The course will provide the students with an experience in searching the current scientific literature in Materials Science and Engineering, preparing a technical report, and delivering a seminar while expanding their knowledge in a topic of their choice from a list of technologically relevant research areas provided by the instructors.

This course will cover operations research and systems engineering methods and their applications in healthcare delivery and medical decision making. The use of these methods for healthcare has recently become an active and growing area of research in diverse contexts such as organ transplant decisions, evaluation of cost effectiveness of preventive screening, scheduling of healthcare services, patient access management, and the coordination of resources for elective and emergency services.

Incompressible and compressible flow theory applied to airplane lifting surfaces and engines. Topics include potential flow theory, the Euler equations, thin airfoil theory, and gas dynamics. A commercial computational fluid dynamics package may be used to visualize the flows.

A Senior Design (SD) project course including design concept selection, design spec writing, assembly design (DFM), design analysis, a final report and oral presentations in defense of the design. Prerequisites: M&I-ENG 313, 354, 375 and 413. Satisfies the Integrative Experience requirement for BS-ME majors..

Introduction to the fundamentals of computer programming for engineering problem solving and analysis. Creating algorithms for data manipulation and for solving basic mathematical expressions which model real world phenomena.

Not available at this time.

Description not available at this time

This is a one-credit laboratory course offered in conjunction with the 500-level course on Physical and Chemical Processing of Materials. It aims at enhancing the students' experience with and understanding of kinetic processes of materials.

The course aims at a comprehensive introduction to the physical and chemical processes involved in the design and manufacturing of materials used in current materials engineering technologies, including modern device fabrication technologies. The course will offer a broad review of kinetic processes in engineering materials that control the materials' structural and chemical characteristics in relation to material properties.

Kinetics and Kinematics of particles and rigid bodies. Newton?s laws, work-energy and impulse-momentum principles, laws of linear and angular momentum, conservation of momentum, planar motion of rigid bodies, and introduction to vibration of single-degree-of-freedom systems.

Prerequisites: CE-ENGIN 240 or M&I-ENG 210