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Course Criteria
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3.00 Credits
Internal contamination, radiation quantities, ICRP dose methodologies, lung models, bioassay, whole body counting, uranium and plutonium toxicology and metabolism, alpha dosimetry and ventilation control/air sampling. Prerequisite: 524. {Fall}
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3.00 Credits
Van Swol (Also offered as NSMS 530.) Introduces various intermolecular interactions in solutions and in colloidal systems; colloidal systems; surfaces; interparticle interactions; polymer-coated surfaces; polymers in solution, viscosity in thin liquid films; surfactant self-assembly; and surfactants in surfaces.
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3.00 Credits
Ward (Also offered as NSMS 533.) Materials synthesis and processing by physical vapor deposition, chemical vapor deposition, and aerosol routes are explored. Underlying physicochemical fundamentals are discussed, and examples from the recent literature are used to exemplify the methods. {Offered upon demand}
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3.00 Credits
(Also offered as ASTR, PHYC, ECE 534.) Plasma parameters, adiabatic invariants, orbit theory, plasma oscillations, hydromagnetic waves, plasma transport, stability, kinetic theory, non-linear effects, applications. {Fall}
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3.00 Credits
Fundamental concepts of the transport processes in the human body. Applications of the basic transport principles to the biomedical systems, e.g., artificial organs and the measurement of the rheological properties of blood. Use of biomaterials.
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3.00 Credits
An introduction to the engineering principles involved in the production of biological molecules. Integration of molecular biological principles with engineering fundamentals. Includes: bioprocess design, operation, analysis and optimization. {Spring upon demand}
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3.00 Credits
Lopez, Whitten, Atanassov (Also offered as NSMS 538.) Introduction to biosensors as analytical devices and biosensor technology as an emerging field of industrial development. Survey of biochemical fundamentals and immobilization of the biological components, methods for biosensors fabrication, microfluidic devices and sensor arrays. {Spring upon demand.}
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3.00 Credits
(Also offered as CE 539.) Introduction to the nuclear fuel cycle emphasizing sources, characteristics and management of radioactive wastes. Types of radiation, radioactive decay calculations, shielding requirements. Radwaste management technologies and disposal options. {Fall}
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3.00 Credits
Advanced thermodynamics with reference to its application in chemical engineering. {Fall}
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3.00 Credits
(Also offered as ECE 558.) Overview of physics of particle beams and applications at high-current and high-energy. Topics include review of collective physics, beam emittance, space-charge forces, design of electron and ion guns, transport at high power levels and beam instabilities. Prerequisite: ECE 557 or CHNE 545.
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