Geotechnical aspects of solid waste such as municipal landfill, dredged materials, coal and incinerator ashes, identification and classification of waste materials, geological criteria for siting, laboratory and field testing, design for impoundment and isolation of waste, methods of stability analyses of landfill sites, techniques for stabilizing waste sites, leachate and gas collection and venting systems.
Mechatronics, as an engineering discipline, is the synergistic combination of mechanical engineering, electronics, control engineering, and computer science, all integrated through the design process.
The culmination of thermodynamic, fluid and heat transfer concepts to the application of power and refrigeration cycles, psychrometrics systems, and combustion processes. Electric, magnetic, dielectric, and semiconducting properties. Applications to the M. Circuit elements, equivalent circuits, impedance transformations, Smith Chart, two ports, scattering parameters, amplifiers, resonant circuits, mixers, receivers.
Students must register for at least 6 credits of dissertation per semester until 36 credits are reached. Fundamentals of Heat Transfer. Experiments demonstrating fundamental concepts of thermal-fluid systems; hydrostatics, dynamic pressure forces, dimensional analysis, pipe pressure losses, drag on external bodies, flow measurements devices, engine performance, fan and turbine performance, saturated vapor curve determination.
Advanced Mechanics of Materials. Brief discussion of airplane flight dynamics.
The course emphasizes relationships between industrial activities and regional and global natural systems-physical, chemical and biological-focusing on the importance of sustainability goals and practices. Examines engineering applications involving the diagnosis and rehabilitation of musculoskeletal, neurologic and cardiopulmonary biosystems in the context of the underlying cellular mechanisms.
Biomaterials Science and Engineering. Includes advanced analysis and modeling as well as laboratory-based final project.
Theory of Elastic Stability. Offered in a 7-week session within the term. Structural analysis may be used in an office when designing parts, in the field to analyze failed parts, or in laboratories where parts might undergo controlled failure tests.
Geometric choices and controller specifications for programmable manipulators. Fatigue failure occurs when an object fails after a number of repeated loading and unloading cycles.
Solidification and microstructural development in metal casting with an overview of selected melting processes.
This course is intended to insure that graduate assistants are adequately prepared and supervised when they are given college teaching responsibility.
Development of shape functions and element stiffness matrices. Preliminary configuration and design concepts. Mechanical properties, corrosion, and phase diagrams. Faculty Faculty members in the department have extensive research, industrial, and teaching experience and have published widely.
Cartesian tensors; plane stress and plane strain; 2-D problems in Cartesian and polar coordinates; stress and strain in 3-D; general theorems; torsion of noncircular sections. Students practice drawing engineered products such as small electrical and mechanical devices, machines and household products.
Our faculty and students are involved in projects that aim to bring engineering solutions to a spectrum of global challenges, including the development and design of: Mathematical preliminaries including index notation; analysis of stress; analysis of deformation; fundamental laws, field equations, and constitutive equations; application to fluids and solids.
The Department has excellent laboratory facilities in the Engineering Sciences Building, the Engineering Research Building, and the new Engineering Sciences Building Annex to provide support for both instructional and research activities.
Continuum mechanicsa method of applying mechanics that assumes that objects are continuous rather than discrete Mechanical engineers typically use mechanics in the design or analysis phases of engineering.
Time-domain and frequency-domain methods for design of feedback control systems. Introduction to solid waste disposal. Gives the engineering student a basic understanding of the human system so that the student may include it as an integral part of the design.
Students interested in the doctoral program should apply directly to the Ph. Proportional, integral, and derivative controllers. Concepts and models are applied to air-water, sediment-water and soil-air interfaces.Civil Engineering. In the information technology age, more resources are available for building new cities, repairing the infrastructure, cleaning up the environment: these are all tasks for the civil engineer.
Click here to apply. Master of Science Degree Program. The program leading to the Master of Science degree in Mechanical Engineering requires completion of a minimum of 30 points of approved coursework consisting of no fewer than ten courses.
Hopefully, as the framework is now maturing, more such papers will appear. Extent of this site's coverage of the Threshold Concept Framework This bibliography initially reflected the interests of the compiler but, over a decade, has been massively extended to cover most disciplines and topics in which there are published papers on the threshold.
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Note: The dual degree requires twenty hours of technical electives. The twenty hours consists of: nine hours of approved aerospace engineering technical electives, nine hours of approved mechanical engineering technical electives, and the final two hours can be either aerospace engineering or mechanical engineering approved.
More courses available from EIT's School of Industrial Automation Accredited Postgraduate Programs. Master of Engineering (Industrial Automation) II Accredited Diploma and Advanced Diploma Programs.Download