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Botany |
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BOT 5700 - Vegetation Ecology Credits: 4 The ecology of major vegetation types, with emphasis on patterns of vegetation distribution, vegetation-environment relationships, succession, the effect of fire and management decisions, and methods of vegetation analysis.
Dual Listed BOT 4700 . Prerequisite: LIFE 3400 .
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BOT 5710 - Research in Ecology Credits: 1-6 Max Credit (Max. 6)
Prerequisite: graduate standing and consent of instructor.
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BOT 5720 - Research in Physiological Ecology Credits: 1-6 Max Credit (Max. 6)
Prerequisite: graduate standing and consent of instructor.
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BOT 5730 - Plant Physiological Ecology Credits: 4 Acquaints advanced students with environmental factors which affect the establishment and growth of plants. Emphasizes adaptive mechanisms. Lecture with inclusive hands-on laboratory.
Cross Listed RNEW 5730 . Dual Listed BOT 4730 . Prerequisite: one course in ecology and one in physiology.
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BOT 5745 - Terrestrial Ecosystem Ecology Credits: 3 Advanced course examines fundamental ecosystem functions and their relationship to ecosystem structure using a systems approach. Study cycles of carbon, water and nutrients through ecosystem components with an emphasis on interactions among plants, soil, and the atmosphere. Current readings focus on responses of terrestrial ecosystems to global climate change an human disturbance.
Dual Listed BOT 4745 . Prerequisite: one course in ecology.
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BOT 5750 - Seminar in Ecophysiology Credits: 1-3 Max Credit (Max. 8)
Prerequisite: 1 course in physiology and 1 course in ecology.
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BOT 5775 - Forest Ecology Credits: 4 Integrative study of the structure, function, and ecological diversity of forested ecosystems, and the physical factors that influence this diversity, including emergent properties of energy flow and nutrient cycling. Special emphasis is given to understanding forest disturbances and succession, and implications for impacts of management and sustainability are discussed throughout.
Cross Listed ECOL 5775 /RNEW 5775. Dual Listed BOT 4775 . Prerequisite: LIFE 3400 .
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BOT 5780 - Biogeochemistry Credits: 3 A comprehensive treatment of biogeochemistry with emphasis on biogenic elements and biological processes. Reviews occurrence of elements, their behavior in the biosphere, and how their cycles are affected by humans.
Cross Listed ESS 5780 . Dual Listed BOT 4780 . Prerequisite: Consent of instructor.
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BOT 5790 - Special Topics in Ecology Credits: 1-3 Max Credit (Max. 6)
Designed to acquaint advanced students with various topics not covered in other courses. Emphasis is placed on recent developments appearing in the journal literature.
Dual Listed BOT 4790 . Prerequisite: two courses in ecology.
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BOT 5900 - Practicum in College Teaching1 Credits: 3 Max Credit (Max 3)
Work in classroom with a major professor. Expected to give some lectures and gain classroom experience.
Prerequisite: graduate status.
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BOT 5920 - Continuing Registration: On Campus Credits: 1-2 Max Credit (Max. 16)
Prerequisite: advanced degree candidacy.
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BOT 5940 - Continuing Registration: Off Campus Credits: 1-2 Max Credit (Max. 16)
Prerequisite: advanced degree candidacy.
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BOT 5960 - Thesis Research Credits: 1-12 Max Credit (Max. 24)
Designed for students who are involved in research for their thesis project. Also used for students whose coursework is complete and are writing their thesis.
Prerequisite: enrolled in a graduate degree program.
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BOT 5980 - Dissertation Research Credits: 1-12 Max Credit (Max. 48)
Graduate level course designed for students who are involved in research for their dissertation project. Also used for students whose coursework is complete and are writing their dissertation.
Prerequisite: enrolled in a graduate level degree program.
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Business |
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BKCH 3021 - Fundamentals of Blockchain Credits: 3 The purpose of this course is to provide a fundamental understanding of blockchain technologies and their implications. Topics will focus on understanding how blockchain may change the way we think about money, disrupt traditional financial institutions and eliminate costly intermediaries.
Prerequisite: Requires Junior Class Standing.
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BKCH 4021 - Business Applications of Blockchain Credits: 3 This course provides advanced concepts underpinning the applications of global blockchain technologies for business and their use cases. Students will learn about the underlying technologies to be well-prepared to develop blockchain applications in the business world.
Prerequisite: BKCH 3021.
