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Course Criteria
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5.00 Credits
Cellular structure and life processes of bacteria; chemical composition, growth, and metabolism. General biological and evolutionary considerations. 3 lectures, 2 laboratories. Prerequisite: MCRO 225 and CHEM 313 or CHEM 371.
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3.00 Credits
Principles and methods used for production of enzymes, pharmaceuticals, chemicals, and food additives using micro-organisms. Topics include screening and strain improvement, regulation of metabolite production, genetic engineering, heterologous gene expression systems, large-scale production, and intellectual property. 3 lectures. Prerequisite: MCRO 221 or MCRO 224, and BIO 303, BIO 351 or equivalent, and CHEM 312, CHEM 316 or equivalent.
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4.00 Credits
Ecology and interactions of microorganisms in natural environments. Fundamentals of microbial ecology, microbes and ecosystem function, and practical aspects of microbes in the environment: nutrient cycling, extreme environments, symbioses, bioremediation, biocontrol, biofuels. 2 lectures, 2 activities. Prerequisite: BIO 160 and BIO 161, or MCRO 221, or MCRO 224.
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2.00 Credits
Completion of a research proposal and literature review, including analysis of experimental results from published peer-reviewed articles covering issues in microbiology, culminating in both written and oral presentations. 2 activities. Prerequisite: Junior standing or consent of instructor.
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1.00 Credits
Introduction to mechanical engineering and its application in professional practice. Includes design, analysis, testing and dissection of mechanical engineering systems, from simple machines to more complicated systems. 1 laboratory.
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2.00 Credits
Communication of designs to manufacturing using basic definitions of points, lines and planes in space. Pictorials, orthographic projection, section views and auxiliary views. Techniques from geometry, vectors, analysis, and spatial definitions integrated to provide information to both the design and manufacturing processes. 1 lecture, 1 laboratory.
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2.00 Credits
Use of advanced communication principles to communicate project designs to manufacturing processes. Projects evaluated in terms of meeting design criteria. Techniques of advanced communication including weld symbols, threaded fasteners, dimensioning and tolerancing. Use of computers to enhance these processes. 1 lecture, 1 laboratory. Prerequisite: ME 151.
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1.00 Credits
Continuation of solid modeling introduced in ME 152, using current software and hardware. Creation of more involved part models with varied configurations and dynamic assembly models. Working drawings pro-duced from the models. Introduction to mass and inertia using the chosen software. Emphasis of group work and peer review in the production of parts for assemblies. 1 laboratory. Prerequisite: ME 152 or equivalent.
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3.00 Credits
Analysis of forces on engineering structures in equilibrium. Properties of forces, moments, couples, and resultants. Equilibrium conditions, friction, centroids, area moments of inertia. Introduction to mathematical modeling and problem solving. Vector mathematics where appropriate. 3 lectures. Prerequisite: MATH 241 (or concurrently), PHYS 131.
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3.00 Credits
Analysis of motions of particles and rigid bodies encountered in engineering. Velocity, acceleration, relative motion, work, energy, impulse, and momentum. Further development of mathematical modeling and problem solving. Vector mathematics where appropriate. 3 lectures. Prerequisite: MATH 241, ME 211.
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