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Undergraduate Programs
Minors
Minor in Aerospace Engineering
The minor in Aerospace Engineering is offered by the Department of Mechanical Engineering & Materials Science. It is available to undergraduate students pursuing an ABET-accredited BS degree in Engineering.
Students develop a solid, broad-based background in engineering, arts, humanities, and social sciences with an emphasis in aerospace engineering, which includes the study of aerospace sciences such as aerodynamics, flight dynamics and control, aerospace structures, aerospace propulsion and the design of aerospace vehicles. During the junior and senior years, the students learn about aerospace engineering by taking five courses.
- Aerodynamics: Thin airfoil theory, lifting-line theory for finite wings, slender body theory, linearized compressible flow and Prandtl-Glauert rule, supersonic thin airfoil theory, introduction to performance, and concepts of airfoil design.
- Flight Dynamics & Control: Aircraft dynamics, aircraft stability, flight control, flying qualities, and the application of control theory to control system design.
- Aerospace Propulsion: Introduction to propeller, jet, ramjet, and rocket propulsion, 1-D analysis of gas turbine engine performance, analysis and performance of air-breathing propulsion system, analysis and design of gas turbine engine components, e.g., inlets, nozzles, compressors, turbines, turbofan and turbo-propeller and combustors.
- Aerospace Structures: Key features of aerospace structures, basic properties of aerospace materials, principles of stressed skin construction; bending, shear, and torsion of open and closed thin-walled cross-section beams, structural idealization, loads on flight vehicles, applications to wings and fuselages.
- Aerospace Electives: Advanced courses in aerospace, solid mechanics, fluid mechanics or thermal sciences.
Students pursuing the Minor in Aerospace Engineering must complete a total of 15 units of coursework as described below. Courses selected for the minor program may count toward program requirements of the student’s major. Courses taken under the pass/fail grading option cannot be used for a minor program.
Required Courses (6 units):
MEMS 4320: Modeling, Simulation and Control
or ESE 4410: Control Systems
MEMS 5700: Aerodynamics
Core Courses (3-6 units):
MEMS 5701: Propulsion
MEMS 5704: Aircraft Structures
Electives (3-6 units):
Any course from the MS in Aerospace concentration list can be used as an Aerospace Minor Elective.
Minor in Energy Engineering
This minor will provide students with course work that will enhance their background, knowledge, and skills in the topical area of Energy Engineering. The minor covers classes in several fields of science and engineering, encompassing the Department of Energy, Environmental & Chemical Engineering, the Department of Electrical & Systems Engineering, and the Department of Mechanical Engineering & Materials Science.
A minor in Energy Engineering requires the completion of 18 units selected from the following menus. It is open to undergraduate students pursuing an engineering major, students from the sciences (Biology, Chemistry, Physics) in Arts & Sciences, and the Environmental Studies major. Interested departments should expose students to energy and related concepts in their introductory courses:
Basic & Applied Sciences (two courses):
- EECE 2000: Thermodynamics I OR MEMS 3400: Thermodynamics
- EECE 3000 Transport Phenomena I: Basics and Fluid Mechanics or MEMS 3410 Fluid Mechanics
- EECE 3510 Transport Phenomena II: Energy and Mass Transfer or MEMS 3420 Heat Transfer
- ESE 3320 Power, Energy, and Polyphase Circuits
Social Science/Policy/Economics Elective (one course):
- ECON 3350 Environmental Policy
- ENST 3300 Multiparty Environmental Decision Making
- ENST 3400 Energy Governance in Israel and the Middle East
- ENST 3530 Sustainable Cities
- ENST 4810 Reset - Renewable Energy Policy, Engineering and Business
- POLSCI 3328 Energy Politics
Electives (Choose three courses. One of the courses is required to be chosen from outside your major degree department. A partner department may approve the use of a course listed under Basic & Applied Sciences as elective.)
