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Course Criteria
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3.00 Credits
Issues and cases in bioethics, across the range of medical practice, individual rights, and social implications.
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3.00 Credits
The use of DNA evidence in the court. The implications of relevancy, competency, impeachment, hearsay, and expert testimony will be discussed. Constitutional issues of privacy, informed consent, and mandated registries will be weighed. Special considerations will be presented, from issues of paternity and the sanctity of marriage to the practical issues of specimen collection, quality, and processing.
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3.00 Credits
Conditions and hours to be arranged Prerequisites: Permission of the instructor, department chairperson, and college dean Study under the supervision of a faculty member in an area covered in a regular course not currently being offered. Lecture/laboratory arranged as required.
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1.00 Credits
1 hour lecture Introduction to laboratory practice and procedure. Probability and statistical analysis are applied to experimental results. Topics such as experimental uncertainty, linear regression, normal distributions, confidence intervals are typically covered.
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3.00 Credits
3 hours lecture Prerequisites: Prerequiste: CHM 151 or CHM 153 and MTH 112 or MTH 114 The fundamental concepts and basic principles of classical thermodynamics. The Zeroth, First and Second laws of thermodynamics are formulated with recourse to empirical observations and then expressed in precise mathematical language. These laws are applied to a wide range of engineering problems. The properties of pure substances are described using equations of state and surfaces of state. Reversible processes in gases are analyzed by means of the First and Second laws. A representative sampling of engineering applications is discussed and analyzed.
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4.00 Credits
3 hours lecture, 1 hour laboratory Prerequisites: CHM 151 or CHM 153 The relation between the atomic or micro structure of engineering materials and their properties. Structures of metals, ceramics, polymers and composites are introduced. Experiments on equilibrium diagrams, metallographic structures, property changes of metals are included.
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4.00 Credits
3 hours lecture, 3 hours laboratory Prerequisites: EGR 241 Corequisites: MNE 201 &
Material behavior and the concepts of equilibrium and compatibility of deformation. Torsion of bars is discussed with application of problems of shaft design. Stress in beams of simple and composite shapes is considered as well as shear in beams and combined twisting and bending. Deflection of beams, shafts and structures are discussed using several calculation procedures. Stress and strain are considered in 3-dimensions with attention to principal directions. Buckling is considered and some attention is paid to plastic action in the various course topics. Both experimental and numerical laboratories will be conducted on various topics covered in the course.
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3.00 Credits
Conditions and hours to be arranged Prerequisites: Permission of the instructor, department chairperson, and college dean Study under the supervision of a faculty member in an area covered in a regular course not currently being offered. Lecture/laboratory arranged as required.
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0.00 - 9.00 Credits
Prerequisites: At least sophomore standing; permission of the instructor, department chairperson, and college dean Work experience at an elective level supervised for academic credit by a faculty member in an appropriate academic field. For specific procedures and regulations, see the section of catalogue on Other Learning Experiences. Graded CR/NC
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4.00 Credits
3 hours lecture, 2 hours lab, 1 hour recitation Prerequisites: MNE 220, MTH 211 or MTH 213 Basic conservation equations in integral and differential forms. Eulerian and Lagrangian description of mass, momentum, and energy.& Elements of potential flow.& Analysis is primarily limited to inviscid and viscous incompressible fluids with applications to external and internal flows.& Discussion of similairty and scaling.& Both experimental and CFD laboratories and CFD project are integrated with the course.
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