Individual survey, analysis, or apparatus project in the mechanical engineering field, concluded with the submission of a formal report. Subject originates with students wishing to develop a technical idea of personal interest. One hour conference per week. Prerequisite: Professional standing and prior approval by a faculty member who is project supervisor. Prerequisite: fourth year standing.

Applied research in areas pertinent to aerospace engineering; conducted in close consultation with a departmental faculty advisor. Includes the design and construction of experiments, analysis, or the investigation of physical phenomena. The research may be related to ongoing faculty research and may be the topic of the senior thesis, but its scope must be significantly beyond that required for the thesis. Prerequisite Fourth yr. standing.

Applied research in areas pertinent to aerospace engineering; conducted in close consultation with a departmental faculty advisor. Includes the design and construction of experiments, analysis, or the investigation of physical phenomena. The research may be related to ongoing faculty research and may be the topic of the senior thesis, but its scope must be significantly beyond that required for the thesis. Prerequisite Fourth yr. standing

Includes familiarization with concepts of mass production tooling and automation; metallurgical and mechanical aspects of machining and metal forming; and experiments with machine tools. Prerequisite: MAE 2000, MAE 3620.

Coverage of the design process including project management, specifications, budgeting and case histories, Conceptual, preliminary, and detailed design phases. Technical proposal and report preparation and technical presentations. Organization of design teams to work on specific semester long mechanical design projects selected to illustrate the design process. Engineering 4th Year Standing or instructor permission.

A continuation of MAE 4610 that applies the design process to projects. Organization of design teams to work on specific semester-long design projects, including oral presentations and written reports. Pre- or Co-Requisite MAE 4610

Presents the synergistic integration of mechanical engineering with electronics and computer control in the design of industrial products and processes. Surveys basic electronics, electromechanical actuators, analog and digital signals, sensors, basic control algorithms, and microcontrol programming. Weekly laboratory exercises and a final design project. Prerequisite: Third year standing in ME or AE or instructor permission.

Mechatronics studies synergistic integration of mechanical engineering, electronics, and intelligent control in the design and manufacture of devices. Advanced Mechatronics follows MAE 4710 Mechatronics and dives deeper into circuits, electromechanical actuators, analog and digital signals, sensors, control algorithms, and microcontroller programming. An emphasis is placed on synergistically combining components to design and invent new products.

Discusses the mathematics of feedback control systems; transfer functions; basic servo theory; stability analysis; root locus techniques; and graphical methods. Applications to analysis and design of mechanical systems, emphasizing hydraulic, pneumatic, and electromechanical devices. Prerequisite: MAE 2320 and 3710.

Studies free and forced vibration of damped and undamped single and multiple degree of freedom systems. Includes modeling of discrete and continuous mass systems; application to vibration measurement instruments; analysis of concepts of modal analysis; concepts of linear stability; application to rotating machinery, Prerequisite MAE 2320, corequisite MAE 3710