Active Course List
2024-2025
Mechanical Engineering
Theoretical background and practical use of both solid modeling techniques and finite element analysis are provided. The course covers the major features and feature manipulation techniques. It also provides a background in deriving, understanding and applying the stiffness matrices and finite element equations for various types of finite elements and systems. Static stress analyses, sensitivity studies and optimization studies are covered. It includes additional cases beyond ME 420. Includes significant design component.
- Areas of Interest:
- Science, Technology, Engineering, Mathematics
Introduce anisotropic mechanics theories, engineering application of various composite materials, mechanical behaviors and fabrication of composites, experimental and theoretical approach for composite designs, contemporary issues such as nano/microcomposites. Prereq: ME 223
- Areas of Interest:
- Science, Technology, Engineering, Mathematics
Introduction to the theory of aerosols and particulate systems. Properties, behavior, and physical principles of aerosols; including particle size statistics, Brownian motion and diffusion, and coagulation. Application in areas such an environmental systems, respiratory deposition, bioterrorism, and materials processing.
- Areas of Interest:
- Science, Technology, Engineering, Mathematics
Methods of energy conversion. Topics may include hydroelectric, geothermal, wind and solar power generation, as well as unconventional methods of energy conversion. Term design problems.
- Areas of Interest:
- Science, Technology, Engineering, Mathematics
This course introduces the concepts and roles of Design for Manufacturing and Assembly (DFMA) in product specification and standardization, design rules/principles for typical manufacturing and assembly (including manufacturing processes analysis and approach towards robust design and manual and automatic/robotic assembly) processes, methods of material, shape and process selections, design for quality and reliability, design for manual/automatic (robotic) assembly, case studies on design for manufacturing and assembly with/without the aid of software.
- Areas of Interest:
- Science, Technology, Engineering, Mathematics
Refrigeration cycles and equipment, refrigeration properties, heating and cooling loads, psychometric analysis of air conditioning. Distribution of air conditioning medium and air quality as applied to design.
- Areas of Interest:
- Science, Technology, Engineering, Mathematics
This course introduces the numerical methods used for solving partial differential and integral equations of the type commonly occurring in fluid mechanics and heat transfer. The course provides a background in geometry and mesh generation, solution processes, and post-processing. Error control and numerical stability will be discussed. Numerical solutions for selected problems in fluid mechanics and heat transfer will be derived. Students will learn to use a commercial CFD software package. Includes significant design component.
- Areas of Interest:
- Science, Technology, Engineering, Mathematics
Energy method and residual approaches, 2D and 3D problems, in stress anaylsis, application to steady and transient heat flow, hydrodynamics, creeping flow, solution methods.
- Areas of Interest:
- Science, Technology, Engineering, Mathematics
- Programs:
- Modeling and Simulation (GC)
Analysis of control systems using the methods of Evans, Nyquist, and Bode. Improvement of system performance by feedback compensation. Introduction to digital control.
- Areas of Interest:
- Science, Technology, Engineering, Mathematics
Synergistic combination of mechanical engineering, electronics, controls and programming in the design of mechatronic systems. Sensors, actuators and microcontrollers. Survey of the contemporary use of embedded microcontrollers in mechanical systems, case studies.
- Areas of Interest:
- Science, Technology, Engineering, Mathematics
Principles of generation of lift and drag for infinite wing and finite wing are discussed. The linearized equations of motion for atmospheric flight are developed. Longitudinal and lateral motions of the airplane are studied with particular emphasis on the phugoid, short-period, dutch-roll, and spiral motions. Static stability and control requirements for airplane design are considered. Design for robustness is emphasized.
- Areas of Interest:
- Science, Technology, Engineering, Mathematics
Individual studies of problems of special interest. Open only to advanced students.
- Areas of Interest:
- Science, Technology, Engineering, Mathematics
This class will provide students pursuing a certificate in Global Solutions in Engineering and Technology with an opportunity to explore a set of topics related to achieving success either in advance of or following an international experience (internship, study abroad, etc.). Speakers will include faculty, graduate students, visiting researchers and industry members as well as student participants. Returning students will be required to participate in mentoring of students preparing for their international experience and provide written and/or oral presentations of various topics during the semester. This course is to be required either before or after participation in the international experience.
- Areas of Interest:
- Science, Technology, Engineering, Mathematics
- Programs:
- Global Solutions in Engineering and Technology (GC)
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- Areas of Interest:
- Science, Technology, Engineering, Mathematics
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- Areas of Interest:
- Science, Technology, Engineering, Mathematics
This course will address both qualitative and quantitative research methods in mechanical engineering. The methodology and design of a research study will be covered. Standards for formatting journal papers, thesis documents, and presentations will be discussed. Papers and presentations will be given by students in the course and faculty. This course is intended for students at the start of their graduate program and may be repeated near completion when they are working on their final thesis.
- Areas of Interest:
- Science, Technology, Engineering, Mathematics
- Programs:
- Mechanical Engineering (MS)
Numerical methods for solving linear systems of equations, solution of non-linear equations, data interpolation, numerical differentiation, numerical integration, numerical solution of ordinary and partial differential equations.
- Areas of Interest:
- Science, Technology, Engineering, Mathematics
- Programs:
- Modeling and Simulation (GC)
Investigation, review, and application of emerging computer aided tools for engineering. Advanced FEA; optimization.
- Areas of Interest:
- Science, Technology, Engineering, Mathematics
- Programs:
- Modeling and Simulation (GC)
Numerical methods (finite difference, finite volume, finite element) used for solving partial differential and integral equations of the type commonly occuring in fluid mechanics and heat transfer. Numerical solutions for selected problems in fluid mechanics and heat transfer. Use of CFD software.
- Areas of Interest:
- Science, Technology, Engineering, Mathematics
- Programs:
- Modeling and Simulation (GC)
This course helps the students develop an ability to define optimal design methodologies that will best implement the design intent and generate efficient designs. Various problems involving the use of modern, high-end industry standard software systems will be solved.
- Areas of Interest:
- Science, Technology, Engineering, Mathematics
Review of elastic stress-strain relationships; application of fundamental concepts of static and dynamic strain measurements by electrical means; theory and use of resistance gages, strain gage circuits and recording instruments; rosette analysis. Introduction to phototelasticity.
- Areas of Interest:
- Science, Technology, Engineering, Mathematics
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- Areas of Interest:
- Science, Technology, Engineering, Mathematics
Presentation and discussion of student research progress as well as topics important to the professional engineering field. May include guest speakers, tours, and student presentations. May be retaken with change in topic.
- Areas of Interest:
- Science, Technology, Engineering, Mathematics
Practical experience in the various activities of a practicing engineer. Admission to the ME program required. Can be repeated for a max of 3 credits of ME 687 and ME 697 combined.
- Areas of Interest:
- Science, Technology, Engineering, Mathematics
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- Areas of Interest:
- Science, Technology, Engineering, Mathematics