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BKCH 4121 - Case Studies in Block Chain Credits: 3 This experiential learning focused course is targeted toward understanding the creation and development of blockchain ventures. Besides course lecture materials, students will study and support new blockchain ventures in a real-world setting.
Prerequisite: BKCH 3021.
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BUSN 1101 - First-Year Seminar Credits: 3 USP Code [(none)< >FYS]
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BUSN 4990 - Senior Exit Exam Credits: 0 The Senior Exit Exam test content encompasses the core COB curriculum: accounting, economics, finance, ethics, legal and social environment, management, marketing, and quantitative business analysis (decision science). The purpose of this test is to assess students’ mastery of core business/economic concepts. This course is taken during the same semester as the students capstone course (MGT 4800/ECON 4240).
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Chemical Engineering |
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CHE 1005 - Introduction to Chemical Engineering Credits: 1 Provides an overview of chemical engineering and its role in the current technological importance: energy, biotechnology, production of chemicals, and materials processing. Introduces strategies for solving engineering problems, including ethical considerations and teamwork, discusses process variables, units, mass balance, and data analysis, and incorporates active learning exercises using spreadsheet to solve chemical engineering problems.
Prerequisite: concurrent enrollment in MATH 2200 .
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CHE 2005 - Chemical Process Analysis Credits: 3 Introduces analysis of chemical processes using stoichiometry, material and energy balances, thermodynamics and economics.
When Offered (Normally offered fall semester) Former Course Number [3000] Prerequisite: C- or better in either CHEM 1050 or CHEM 1020 and concurrent enrollment in MATH 2205 .
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CHE 2070 - Chemical Thermodynamics Credits: 3 Discusses first and second laws of thermodynamics applied to chemical processes, production of power from heat, refrigeration, and liquefaction processes, develops thermodynamic relations for calculating thermodynamic properties of fluids, including the use of equations of state, and introduces heat effects, Gibbs-energy change of reaction, and chemical-reaction equilibria.
Prerequisite: C- or better in CHE 2005 , PHYS 1210 ; C or better in MATH 2210 .
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CHE 2080 - Chemical Engineering Fluid Mechanics Credits: 3 Introduces the fundamental aspects of macroscopic fluid mechanics, including physical properties, fluid statics, mass, energy, and momentum balances, momentum transport, and flow through pumps, pipes, and other chemical engineering equipment for both incompressible and compressible fluids, and of microscopic fluid mechanics, including differential mass and momentum balances.
Prerequisite: C- or better in CHE 2005 , PHYS 1210 , and C or better in MATH 2210 .
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CHE 2090 - Practical Fundamentals of Process Control Credits: 2 Introduces students to sensors, valves, actuators and the assembly of process control components. Provide hands-on practical experience with level control, flow control, temperature control and pressure control processes. This course consists of one (1) hour of lecture and two (2) hours of laboratory per week.
Prerequisite: C or better in MATH 2205 .
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CHE 3015 - Chemical Thermodynamics II Credits: 3 Introduces mixture properties, such as chemical potentials, excess properties, partial molar properties, heats of mixing, fugacities, and practical tools for estimating them from solution theories and equations of state. These tools and concepts are applied to phase and chemical equilibria.
When Offered (Normally offered fall semester) Former Course Number [3010] Prerequisite: C or better in CHE 2060 , and CHE 2070 or ES 2310 .
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CHE 3026 - Heat Transfer Credits: 3 Introduces the theory and application of energy transport (e. g. conduction, convection, radiation), discusses in depth fundamentals of microscopic energy transport, and applies the knowledge to macroscopic chemical engineering processes and systems.
Prerequisite: C- or better in CHE 2060 , and CHE 2080 or ES 2330 .
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CHE 3028 - Mass Transfer Credits: 3 Introduces mass transfer concepts, including molecular diffusion, convective mass transfer, and mass transfer between phases, and the development of mathematical models of these physical phenomena, applicable to the analysis and design of chemical processes.
Prerequisite: C- or better in CHE 2005 , CHE 2060 , and CHE 2080 or ES 2330 .
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CHE 3035 - Separation Processes Credits: 3 Applies transport and equilibrium concepts and models to the analysis and design of separation processes, such as distillation, absorption, extraction, leaching, adsorption, crystallization, and membrane separation processes.
Prerequisite: C or better in CHE 2060 , and CHE 2070 or ES 2310 .