1. EECE 3110 Green Engineering
2. EECE 4060 Energy Conversion and Storage
3. EECE 4061 Electrochemical Processes
4. EECE 4993 International Experience in EECE
5. EECE 5080 Combustion Phenomena
6. EECE 5180 Biomass Energy Systems and Engineering
7. EECE 5200 Electrochemical Engineering
8. EEPS 3150 Environmental Impacts of Human Energy Use
9. ESE 4340 Solid-State Power Circuits and Applications
10. ESE 4350 Electrical Energy Laboratory
11. MEMS 3430 Design of Thermal Systems
12. MEMS 5422 Solar Thermal Energy Systems
13. MEMS 5423 Sustainable Environmental Building Systems
14. MEMS 5424 Thermo-Fluid Modeling of Renewable Energy
15. MEMS 5427 Fundamentals of Fuel Cells
16. MEMS 5705 Wind Energy Systems
Committee to Oversee Energy Engineering Minor: Professor Peng Bai (EECE) and Professor David Peters (MEMS). The committee is to ensure that any course added to the above lists contain a significant amount of energy topics and that the entire program be cohesive.
Minor in Environmental Engineering Science
The Minor in Environmental Engineering Science may be earned by students receiving any of the Bachelor of Science degrees offered by the McKelvey School of Engineering, or the Environmental Studies or Earth, Environmental, and Planetary Sciences degrees offered by the College of Arts & Sciences.
The Department of Energy, Environmental & Chemical Engineering sponsors an undergraduate minor in Environmental Engineering Science. This 21-unit program prepares students to seek an entry-level position as an environmental engineer, scientist, or analyst. The minor also provides a solid foundation for undertaking graduate study in environmental engineering.
Information and requirements (.pdf)
Minor in Materials Science & Engineering
Materials Science and Engineering (MSE) is an interdisciplinary field that applies the fundamental knowledge of the physical sciences to create engineering innovations. In general, “engineering” implies actively designing a system for a given application; MSE enables the design of systems from the atoms up. MSE focuses on the interrelationship between a materials structure, from the subatomic- to the macro-scale, and the properties or behaviors that the material exhibits. Materials synthesis and processing techniques enable engineers to control and change the material structure in order to obtain the desired properties. Understanding the structure-properties-processing relationship requires a fundamental understanding of the underlying chemistry and physics, and is key to obtaining materials with the desired performance for engineering applications in a wide variety of fields, from computing to medicine to energy.
The minor in MSE builds upon the fundamental insights into material structure and properties gained through required introductory courses in chemistry and materials science. Students then select at least two courses from specialization “pick lists” to gain depth in a particular application area. A free elective provides the opportunity to gain additional depth in the fundamentals or exposure to another application area.
Requirements for the minor in MSE: 3 required course, 2 courses from specialization “pick lists”, 1 free elective (17 credits). Some courses have prerequisites. Students will be approved for the minor after discussing appropriate course selection with the adviser for the minor.
Required courses :
- Chem 1701 General Chemistry I (3 credits) OR CHEM 1601 Principles of General Chemistry I
- Chem 1751 General Chemistry Laboratory I (2 credits) OR MEMS 2050 Mechanics and Materials Science Laboratory
- MEMS 2610 Materials Science (3 credits) OR EECE-E44 3520 Materials Science (3 credits)
Read more about the Materials Science and Engineering minor. Pick list (.pdf)
For more information contact the adviser for the Minor in Materials Science and Engineering: Professor Kathy Flores (MEMS).
Minor in Mechanical Engineering
The Minor in Mechanical Engineering complements studies in a field related to mechanical engineering, such as biomedical engineering, electrical engineering, physics, chemistry, or architecture. The minor is intended to provide students with a credential that could enhance their opportunities for employment or graduate study. Completion of the minor demonstrates that the student has pursued a structured program approved by the faculty of the Department of Mechanical Engineering and Materials Science.
Students pursuing the Minor in Mechanical Engineering must complete a total of 15 units of coursework as described below. Courses selected for the minor program may count toward program requirements of the student’s major (see examples below). The subjects selected for a Minor in Mechanical Engineering are expected to constitute a coherent program within the field of mechanical engineering. Courses taken under the pass/fail grading option cannot be used for a minor program.
