Mechanical Engineering Five-Year Accelerated Degree Bachelor and Master of Science Program

This concentrated program prepares students for constantly evolving needs for innovation in engineering design and development, across all technological and economic sectors. Graduates of the program will be awarded a BS and an MS in Mechanical Engineering. Students follow the standard undergraduate curriculum for the first three years, and then complete the BS degree requirements during their fourth year while taking graduate courses. During the fifth year the students take an additional eight courses to complete their MS degree. Graduates of the program will have mastered the knowledge and tools they need to create the next generation of Mechanical Engineering solutions to technological and societal problems.

The accelerated five‑year program provides a streamlined pathway for qualified students to complete both a bachelor’s degree and a Master of Science (MS) degree. In order to enroll in this program, students must apply and be formally admitted into it. Students typically apply at the end of the third year of undergraduate study. During the first three years, students follow the standard undergraduate curriculum. In the fourth year, students complete all remaining baccalaureate degree requirements and may enroll in up to two graduate‑level courses. Up to six graduate credits taken in the fourth year may be applied to both the bachelor’s and master’s degree requirements for this specifically designed program in the School of Engineering and Computing.

Upon conferral of the bachelor’s degree, students must enroll in the graduate program in the immediately subsequent academic semester (Fall or Spring). Students completing the undergraduate degree in May must enroll in the following Fall term; students completing the degree in January must enroll in the following Spring term. An approved official leave of absence is the only exception to this continuous enrollment requirement.

To complete the MS degree in this accelerated program, students must complete a total of ten graduate‑level courses, including the two courses taken during the undergraduate program, followed by eight additional graduate courses during the fifth year. Students who do not continue directly into the graduate program as articulated above and who do not receive an approved leave of absence will be removed from the accelerated program and enrolled into the regular MS degree. In these cases, students must complete ten unique graduate‑level courses (30 unique credits) to earn the MS degree; in such cases, graduate courses taken during the undergraduate program will remain on the undergraduate transcript only and may not be applied toward the master’s degree requirements. For this reason, students who cannot remain continuously enrolled in the accelerated program are encouraged to speak with their Dean’s Office to discuss the ramifications for doing so.

Students accepted in this program are expected to have an overall GPA of 3.00 or higher and receive approval of the faculty advisor.  Students will be awarded the BS in Mechanical Engineering when all requirements are met, usually at the end of the fourth year. The MS degree will be awarded when all graduate requirements of the combined degree curricula have been satisfied, usually at the end of the fifth year.

Accelerated Degree Curriculum

Students must develop of a plan of study for the MS portion of the degree with approval of their academic advisor, including the following:

Requirements for BS in Mechanical Engineering 1134
MEEG 5415Engineering Applications of Numerical Methods3
Select 7 additional graduate-level electives in Mechanical Engineering21
Total Credits158
1

Requirements are the same as those listed for the BS, except that students may select up to two graduate-level electives to fulfill the major elective requirement.

A minimum of 30 credits must be completed at the graduate level.

Mechanical Engineering Electives

Possible electives may include:

Thermal Systems Electives
MEEG 5323Thermal Management of Microdevices3
MEEG 5346Energy Conversion3
MEEG 5353Computational Fluid Dynamics3
MEEG 5354Heat and Mass Transfer3
MEEG 5362Gas Turbine Aerodynamics3
MEEG 5356Renewable Wind Energy3
MEEG 5364Combustion3
Mechanical Systems Electives
ENGR 5308Autonomous Mobile Robots3
MEEG 5301Feedback and Control Systems3
MEEG 5303Industrial Automation3
MEEG 5305Design of Mechatronics Systems3
MEEG 5312Advanced Product Design and Manufacturing3
MEEG 5319Applications of Finite Element Analysis3
MEEG 5321Theory and Applications of Robot Kinematics3
MEEG 5322Advanced Dynamics3
MEEG 5324Micro and Nano Manufacturing3
MEEG 5327Fracture Mechanics3
MEEG 5330Mechanics of Composite Materials3
MEEG 5372Applications of Theory of Elasticity3
MEEG 5376Stability of Structures3