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CHE 3040 - Unit Operations Laboratory I Credits: 3 Laboratory experiments examining settling, pump performance, heat transfer, adsorption, gas transfer, and distillation. Introduces topics in statistics including: probability distributions, mean, median, mode, variance and standard deviation, systematic and random error, confidence intervals, and t-tests, F-tests and ANOVA. Emphasizes the preparation of formal laboratory reports including experimental error analysis.
When Offered (Normally offered fall semester) USP Code [WB< >(none)] Prerequisite: C- or better in CHE 3026 and CHE 3028 and CHE 4060 . (Normally offered fall semester)
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CHE 3070 - Process Simulation and Economics Credits: 3 Introduces the process simulation software used in the chemical industry and its applications, including examples of heat and material balances, physical properties, phase and chemical equilibria, equilibrium-stage separations and costs and profitability analysis.
Prerequisite: C- or better in CHE 2005 , CHE 3015 , and CHE 3026 and concurrent enrollment in CHE 3028 .
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CHE 3090 - Applying Simulation to Dynamic Processes Credits: 1 Introduces students to dynamic simulation software for controlling individual chemical engineering processes. This course consists of two (2) hours of laboratory per week.
Prerequisite: C or better in CHE 2005 .
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CHE 3100 - Fundamentals of Bioengineering Credits: 3 An introduction to select biological concepts with emphasis on their relevancy to bioengineering. Topics include model organisms, cells and organelles, bioenergetics and metabolism, macromolecules, DNA replication and modern molecular biology methods, and control mechanisms.
Prerequisite: C- or better in LIFE 1010 .
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CHE 3200 - Fundamentals of Solids Handling Credits: 3 Introduces students to particle technology (solids-handling) including particle rate processes, fundamentals of particle transport, mathematics of particle systems, particle properties and characterization and processing operations. This course consists of three hours of lecture and one hour of laboratory per week and an introduction to ASPEN modeling of solids handling.
Prerequisite: C or better in MATH 2205
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CHE 3890 - Engineering Honors Program Research Methods Credits: 3 A general approach to scientific research and graduate school preparation. Topics will include: finding a research mentor, literature search skills, using the scientific method for approaching a research problem and developing a research methodology, writing a research funding proposal, delivering a research presentation and selecting and applying for graduate school.
Cross Listed ATSC 3890 /ARE 3890 /CE 3890 /COSC 3890 /EE 3890 /ES 3890 /PETE 3890 . Restricted Restricted to College of Engineering Honors Program students. Prerequisite: sophomore standing.
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CHE 3900 - Undergraduate Research Credits: 1‑6 Students carry out research appropriate to undergraduates, under faculty supervision. May be taken more than once.
When Offered (Normally offered each semester) Prerequisite: junior standing in chemical engineering.
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CHE 4000 - Environment, Technology and Society Credits: 3 Explores relationships among technology, the environment and society. Examines social and humanistic aspects of using current and future technology to understand and solve environmental problems.
Cross Listed PETE 4000 . Prerequisite: junior standing and completion of two lab sciences.
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CHE 4050 - Unit Operations Laboratory II Credits: 3 Laboratory experiments examining heat transfer and process control. Also requires students to design, conduct and analyze ‘open-ended’ experiments. Introduces LabView and covers factorial experimental design and linear and non-linear data regression approaches. Emphasizes the preparation of a formal report describing all aspects of the experiments.
When Offered (Normally offered spring semester) Prerequisite: C- or better in CHE 3040 . (Normally offered spring semester)
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CHE 4060 - Reaction Engineering Credits: 3 Introduces chemical process kinetics, catalysis and reactor design. Includes homogeneous and heterogeneous reaction kinetics; design of batch, stirred-tank and tubular reactors; and nonisothermal operation.
When Offered (Normally offered spring semester) Prerequisite: C- or better in CHE 3015 and CHE 3026 and concurrent enrollment in CHE 3028 .
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CHE 4070 - Process Design I Credits: 4 Encompasses engineering design of chemical processes. Introduces engineering economics, process safety management and environmental management.
When Offered (Normally offered fall semester) Prerequisite: C- or better in CHE 3028 and CHE 3070 and CHE 4060 .
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CHE 4080 - Process Design II Credits: 4 Intended for the last semester of the senior year. Applies all previous courses to the design of safe, economical and environmentally benign chemical processes.
USP Code [WC< >COM3] Prerequisite: C- or better in CHE 4070 , and COM-2.