Required Courses:
MEMS 253 Engineering Mechanics I: Statics and Strength of Materials OR BME 240: Biomechanics
MEMS 255 Engineering Mechanics II: Dynamics OR Physics 411: Mechanics
MEMS 350 Engineering Mechanics III: Mechanics of Deformable Solids
Electives: (Select 2 from this list):
MEMS 301: Thermodynamics OR EECE 203: Thermodynamics I OR BME 320B: Bioengineering Thermodynamics
MEMS 3410: Fluid Mechanics
MEMS 3610: Materials Science OR EECE 305 Materials Science
MEMS 3110: Machine Elements
MEMS 4310: Dynamics and Vibrations
Prerequisites for courses in the Mechanical Engineering Minor
Pre-requisites for required courses for the minor
MEMS 253: Mechanics I Pre-requisite: Physics 117A; Co-requisite: Math 217
MEMS 255: Mechanics II Pre-requisite: Math 217
MEMS 350: Mechanics III Pre-requisite: MEMS 253 or BME 240
Pre-requisites for electives for the minor:
MEMS 301: Thermodynamics Pre-requisites: Chem 111A, Math 132, Phys 117A
MEMS 3410: Fluid Mechanics Pre-requisites: MEMS 255, Math 233, Math 217
MEMS 3610: Materials Science Pre-requisite: Chem 111A
MEMS 3110: Machine Elements Pre-requisites: MEMS 253 or BME 240, MEMS 3610
MEMS 4310: Dynamics and Vibrations Pre-requisites: MEMS 255, ESE 318, ESE 319
To find out more about the Minor in Mechanical Engineering, please contact Professor Bayly, the program adviser.
Minor in Mechatronics
Advancements in power electronics, electronic sensors, computer hardware and software have led to an expanding role for “smart” systems, which combine electronic and mechanical components.
Automotive examples illustrate this point. The replacement of carburetors by fuel injection systems is almost universal, and hybrid/electric cars are replacing traditional automobiles. Not only are auxiliary devices such as fuel pumps, air bags, and air-conditioner compressors, but fundamental components such as intake and outtake valves will soon be driven by electric motors controlled by microprocessors. The internal combustion engine itself may be replaced by fuel cells and motors. Medical devices, micro-electromechanical systems (MEMS), robots, fly-by-wire aircraft, and wind turbines all also rely on electronic sensing of mechanical parameters and actuation of motion.
These examples suggest strongly that engineers who are adept in the design, analysis, and simulation of electro-mechanical systems will be in demand. The Minor in Mechatronics is created to encourage our students to study this important subject and provide recognition to those who do so.
This program is primarily designed for students in the ESE and MEMS departments and has been approved by the two departments. It is available for others as well.
For more information, contact the director of the Mechatronics Minor Program, Dennis Mell (ESE), or visit the Minor in Mechatronics webpage.
Minor in Nanoscale Science & Engineering
This minor will enhance students’ knowledge and skills in the area of nanotechnology. The minor consists of courses, labs, and a project with a participating faculty in the Nanotechnology minor program. The minor may be earned by any undergraduate student pursuing an Engineering or Arts & Sciences (Chemistry, Physics, Biology, Environmental Studies, Pre-Med) major.
For more information and requirements, visit the Department of Energy, Environmental & Chemical Engineering or contact a member of the Committee to Oversee Nanotechnology Minor: Professor Rohan Mishra (MEMS, Coordinator) or Professor Elijah Thimsen (EECE).
Information and requirements (.pdf)
Minor in Robotics
Robotic systems have wide application in modern technology and manufacturing. Robots can vary in complexity and use, from microrobots for surgical procedures to moderate-size robots common in manufacturing and undersea exploration to macrorobots used for disposal of nuclear wastes and as arms on space-station modules. The program designed for a Minor in Robotics provides a fundamental understanding of robotic operation and preliminary training in design and use of robots.
For more information about the Minor in Robotics, contact the program director, Dennis Mell (ESE) or visit the Minor in Robotics webpage.