Courses

The listing of a course description here does not guarantee a course’s being offered in a particular term. Please refer to the published schedule of classes on the MyBU Student Portal for confirmation a class is actually being taught and for specific course meeting dates and times.

• ENG ME 762: Nonlinear Systems and Control
  Graduate Prerequisites: (ENGME501) or ENG EC 501 or consent of instructor - Introduction to the theory and design methods of non-linear control systems. Application to robotics, vibration and noise control, fluid control, manufacturing processes, and biomedical systems. Mathematical methods based on the theory of differentiable manifolds; non-linear control techniques include feedback linearization, back-stepping, forwarding, and sliding mode control. Additional course topics will include controllability and observability, Lyapunov stability and its applications, limit cycles, input-output stability, zero dynamics, center manifold theory, perturbation theory, and averaging. Same as ENG SE 762. Students may not receive credits for both.
• ENG ME 766: Advanced Scheduling Models and Methods
  Graduate Prerequisites: (ENGEK500 & ENGME510) - Emphasizes basic methodological tools and recent advances for the solution of scheduling problems in both deterministic and stochastic settings. Models considered include classical scheduling models, DEDS, neural nets, queueing models, flow control models, and linear programming models. Methods of control and analysis include optimal control, dynamic programming, fuzzy control, adaptive control, hierarchical control, genetic algorithms, simulated annealing, Lagrangian relaxation, and heavy traffic approximations. Examples and case studies focus on applications from manufacturing systems, computer and communication networks, and transportation systems. Same as ENG SE 766. Students may not receive credits for both.
• ENG ME 778: Micromachined Tranducers
  Graduate Prerequisites: (ENGME555) or consent of instructor. - The field of micro-electromechanical devices and systems (MEMS) has been growing at an exciting pace in recent years. The interdisciplinary nature of both micro-machining techniques and their applications can and does lead to exciting synergies. This course will explore the world of mostly silicon-based micro-machined transducers, i.e., micro-sensors and micro-actuators. This requires an awareness of material properties, fabrication technologies, basic structural mechanics, sensing and actuation principles, circuit and system issues, packaging, calibration, and testing. The material will be covered through a combination of lectures, case studies, individual homework assignments, and design projects carried out in teams.
• ENG ME 781: Electroceramics
  This course will explore the structure property relationships and phenomena in ceramic materials used in electronic, dielectric, ferroelectric, magnetic, and electrochemical applications. In particular we will discover how to functionalize a component for a particular application - a capacitor, a thermistor, actuator, or a fuel cell. Such a discovery process demands an in- depth understanding of the roles and interrelationships between the crystal structure, defect chemistry, microstructure, and texture in such materials. Statistical thermodynamics, quantum mechanics, and solid mechanics principles will be used as and when necessary in the course. The course is intended to fit in the space and act as a bridge between solid state theory where the emphasis is largely on theory and a ceramic materials course where the emphasis is largely on processing. Same as ENG MS 781. Students may not receive credits for both.
• ENG ME 785: No longer offered
  Graduate Prerequisites: (ENGME585) and consent of instructor. - No longer offered
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• ENG ME 788: Soft Tissue Biomechanics
  Undergraduate Prerequisites: (ENGBE420 & ENGME521) or ENG BE521 or equivalent with consent of instructor. - This course will introduce students to the mechanics of soft biological tissue. In particular, the response of the heart, vasculature, and tissue scaffolds to mechanical loads from the perspective of nonlinear solid mechanics will be studied. Constitutive models for hyperelastic materials will be adapted to biomaterials to handle mechanical characteristics such as nonlinearity, viscoelasticity, and orthotropy. Basic experimental methods, and anatomy and physiology of particular tissue types will also be introduced. Emphasis is placed on integrating the basic analytical, experimental, and computational methods for a more complete understanding of the underlying mechanobiology. Meets with ENG BE 788. Students may not receive credit for both.
• ENG ME 790: Graduate Seminar in Mechanical Engineering
  Discussion of current topics in mechanical engineering. Students are expected to attend and actively participate in weekly discussion meetings. Meetings organized around presentations by invited guests who discuss their research programs, strategies, and approaches. 1 cr. P/F. Fall semester.
• ENG ME 791: Mechanical Engineering PhD Research Placement Program
  Graduate Prerequisites: PhD standing - Through trial placements in multiple research labs, first-year PhD students have the opportunity to become familiar with the activities of research groups that are of interest to them. It is recommended that first-year PhD students identify and complete three placements: one in the first semester of their first year and two in their second semester. These placements are intended to help students sample research activities available within Mechanical Engineering and identify the research group and faculty advisor with whom they will perform their dissertation research. Normally each placement will last up to seven weeks. VAR cr. P/F. Either sem.
