Degree Requirements
The program is a 30-credit degree program. Students are required to complete:
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2 core courses (6 credits)
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at least 4 courses (12 credits) from any one of the seven concentrations below
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4 courses (12 credits) of electives including:
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no more than 2 non-ME graduate courses
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Optional: substitute a project (ME 800 Special Problems in Mechanical Engineering, three credits) or a master’s thesis (ME 900 Thesis in Mechanical Engineering, 6 credits) for the appropriate number of courses.
Students in the program will be introduced to research methodology and ethics through thesis, project, or respective courses. A student must obtain a minimum of “B” average in the major field, as well as an overall average of “B” in all the courses needed to meet the 30-credit requirement for the degree. In addition, no more than four 500 level graduate courses can be taken to satisfy the credit requirement for the degree.
Core Courses
| ME 635 | Modeling and Simulation | 3 |
| ME 641 | Engineering Analysis I | 3 |
Concentration Courses
Students are required to select at least four courses from any one of the seven concentrations:
Product Design
| ME 520 | Analysis and Design of Composites | 3 |
| ME 615 | Thermal Systems Design | 3 |
| ME 658 | Advanced Mechanics of Solids | 3 |
| ME 659 | Advanced Structural Design | 3 |
| ME 663 | Finite-Element Methods | 3 |
| ME 665 | Advanced Product Development | 3 |
Manufacturing
| ME 565 | Introduction to Additive Manufacturing | 3 |
| ME 566 | Design for Manufacturability | 3 |
| ME 644 | Computer-Integrated Design and Manufacturing | 3 |
| ME 645 | Design of Production Systems | 3 |
| ME 652 | Advanced Additive Manufacturing | 3 |
| ME 653 | Design for Additive Manufacturing | 3 |
Thermal, Fluids, Energy Requirements
| ME 510 | Power Plant Engineering | 3 |
| ME 601 | Engineering Thermodynamics | 3 |
| ME 604 | Advanced Heat Transfer | 3 |
| ME 615 | Thermal Systems Design | 3 |
| ME 674 | Fluid Dynamics | 3 |
| ME 675 | Computational Fluid Dynamics and Heat Transfer | 3 |
| ME 679 | Mechanics of Compressible Fluids | 3 |
Robotics and Control
Students are required to take the following two courses for the concentration:
| ME 598 | Introduction to Robotics | 3 |
| ME 621 | Introduction to Modern Control Engineering | 3 |
And select two additional courses from the list below:
| ME 655 | Wearable Robotics and Sensors | 3 |
| ME 656 | Autonomous Navigation for Mobile Robots | 3 |
| ME 650 | Robot Manipulators | 3 |
Below are suggested elective courses for students who pursue the Robotics & Control concentration.
| ME 622 | Optimal Control and Estimation of Dynamical Systems | 3 |
| ME 631 | Mechanical Vibrations I | 3 |
| ME 651 | Analytic Dynamics | 3 |
| ME 685 | Mobile Microrobotic Systems | 3 |
Micro/Nano Systems
| ME 573 | Introduction to Microelectromechanical Systems | 3 |
| ME 581 | Introduction to Bio Micro Electro Mechanical Systems (BioMEMS) | 3 |
| ME 680 | Fundamentals of Micro & Nano Fluidics | 3 |
| ME 681 | Applications of Advanced Micro/Nano Materials, Structures and Devices | 3 |
| ME 685 | Mobile Microrobotic Systems | 3 |
| NANO 525 | Techniques of Surface and Nanostructure Characterization | 3 |
| NANO 600 | Introduction to Nanoscale Science and Technology | 0 |
Pharmaceutical and Biopharmaceutical Engineering
Required Concentration Courses (both required)
| ME 530 | Introduction to Pharmaceutical Manufacturing | 3 |
| ME 626 | Manufacturing of Biopharmaceutical Products | 3 |
Elective Concentration Courses (must choose 2)
| ME 535 | Good Manufacturing Practice in Pharmaceutical Facilities Design | 3 |
| ME 602 | Statistical Methods in Life Sciences Industries | 3 |
| ME 628 | Manufacturing and Packaging of Pharmaceutical Oral Solid Dosage Products | 3 |
| ME 629 | Manufacturing of Sterile Pharmaceuticals | 3 |
| ME 647 | Environmental Systems (HVAC) in Healthcare Manufacturing | 1 |
Suggested Electives
| ME 540 | Validation in Life Sciences Manufacturing | 3 |
| PME 542 | Global Regulation and Compliance in Life Science Industries | 0 |
| ME 560 | Quality in Life Sciences Manufacturing | 3 |
| ME 555 | Lean Six Sigma | 3 |
Others of the student’s choosing (advisor approval recommended)
Medical Device Engineering
Required Concentration Courses (both required)
| ME 580 | Medical Device Design and Technology | 3 |
| ME 660 | Medical Devices Manufacturing | 3 |
Elective Concentration Courses (must choose 2)
| ME 525 | Biomechanics | 3 |
| ME 602 | Statistical Methods in Life Sciences Industries | 3 |
| ME 648 | Mechanics of Continuous Media | 3 |
| ME 658 | Advanced Mechanics of Solids | 3 |
| ME 665 | Advanced Product Development | 3 |
Suggested Electives
| BME 504 | Medical Instrumentation and Imaging | 3 |
| ME 540 | Validation in Life Sciences Manufacturing | 3 |
| ME 560 | Quality in Life Sciences Manufacturing | 3 |
| PME 542 | Global Regulation and Compliance in Life Science Industries | 0 |
| ME 555 | Lean Six Sigma | 3 |
Electives
Students are required to complete 12 credits of electives. Some concentration areas have suggested elective courses. Of these 12 credits, students may substitute a Project (ME 800 Special Problems in Mechanical Engineering, 3 credits) or a Master’s Thesis (ME 900 Thesis in Mechanical Engineering, 6 credits) for the appropriate number of courses.
For the remaining elective courses, students may take a maximum of two non-ME graduate courses, and of the non-ME courses, a maximum of one may be a non-SES course (i.e. any Stevens graduate course). Students in the Accelerated Master's Program (AMP) or those who receive approval from their advisor may take a maximum of three non-ME graduate courses. Students are required to enroll in ME 700 Seminar in Mechanical Engineering, a 0-credit course, for at least one semester.