECHENG 3330Design of Machine Elements3
MECHENG 3430Introduction to Computational Methods3
MECHENG 3640Heat Transfer3
MECHENG 3720Measurements and Instrumentation Laboratory3
or BME 3230 Introduction to Medical Instrumentation
MECHENG 3830Mechanisms and Machines3
MECHENG 4330Automatic Controls3
MECHENG 4720Thermal Systems Laboratory2
MECHENG 4730Thermo-Fluid Systems Design3
MECHENG 4930Senior Design Project (o)3
or GENENG 4930 Interdisciplinary Senior Design
Technical Electives 1
Select 6 credits of the following:6
Structural Steel Design with LRFD 3
Wind and Solar Systems Design
Linear Algebra 3
Applied Statistics 3
Design, Fabrication, and Simulation of MEMS
Biomechanics
Biofluidics
Biomaterials
Engineering Management
Quality Engineering
Engineering Continuous Improvement
Design & Control of Manufacturing Systems
Noise Control
Advanced Materials
Failure of Materials
Composite Materials
Biomedical Engineering
Power Plant Design
Heat Transfer Applications
Computational Fluid Dynamics
Energy Systems Design
Internal Combustion Engine Design
Mechanical Design of Internal Combustion Engines
Environmental Control Design
Mechanical Systems Design
Computational Methods in Engineering
Finite Element Method
Advanced Manufacturing Processes
Mechatronics
Advanced Vibrations
Computer-Aided Engineering
Current Topics in Engineering
Engineering Communications 3
Practical Experience
Select one additional course from the following or one additional Mechanical Engineering Technical Elective course listed above:1-3
Mechanical Engineering Cooperative Education
Mechanical Engineering Internship
Undergraduate Research
Technical Elective Course
Total Credits124-130
1

All courses required by the Mechanical Engineering B.S. offered by the College of EMS in the 1000, 2000, and 3000-level must be completed with a grade of “C-” or better

2

(minimum 2.0 G.P.A. required)

3

This course is intended for Accelerated Bachelor's to Master's students only