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Course Criteria
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3.00 Credits
Discusses the application of microbiology for improvement of humankind, including genetic engineering of microorganisms to produced products of importance to human health, microbe-based foods and beverages, microbe-based bio-control, biofuels, and bioremediation.
Prerequisite:
MBIO A340 UA C
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3.00 Credits
Explores the mutation, transmission, selection and evolution of genetic information in microbes. Discusses the mechanisms by which transmission of genetic information impacts microbe-microbe and host-microbe interactions.
Prerequisite:
BIOL A240 UA C OR MBIO A340 UA C
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4.00 Credits
Applies theory and laboratory techniques in microbial ecology, diversity and evolution. Emphasizes experimental design, scientific writing and oral presentation skills.
Prerequisite:
MBIO A342 UA C
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3.00 Credits
Introduces concepts in human virology, with an emphasis on cell and molecular biology of virus structures, viral life cycles, interactions with host cells, immune responses and disease pathogenesis. Discusses viral genomics, evolution, emergence and advanced experimental methods for analyzing virus genome sequences. Special Note: Not available for credit to students who have completed MBIO A662. May be stacked with: MBIO A662
Prerequisite:
BIOL A242 UA C AND BIOL A252 UA C
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3.00 Credits
Examines the mutual interactions between geology and microbiology. Emphasizes microbial processes that affect local and global environments including biogeochemical cycles, co-evolution, microbe-mineral interactions and life in extreme environments. Crosslisted with GEOL A468
Prerequisite:
MBIO A340 UA C OR GEOL A360 UA C
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3.00 Credits
Introduces the use of solid modeling in engineering. Covers the process of creating solid parts, assemblies and fabrication-ready drawings in addition to kinematics linkages. Rapid prototyping technologies such as three-dimensional printing will be used as laboratory exercises.
Prerequisite:
ENGR A105A UA C AND ENGR A105B UA C
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3.00 Credits
Modeling of mechanical, electrical, fluid and thermal elements and systems. Study of free and forced response by the Laplace transform, transfer function and state space models. Time domain and frequency domain responses. Coupled systems, system analogy, sensing and actuation principles. Crosslisted with EE A306
Prerequisite:
(EE A203 UA C OR ES A309 UA C ) AND ES A210 UA C AND MATH A302 UA C
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3.00 Credits
Principles of measurement, instrumentation, Laplace transform, Fourier series, transfer function, steady-state response, calibration, and errors. Signal filtering and amplification, data acquisition, recording, and processing. Methods and devices for measuring strain, force, torque, displacement, velocity, acceleration, pressure, fluid flow properties, and temperature. Crosslisted with EE A308.
Prerequisite:
MATH A302 UA C (AND EE A306 UA C OR ME A306 UA C OR EE A353 UA C )
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3.00 Credits
Continuation of ES A346 (or ES F346), with topics that include power and refrigeration cycles (Rankine, Brayton, Otto, and Diesel), compressible flow (isentropic, shock waves, and flow in ducts with friction), combustion, and gas vapor mixtures.
Prerequisite:
ES A346 UA C
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3.00 Credits
Study and investigate the processing, structures, properties and performance of materials including metals, ceramics, polymers, and composites. Materials design and selection for engineering applications.
Prerequisite:
CHEM A106 UA C AND ME A334L UA C Concurrent AND PHYS A212 UA C
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