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CHE 4090 - Process Dynamics and Control Credits: 3 Encompasses analysis and design control systems for the chemical process industry including steady-state approximation, types of controllers, simple unsteady-state analysis, use of mathematical models and process dynamics under control.
Prerequisite: C- or better in CHE 3028 and CHE 4060 .
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CHE 4092 - Controlling Process Systems Credits: 3 Capstone process control course. Students will design process control for systems of linked processes including sensing and transmission, final control elements, and controller. This course consists of two (2) hours of lecture and three (3) hours of laboratory per week.
Prerequisite: C or better in CHE 3090 and concurrent enrollment in either CHE 4090 , EE 4620 , or EE 4621 .
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CHE 4100 - Biochemical Engineering Credits: 3 Applies chemical engineering principles to the analysis and design of biological processes widely used in the pharmaceutical, food and environmental remediation industries. Topics include kinetics of enzyme-catalyzed reactions, cellular growth and metabolism, bioreactor design and mass transfer considerations.
Dual Listed CHE 5100 . Prerequisite: Completion with a C- or better or concurrent enrollment in CHE 3100 or MOLB 2021 .
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CHE 4160 - Biomedical Engineering-Transport Processes Credits: 3 Focuses on chemical and physical transport processes with applications toward the development of drug delivery systems, artificial organs, bioartificial organs and tissue engineering. Involves topics covering body fluids, capillary solute transport, physical and flow properties of blood, tissue oxygen transport, pharmacokinetic models and cell physiology.
Prerequisite: consent of instructor and grade of C or better in at least three courses counting no more than two from CHEM 1020 , CHEM 1030 , CHEM 1050 , LIFE 1010 , LIFE 1020 and at least one from LIFE 2022 , MATH 2200 , KIN 2040 , MOLB 2021 , MOLB 2240 , CHE 3000, ES 2310 .
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CHE 4165 - Biomaterials Credits: 3 Material science and engineering of the various materials used for biomedical applications, in-depth discussion of the molecular and cellular interactions to implanted materials, as well as a survey of practical applications. Materials covered will include polymers, ceramics, metals, composites, silicones, and natural materials, such as collagen, elastic, and silk.
Dual Listed CHE 5165. Prerequisite: LIFE 1010 and CHEM 1020 or CHEM 1050 , or permission of instructor.
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CHE 4200 - Industrial Chemical Production Credits: 3 Integration of chemical engineering and chemistry as practiced in modern industry. Engineering of chemical reactions and processes for commodity chemicals, petroleum-based fuels, petrochemicals, intermediates, specialty chemicals, pharmaceuticals, and engineered materials. Environmental strategies for waste minimization and pollution prevention.
Prerequisite: CHEM 2420 and CHE 3015 (may be taken concurrently).
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CHE 4210 - Natural Gas Processes and Modeling Credits: 3 After a quick introduction to the Hysys simulation program, the main chemical processes used to convert well-head gas to products will be reviewed and modeled (fractionation train, sulfur recovery, tail gas clean-up, dehydration, refrigeration, nitrogen rejection) in high detail, including appropriate property models to use.
Prerequisite: CHE 3070 .
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CHE 4220 - Metabolic and Protein Engineering Credits: 3 An introduction to the design of biological systems for conversion of a feedstock to product, with emphasis on synthetic biology and directed evolution design principles, evolutionary mechanisms and tradeoffs. Metabolic pathways and molecules of industrial importance will be discussed, as well as ethics as applied to synthetic biology and bioengineering.
Dual Listed CHE 5220. Prerequisite: MOLB 2021 or concurrent enrollment in CHE 3100 .
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CHE 4270 - Advanced Process Simulation Credits: 3 Advanced topics for a commercial process simulation software that is routinely used in industry will be covered. Topics will include: electrolyte systems, physical property methods and regression of parameters, petroleum industry component selection and distillation, solids handling capabilities including coal processing, advanced recycle stream convergence techniques, and equation-oriented solution methods.
Prerequisite: CHE 3070 .
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CHE 4430 - Green Chemistry and Global Environmental Problems Credits: 3 Focus includes study of the chemistry of air, water, and soil as well as the effects of anthropogenic activities on natural processes. Emphasis is also placed on sustainability and green chemistry practices and technologies.
Cross Listed CE 4430 /ENR 4430 . Prerequisite: CHEM 1020 .
