Mechanical Engineering

The Master of Science in Mechanical Engineering is a 30-credit program. This popular master's degree program is designed for those interested in increasing their skill base and advancing their career. Coursework covers areas such as energy and power systems, fluids and heat transfer, product design, modeling and simulation, materials, and manufacturing.

The degree program has two options: A course-based path which requires completion of 10 graduate-level courses or a project-based path which requires completion of 8 courses and a design project. The design project allows students to deeply explore an industrially relevant technical problem in collaboration with our faculty and the student's company. The student gains from the experience with industry while deepening their understanding of advanced engineering concepts.

Why choose a master's program in Mechanical Engineering?

  • Prepares you to succeed in a wide variety of industries. The UST master’s program in Mechanical Engineering prepares you to succeed in a wide variety of industries including biomedical, manufacturing, product design, mechanical design, aerospace, HVAC, controls, simulation and computer-aided design, mechatronics, robotics, electrical design, power generation and distribution, and materials selection. 

  • Qualified faculty with extensive industrial experience. Our full-time and practicing faculty members have decades of industrial experience in aerospace, biomedicine, controls, power systems, manufacturing, energy production, and more. Our instructors bring both academic credentials and industry experience to the classroom. These executives, managers and engineers share a passion for teaching and improving the industrial welfare of our nation. They emphasize hands-on learning, promote interaction among students and encourage the free exchange of ideas. 

  • Industry-based curriculum that addresses real workplace issues. Our program is industry-based and applied. We expect you'll bring your work experiences to class and apply what you learn on the job. We want you to use your assignments and research projects to address real workplace issues.

  • A flexible night and weekend class schedule tailored to working adults. Our program serves working professionals with already busy lives. You can set your own pace of study and start any time of the year. Join now to increase and diversify your engineering skills.

Entrance Requirements

  • A bachelor's degree in any discipline from a regionally-accredited educational institution in the U.S. (or international equivalent).  

  • An overall grade-point-average (GPA) of at least 3.0 out of 4.0. (Applicants with a GPA less than 3.0 will be considered for provisional admission with their professional experience factored into the decision.  Please note: Applicants with a GPA less than 3.0 may be asked to provide a GMAT or GRE score.)

Degree Requirements

To complete the requirements for the Master of Science in Mechanical Engineering, students must successfully complete 30 graduate semester credits and maintain a GPA of at least 2.7.

The MS in Mechanical Engineering program has two options:  A course-based path requires completion of 10 graduate-level courses [30 credits] or  a project-based approach requires completion of 8 graduate-level courses [24 credits] and an Engineering Design Project [6 credits].

Required Courses and Electives

REQUIRED COURSES [6 courses = 18 credits]: Select one course from each of the following six topic areas.

Electrical and Power Systems [1 course = 3 credits] 
Select one course:

  • ETLS 744 Intro to Power Systems
  • ETLS 746 Power Electronics
  • ETLS 748 Renewable Energy Generation

Advanced Thermal & Fluid Systems [1 course = 3 credits] 
Select one course:

  • ETLS 591 Advanced Thermal Systems (required)
  • ETLS 741 Heat Transfer and Fluid Flow -- does not satisfy requirement; it is a prerequisite for ETLS 591 and may count as an elective if taken

Materials & Mechanics [1 course = 3 credits]
Select one course:

  • ETLS 723 Biomaterials in the Design of Medical Devices
  • ETLS 771 Materials Engineering
  • ETLS 775 Polymers in Design 

Manufacturing [1 course = 3 credits]
Select one course:

  • ETLS 501 Production Operating Systems
  • ETLS 502 Manufacturing Processes
  • ETLS 506 Statistical Methods for Manufacturing Quality
  • ETLS 520 Design & Manufacturing in Medical Device Industry

Design & Product Development [1 course = 3 credits]
Select one course:

  • ETLS 555 Advanced Product Design
  • ETLS 603 Design to Production Transition
  • ETLS 777 Finite Element Analysis

Mechanical Systems [1 course = 3 credits]
Select one course:

  • ETLS 774 Introduction to Mechatronics
  • ETLS 777 Finite Element Analysis
  • ETLS 789 Simulation & Visualization of Dynamic Systems
  • ETLS 810 Advanced Controls


ELECTIVE COURSES [4 courses = 12 credits]: You may either choose to do a design project or waive this option. Any electives chosen must be pre-approved by a program advisor.

 If you choose to do an Engineering Design Project, you will need to complete both sections (6 credits) of ETLS 881 and two additional elective courses:

  • 2 Electives (6 credits) AND
  • ETLS 881 Engineering Project (2 sections required = 6 credits) 

If you do NOT choose to do an Engineering Design Project, please select four (4) elective courses (12 credits) instead.

  • Electives may be selected from the Required Courses listed above or from other master's programs at UST; e.g. Graduate Programs in Software (SEIS courses).

Course Sequence

Please meet with your advisor for this program, Dr. John Abraham, early in your program to determine the best class sequence, as some classes are only offered bi-annually.

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