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Course Criteria
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2.00 - 4.00 Credits
No course description available.
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3.00 Credits
This course covers solid-state, liquid-phase, viscous-phase, and reactive sintering in terms of mechanisms, grain growth, impurity segregation and grain boundaries, microstructural evolution, and microstructure related properties. Oxide and non-oxide materials and experimental methods are also discussed. Prerequisites: CEMS 237 and 314 or permission of instructor.
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2.00 Credits
An introduction to LabView programming for data collection, data analysis and closed loop control of instruments and devises. Students will design simple virtual instruments, control programs and also study the function of complex electronic instruments and their control. Prerequisite: CEMS 221 or ELEC 220.
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0.00 Credits
No course description available.
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3.00 Credits
This course provides a basic knowledge of magnetic ceramic materials. The first section deals with fundamentals of magnetism, magnetic properties (intrinsic and structure-sensitive) and crystallography of ferrites both hard and soft types. In the second section, the technology of ferrites is described in terms of raw materials, conventional vs. non-conventional techniques of processing, sintering, microstructure control, effect of additives, and applications. Prerequisites: CEMS 332 and 344.
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3.00 Credits
The skeleton contains 206 bones that provide strength and rigidity yet allow flexibility. However, bone can fail as a result of both disease and insult. In this course we study the hierarchical structure of bone, how disease affects it and, subsequently, its repair both medically and surgically. Offered every year. Prerequisite: CEMS 368.
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3.00 Credits
Continuation of Quantum Mechanics I. Focuses on the applications of quantum mechanics postulates to real systems. Time independent perturbation theory is developed as are nonperturbative techniques such as variational theory. These ideas are applied to real atoms, molecules, metals, etc. Time dependent perturbation is also constructed and applied to electrodynamics. Non relativistic quantum electrodynamics is then applied to realistic systems. Prerequisite: CEMS 502.
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3.00 Credits
This course provides a basic knowledge of magnetic ceramic materials. The first section deals with fundamentals of magnetism, magnetic properties (intrinsic and structure-sensitive) and crystallography of ferrites both hard and soft types. In the second section, the technology of ferrites is described in terms of raw materials, conventional vs. non-conventional techniques of processing, sintering, microstructure control, effect of additives, and applications.
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3.00 Credits
The skeleton contains 206 bones that provide strength and rigidity yet allow flexibility. However, bone can fail as a result of both disease and insult. In this course we study the hierarchical structure of bone, how disease affects it and, subsequently, its repair both medically and surgically. Offered every year.
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2.00 - 15.00 Credits
No course description available.
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