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CHE 4580 - Honors Undergraduate Research Credits: 3 An independent research experience for undergraduate students enrolled in the Engineering Honors Program. Before registering for this class, students are responsible for discussing their interests with faculty, identifying a willing research mentor, obtaining approval by said mentor, and communicating the student/faculty partnership to the appropriate staff in their home department. Must be in the Engineering Honors Program.
Cross Listed ATSC 4580 /BE 4580 /CE 4580 /COSC 4580 /ES 4580 /ESE 4580 /PETE 4580 . Prerequisite: junior or senior standing.
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CHE 4970 - Internship in Chemical Engineering Credits: 1-6 Max Credit (Max. 6)
Enables credit for students in appropriate engineering activities while serving as interns in an industrial, government, or other setting.
Prerequisite: must be involved in a chemical engineering co-op/internship experience.
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CHE 4972 - Internship in Process Control Engineering Credits: 1-6 Max Credit (Max. 6)
Enables credit for students serving as interns with an approved organization that provides process control and instrumentation experience.
Prerequisite: Be enrolled in the Process Control and Instrumentation minor.
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CHE 4990 - Topics in Chemical Engineering Credits: 1-6 Max Credit (Max. 6)
Features topics not included in regularly offered classes. Section I is individual study. Other sections are group study by seminar or in class format.
Prerequisite: CHE 3000 or concurrent enrollment.
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CHE 5010 - Transport Phenomena Credits: 3 Examines the modeling of momentum, heat and mass transport.
Cross Listed PETE 5010 . Prerequisite: ES 2330 , MATH 2310 , and graduate standing in Chemical or Petroleum Engineering.
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CHE 5020 - Thermodynamics Credits: 3 Utilizing the laws of thermodynamics to a wide variety of process applications. Evaluating current methods for predicting thermodynamic properties of pure fluids and mixtures. Modeling multiphase, multicomponent equilibria.
Cross Listed PETE 5020 . Prerequisite: graduate standing.
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CHE 5030 - Reaction Kinetics Credits: 3 An analysis of reactions involving phase boundaries, heterogeneous catalysis, gas-solid systems, and gas-liquid systems.
Prerequisite: CHE 4060 .
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CHE 5060 - Flow through Porous Media Credits: 3 Review of properties of porous media. Relationships of permeability to porosity. Formulation of the Fundamental Flow equation. Constant Rate Solutions. Constant Pressure Solutions. The Principle of Superposition. Transient well testing of oil and gas reservoirs, including drawdown, build-up faulted systems, interference, drillstem tests, and isochronal test analysis.
Dual Listed PETE 5060 . Prerequisite: graduate standing.
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CHE 5090 - Graduate Teaching and Research: Theory and Methods Credits: 3 A general approach to scientific research and graduate school. Topics include: purpose of graduate school, careers with graduate degrees, communication basics, literature search skills, presentations, research instrumentation, the scientific methods, developing hypotheses, grant proposal, and paper writing, research ethics, copyrights, patents, research notebooks, and classroom teaching techniques.
Prerequisite: graduate standing.
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CHE 5100 - Biochemical Engineering Credits: 3 Applies chemical engineering principles to the analysis and design of biological processes widely used in the pharmaceutical, food and environmental remediation industries. Topics include kinetics of enzyme-catalyzed reactions, cellular growth and metabolism, bioreactor design and mass transfer considerations.
Dual Listed CHE 4100 . Prerequisite: Completion with a C- or better or concurrent enrollment in CHE 3100 or MOLB 2021 .
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CHE 5150 - Topic in Chemical Engineering Credits: 1-3 Max Credit 12
Selected topics in chemical engineering.
Prerequisite: Consent of instructor
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CHE 5160 - Biomedical Engineering - Transport Processes Max Credit 3
Focuses on chemical and physical transport processes with applications toward the development of drug delivery systems, artificial organs, bioartificial organs and tissue engineering. This will involve topics covering body fluids, capillary solute transport, physical and flow properties of blood, tissue oxygen transport, pharmacokinetic models and cell physiology.
Dual Listed CHE 4160 Prerequisite: Consent of instructor and grade of C or better in at least 3 courses counting no more than 2 from CHEM 1020, CHEM 1030, CHEM 1050, LIFE 1010, LIFE 1020 and at least one from LIFE 2020, MATH 2200, KIN 2040, MOLB 2240, CHE 3000, ES 2310, graduate standing.