• ENG ME 801: Teaching Practicum I
  PhD Requirement. Assist faculty by performing teaching or teaching-related duties, such as preparing and teaching labs and discussion sections, developing teaching materials, assisting with homework preparation and grading, proctoring exams, grading exams or papers.
• ENG ME 802: Teaching Practicum II
  PhD requirement. Assist faculty by performing teaching or teaching-related duties, such as preparing and teaching labs and discussion sections, developing teaching materials, assisting with homework preparation and grading, proctoring exams, grading exams or papers.
• ENG ME 810: PhD Internship in Mechanical Engineering
  Graduate Prerequisites: Permission of advisor and an approved internship offer; at least two semesters in the ME PhD program. - This course provides ME PhD students the opportunity tom include a paid internship as part of their professional training. The internship must be related to the student's area of study. International students require CPT authorization. Written summary required. Graded P/F. Prerequisite: Permission of advisor and an approved internship offer; at least two complete semesters in the ME PhD program. Full-time (30-40 hours/week for at least 12 weeks) = 4 credits; part-time (15-20 hours/week for at least 12 weeks) = 2 credits.
• ENG ME 900: PhD Research
  Undergraduate Prerequisites: Graduate standing. - Graduate Prerequisites: Restricted to pre-prospectus PhD students. - Participation in a research project under the direction of a faculty advisor leading to the preparation and defense of a PhD prospectus.
• ENG ME 951: Independent Study
  Graduate Prerequisites: By petition only. - Graduate students may study, under a faculty member's supervision, subjects not covered in a regularly offered course. Final report and/or written examination normally required.
• ENG ME 952: MENTORED PROJ
  MENTORED PROJ
• ENG ME 954: MS Thesis
  Undergraduate Prerequisites: Graduate standing. - Graduate Prerequisites: Restricted to MS students by petition only. - Participation in a research project under the direction of a faculty advisor leading to the preparation of an original MS thesis. For students pursuing an MS thesis to satisfy the practicum requirement for the MS degree.
• ENG ME 991: PhD Dissertation
  Undergraduate Prerequisites: Graduate standing. - Graduate Prerequisites: ME 900; restricted to post-prospectus PhD students. - Participation in a research project under the direction of a faculty advisor leading to the preparation and defense of an original PhD dissertation.
• ENG MS 500: Special Topics in Materials Science and Engineering
  Undergraduate Prerequisites: Graduate standing or consent of instructor. Specific prerequisites va ry according to topic. - Coverage of a specific topic in materials science and engineering. Subject varies from year to year and is generally from an area of current or emerging research.
• ENG MS 503: Kinetic Processes in Materials
  Undergraduate Prerequisites: Undergraduate course in materials science and engineering. - Kinetics of mass transport, continuum and atomistic approaches, chemical diffusion; kinetics of chemical reactions, kinetics of adsorption and evaporation; nucleation and growth; solidification; spinodal decomposition; coarsening; martensitic transformations; order-disorder reactions; point defects and their relation to transport kinetics. Meets with ENGME503; students may not receive credit for both.
• ENG MS 504: Polymers and Soft Materials
  An introduction to soft matter for students with background in materials science, chemistry, and physics. This course covers general aspects of structures, properties, and applications of soft materials such as polymers, colloids, liquid crystals, amphiphiles, gels, and biomaterials. Emphasis on chemistry and forces related to molecular self-assembly. Topics include forces, energies, kinetics in material synthesis, growth and transformation; methods for preparing synthetic materials; formation, assembly, phase behavior, and molecular ordering of synthetic soft materials; structure, function, and phase transition of natural materials such as nucleic acids, proteins, polysaccharides, and lipids; techniques for characterizing the structure, phase and dynamics of soft materials; application of soft materials in nanotechnology. Meets with ENG BE and ME 504; students may not receive credit for both. Meets with BE 504 and ME 504
• ENG MS 505: Thermodynamics and Statistical Mechanics
  Undergraduate Prerequisites: Undergraduate course in Thermodynamics. - The laws of thermodynamics; general formulation and applications to mechanical, electromagnetic and electromechanical systems; thermodynamics of solutions, phase diagrams; thermodynamics of interfaces, adsorption; defect equilibrium in crystals; statistical thermodynamics, including ensembles, gases, crystal lattices, and phase transitions. Same as ENGME505; students may not receive credit for both.