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Course Criteria
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3.00 Credits
(251) (Also offered as ECE 4244) Second semester. Three credits. One hour lecture and four hour laboratory. Prerequisites: Senior standing and ECE 4211 or ENGR 4243. Growth and characterization of carbon nanotube using vapor phase nucleation; growth of CdSe quantum dots using liquid phase precipitation and vapor phase MOCVD reactor; characterization using AFM and TEM and dynamic scattering techniques; device processing highlighting nanolithography (E-Beam), and self assembly techniques; project work involving fabrication of devices such as LEDs, carbon nanotube based FETs, and sensors using self-assembled quantum dots hosted in inorganic or organic/polymer layers.
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3.00 Credits
(299) Semester and hours by arrangements. Credits by arrangement, not to exceed 4. Open to seniors in the School of Engineering. With a change in topic, may be repeated for credit. Designed for students who wish to pursue an interdisciplinary engineering project where the subject matter/content spans more than one field of interest. The program of study is to be approved by the Associate Dean of Undergraduate Education and the instructor before registration is completed.
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1.00 Credits
(110) Second semester. One credit. May be repeated for credit (maximum of 3 credits). Structured review of environmental issues and active debate during class time. Presentation of current environmental issues by environmental professionals and experts.
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3.00 Credits
(251) (Also offered as CE 2251.) First semester. Three credits. Recommended preparation: MATH 1121Q or 1131Q/1131QC. This course and ENVE 2330 or CE 2210 may not both be taken for credit. Anagnostou, Aultman-Hall, Garrick, Ivan Application of statistical principles to the analysis of civil engineering problems. Topics include probability, random variable distributions, hypothesis testing, and linear regression analysis.
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3.00 Credits
(263) (Also offered as CE 2310.) First semester. Three credits. Prerequisites: CHEM 1128Q or 1148Q. MacKay Concepts from aqueous chemistry, biology, and physics applied in a quantitative manner to environmental problems and solutions. Mass and energy balances, chemical reaction engineering. Quantitative and fundamental description of water and air pollution problems. Environmental regulations and policy, pollution prevention, risk assessment. Written and oral reports.
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1.00 Credits
(210) Second semester. One credit. May be repeated for credit (maximum of 3 credits). Structured review of environmental issues and active debate during class time. Presentation of current environmental issues by environmental professionals and experts.
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3.00 Credits
(201) (Also offered as CE 2210.) First semester. Three credits. Prerequisite: MATH 1122Q or 1132Q. This course may not be taken for credit if the student has taken CE 2251, CE 281, or ENVE 2251. Anagnostou, Ivan Time value of money. Evaluation of alternative projects. Fundamentals of probability theory and statistics. Introduction to critical path method for project scheduling and optimization using linear mathematical models.
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3.00 Credits
(262) (Also offered as CE 3300.) Second semester. Three credits. Two class periods and one 3-hour laboratory period. Prerequisites: CE 2310; and prerequisite or corequisite (CE 3120 or CHEG 3123). Abboud, Holmen Aqueous analytical chemical techniques, absorption, coagulation/flocculation, fluidization, gas stripping, biokinetics, interpretation of analytical results, bench-scale design projects, written and oral reports.
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3.00 Credits
(270) First semester. Three credits. Prerequisite: (CHEM 1128 or 1148) and MATH 2410. MacKay Quantitative variables governing chemical behavior in environmental systems. Thermodynamics and kinetics of acid/base, coordination, precipitation/ dissolution, and redox reactions. Organic chemistry nomenclature.
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3.00 Credits
(260) (Also offered as CE 3320.) Second semester. Three credits. Prerequisites: CE 2310 and (CE 3120 or CHEG 3123). Abboud Physical, chemical, and biological principles for the treatment of aqueous phase contaminants; reactor dynamics and kinetics. Design projects.
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