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CHE 5165 - Biomaterials Credits: 3 Material science and engineering of the various materials used for biomedical applications, in-depth discussion of the molecular and cellular interactions to implanted materials, as well as a survey of practical applications. Materials covered will include polymers, ceramics, metals, composites, silicones, and natural materials, such as collagen, elastin, and silk.
Dual Listed CHE 4165 Prerequisite: LIFE 1010 and CHEM 2420 or permission of instructor.
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CHE 5190 - Polymeric Chemistry Engineering Credits: 3 This course discusses basic methods in the synthesis of polymers (polymerization) as well as their applications toward to common and new promising polymer products. In addition, the kinetics of these methods, the synthetic processing techniques and the end products will be addressed together with applications and characterization of various polymers
Prerequisite: CHE 3015, CHE 4060, and CHEM 2440.
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CHE 5220 - Metabolic and Protein Engineering Credits: 3 An introduction to the design of biological systems for conversion of a feedstock to product, with emphasis on synthetic biology and directed evolution design principles, evolutionary mechanisms and tradeoffs. Metabolic pathways and molecules of industrial importance will be discussed, as well as ethics as applied to synthetic biology and bioengineering.
Prerequisite: MOLB 2021 or concurrent enrollment in CHE 3100.
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CHE 5230 - Advanced Catalysis and Characterization Credits: 3 Focus on modern ideas and techniques used to describe gas-solid interactions, including adsorption and chemical reactions. The usefulness of photon and electron spectroscopies for evaluating the structure of real catalysts will be discussed. Catalysis of important classes of chemical reactions will be related to results obtained by various materials characterization methods.
Prerequisite/Corequisite: CHE 5030. |
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CHE 5355 - Mathematical Methods in Chemical Engineering Credits: 3 Covers mathematical modeling: conservation laws and constitution relationships; partial differential equations (PDEs): the types and analytical solution techniques; applied linear algebra; matrices and Eigen-analysis; numerical solution techniques: finite difference and finite element methods, Newton-Raphson method, and temporal discretization techniques, and linear solution techniques: direct and iterative methods.
Dual Listed PETE 5355 Prerequisite: MATH 2210, CHE/PETE 3025 or equivalent.
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CHE 5410 - Advanced Biological Wastewater Treatment Credits: 3 Theory and practice of advanced biological treatment processes for municipal and industrial wastewaters, sludges, groundwater bioremediation and solid waste. Emphasis is on fundamental principles applied to the design and control of existing processes and the development of innovative systems
Cross Listed CE/ENVE 5410 Prerequisite: Consent of instructor.
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CHE 5440 - Fluid Mechanics Credits: 3 Lagrangian and Eulerian descriptions, conservation laws, stress and rate-of-stress tensors, Navier-Stokes equations, energy equations, vorticity and circulation inviscid and potential flows, laminar flows, turbulent flows, boundary-layer theory.
Cross Listed ME 5440
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CHE 5600 - Research Data Management Credits: 3 A general approach to research data management for graduate students and researchers. Topics include: the case for data management, data management planning, meeting grant requirements, formatting and organizing, storing and transferring, legal and ethical issues, strategies for research teams, sharing data, and publishing, citing, and rights to research data.
Cross Listed ES/GRAD/LBRY/PETE 5600
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CHE 5700 - Fundamentals of Coal Utilization Credits: 3 Following introduction to coal structure, constituents and classification, fundamental principles of coal utilization technologies will be examined. The topics to be covered include behavior of coal stockpiles, drying, pyrolysis, combustion/gasification of coal. Reactor models for utilization of coal will be discussed with reference to current environmental issues and remediation.
Prerequisite: Graduate standing
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CHE 5880 - Problems in Chemical Engineering Credits: 1-6 Max Credit 6
A special course designed to make possible the study and investigation of problems or phases of chemical engineering selected to fit the needs of the student.
Prerequisite: Graduate standing in engineering
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CHE 5890 - Chemical Engineering Seminar Credits: 1 Max Credit 9
Departmental seminar on current research with formal training for student presentation of technical papers.
Cross Listed PETE 5890 Prerequisite: Graduate standing
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CHE 5900 - Practicum in College Teaching Credits: 1-3 Max Credit 3
Work in classroom with a major professor. Expected to give some lectures and gain classroom experience
Prerequisite: Graduate Status
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CHE 5920 - Continuing Registration: On Campus Credits: 1-2 Max Credit 16
Prerequisite: Advanced Degree Candidacy
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CHE 5940 - Continuing Registration: Off Campus Credits: 1-2 Max Credit 16
Prerequisite: Advanced degree candidacy
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CHE 5960 - Thesis Research Credits: 1-12 Max Credit 24
Graduate level course designed for students who are involved in research for their thesis project. Also used for students whose coursework is complete and are writing their thesis
Prerequisite: Enrolled in a graduate degree program.
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CHE 5980 - Dissertation Research Credits: 1-12 Max Credit 48
Graduate level course designed for students who are involved in research for their dissertation project. Also used for students whose coursework is complete and are writing their dissertation.
Prerequisite: Enrolled in a graduate level degree program.
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CHE 5990 - Internship Credits: 1-12 Max Credit 48
Prerequisite: Graduate standing
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Chemistry |
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CHEM 1000 - Introductory Chemistry Credits: 4 Deals with principles of chemistry and some applications to inorganic chemistry. For students in family and consumer sciences, nursing, education, general arts and sciences and most agriculture curricula.
Lab/Lecture Hours Laboratory and discussion: 3 hours per week. When Offered (Normally offered fall semester) USP Code [SP< >PN] Note: Students who have credit in CHEM 1020 or CHEM 1050 may not receive duplicate credit for this course.
Prerequisite: Minimum grade of C in MATH 0925, or level 3 on the MPE, or ACT math score of 23 or above.
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CHEM 1001 - The Chemical Community Credits: 1 A survey of chemistry both as a major and a discipline. Chemistry’s historical role, the scientific method, scientific ethics, as well as current challenges in the major fields of chemistry are discussed. Information literacy is strongly emphasized, both by familiarization with university resources as well as specialized chemical databases.
When Offered (Normally offered fall semester) USP Code [I,L< >(none)]
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CHEM 1020 - General Chemistry I Credits: 4 First semester of a one-year introductory series. Provides broad coverage of chemistry principles with inorganic and organic systems applications. Credit will not be allowed for more than one of CHEM 1020, CHEM 1050 and CHEM 1000 .
Lab/Lecture Hours Laboratory and discussion: 3 hours per week. USP Code [SP< >PN] Prerequisite: ACT Math score of 23 or above, or concurrent enrollment in MATH 1400 , or MATH 1405 or CHEM 1050 .
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CHEM 1030 - General Chemistry II Credits: 4 Second semester of a one-year introductory series. Provides broad coverage of chemistry principles with inorganic and organic systems applications. Credit will not be allowed for more than one of CHEM 1030 and CHEM 1060 .
Lab/Lecture Hours Laboratory and discussion: 3 hours per week. USP Code [SP< >PN] Prerequisite: CHEM 1020 .
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CHEM 1050 - Advanced General Chemistry I Credits: 4 First semester of a one-year series covering chemical principles. Emphasizes inorganic chemistry and briefly discusses qualitative analysis. Credit not given for more than one of CHEM 1020 , 1050 and CHEM 1000 .
Lab/Lecture Hours Laboratory: 3 hours per week. When Offered (Normally offered fall semester) USP Code [SP< >PN] Prerequisite: one year high school chemistry, and an ACT Math score of 27 or higher or concurrent enrollment in MATH 2200 .
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CHEM 1060 - Advanced General Chemistry II Credits: 4 Second semester of a one-year series covering chemical principles. Emphasizes inorganic chemistry and briefly discusses qualitative analysis. Credit not given for more than one of CHEM 1030 and 1060.
Lab/Lecture Hours Laboratory: 3 hours per week. When Offered (Normally offered spring semester) USP Code [SP< >PN] Prerequisite: CHEM 1050 or CHEM 1020 , with permission of the instructor.
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CHEM 2000 - Special Topics in the Laboratory Credits: 1 Max Credit (Max. 4)
Introduces students to laboratory experience in chemistry.
Prerequisite: special permission from the chemistry department.
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CHEM 2230 - Quantitative Analysis Credits: 5 Broad, general coverage of analytical techniques, principles and calculations.
Lab/Lecture Hours Laboratory: 6 hours per week. When Offered (Normally offered spring semester) Prerequisite: CHEM 1030 , CHEM 1060 or equivalent.
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CHEM 2300 - Introductory Organic Chemistry Credits: 4 Terminal course in organic and beginning biological chemistry. No credit will be allowed in CHEM 2300 if credit earned in CHEM 2420 .
When Offered (Normally offered spring semester) Note: This course is not an acceptable prerequisite for CHEM 2440 .
Prerequisite: CHEM 1020 , CHEM 1050 , CHEM 1000 or equivalent.
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CHEM 2420 - Organic Chemistry I Credits: 4 First semester of a one-year sequence in organic chemistry. Approached from the viewpoint of modern chemical theory, emphasizing structural and mechanistic concepts. The course incorporates a laboratory integrated with the lecture. Students desiring a one-semester terminal course should take CHEM 2300 .
Lab/Lecture Hours 3 hours per week. No credit allowed in CHEM 2420 if credit earned in CHEM 2300 . When Offered (Normally offered fall) Prerequisite: CHEM 1030 or CHEM 1060 .
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CHEM 2440 - Organic Chemistry II Credits: 4 Second semester of a one-year sequence in organic chemistry. Approached from viewpoint of modern chemical theory, emphasizing structural and mechanistic concepts. The course incorporates a laboratory integrated with the lecture. Students desiring a one-semester terminal course should take CHEM 2300 .
Lab/Lecture Hours 3 hours per week. When Offered (Normally offered spring semester) Note: Note: CHEM 2300 is not an acceptable prerequisite for CHEM 2440.
Prerequisite: CHEM 1030 or CHEM 1060 and CHEM 2420 .
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CHEM 3020 - Environmental Chemistry Credits: 3 Environment and modern environmental problems in terms of chemical structures and reactions. Chemical principles of equilibrium, kinetics, and thermodynamics are used to help understand our changing environment. Topics include toxicological chemistry, aquatic chemistry, atmospheric chemistry, and green chemistry.
Prerequisite: CHEM 2300 or CHEM 2420 ; CHEM 2230 ; and QA course.
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CHEM 3550 - Physical Chemistry for the Life Sciences Credits: 3 Deals with areas of physical chemistry of interest to students majoring in the life sciences. Covers thermodynamics, kinetics, equilibrium and spectroscopy, using biological systems for development and illustration. Credit is allowed for only one of the courses: CHEM 3550 or CHEM 4507 .
When Offered (Normally offered every other year) Prerequisite: CHEM 1030 , MATH 2200 .
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CHEM 4000 - Career Skills Credits: 3 This class will help students develop their communication and job seeking skills for a professional career in chemical sciences. Additionally, it will help build their problem solving, chemical literature, laboratory safety, teamwork and ethical skills that are necessary to succeed in their professional careers in chemical sciences.
Cross Listed CHEM 5000 When Offered (Normally offered fall semester) Prerequisite: At least 6 credit hours of Chemistry (CHEM) classes.
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CHEM 4040 - Chemical Literature Credits: 1‑2 When Offered (Normally offered alternating spring semesters) Prerequisite: CHEM 2300 or CHEM 2420 ; CHEM 4507 or CHEM 3550 or concurrent enrollment.
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CHEM 4050 - Solar Energy Conversion Credits: 3 Provides an overview of the science behind current and future solar thermal and photovoltaic technologies. Environmental aspects, legal issues and cost associated with solar energy will also be included.
Cross Listed ERS 4050 . When Offered (Offered spring semester) Prerequisite: CHEM 1030 or CHEM 1060 and PHYS 1210 or PHYS 1310 and MATH 2200 .
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CHEM 4100 - Inorganic Chemistry Laboratory Credits: 2 Introduces basic inorganic laboratory synthetic techniques and methods of analysis.
When Offered (Offered fall semester) Prerequisite: CHEM 2440 and CHEM 4110 or concurrent enrollment.
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CHEM 4110 - Introductory Inorganic Chemistry Credits: 3 A basic course on theoretical and descriptive inorganic chemistry.
When Offered (Normally offered fall semester) Prerequisite: CHEM 2420 , and physical chemistry.
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CHEM 4230 - Instrumental Methods of Chemical Analysis Credits: 5 Introduces optical, electroanalytical and separation methods of analysis, emphasizing practical industrial applications.
When Offered (Normally offered fall semester) Prerequisite: CHEM 2230 .
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CHEM 4400 - Biological Chemistry Credits: 3 Covers the main principles of biological chemistry from a chemical standpoint. Highlights the chemical structure of biological molecules and examines biological processes with emphasis on the underlying organic chemistry. Introduces biological NMR spectroscopy and other biophysical methods. Discusses main metabolic pathways.
Dual Listed CHEM 5400 . Prerequisite: CHEM 2440 or consent of instructor
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