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Business Law BLAW 310 with a minimum grade of “C” or permission of instructor is the prerequisite for all 400-level BLAW courses. Not all classes are offered every semester.
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BLAW 498 - Internship in Business Law Credit Hours: 3 Lecture Contact Hours: 3 Lab Contact Hours: 0 Supervised work experience in the area of Business Law.
Prerequisite(s): BLAW 310 with a grade of “C” or better Restriction(s): Junior standing, 2.2 GPA
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BLAW 510 - Business Law Credit Hours: 3 Lecture Contact Hours: 3 Lab Contact Hours: 0 An in depth study of the American legal system, including related social, political and economic factors in which business entities operate. Examine the legal factors that influence the conduct of commerce, focusing upon the structure and operation of the American legal system, government regulation of business, and constitutional basis of the legal system. Topics include structure of the state and federal court system, constitutional law, administrative law, criminal law system, international law and trading system, business organizations, contracts, torts and product liability, intellectual property, and employment law.
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BLAW 515 - International Business Law Credit Hours: 3 Lecture Contact Hours: 3 Lab Contact Hours: 0 A study of the international legal environment, including the historical, social, political and economic factors, in which business entities operate on the global level. Examines the legal factors that influence and affect the conduct of international commerce, focusing on the structure and operation of the international economic and legal system and international regulation of business.
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BLAW 525 - Negotiations Credit Hours: 3 Lecture Contact Hours: 3 Lab Contact Hours: 0 Provides tools to apply necessary skills for productive negotiations. Explores the nature of negotiations, provides frameworks for building strategies for effective negotiations, and explores the nature of conflict and conflict resolution.
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BLAW 531 - Legal and Ethical Issues in Health Care Credit Hours: 3 Lecture Contact Hours: 3 Lab Contact Hours: 0 Contemporary jurisprudence governing the American health care delivery system. Examination of traditional legal and medical relationships in the context of economic and ethical rules of conduct.
Restriction(s): Admission to MBA program or permission of MBA director
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BLAW 535 - Intellectual Property and E-commerce Law Credit Hours: 3 Lecture Contact Hours: 3 Lab Contact Hours: 0 Intellectual property statutes and cases including patents, trademarks, copyrights, and trade secrets as they relate to business in general and e-commerce in particular; jurisdiction, contracts, employment relationships, privacy, security, and international law and cases involving issues that arise in e-commerce.
Prerequisite(s): MBA 503
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BLAW 540 - Employment Law Credit Hours: 3 Lecture Contact Hours: 3 Lab Contact Hours: 0 An overview of applicable labor and employment laws governing employment relationship with an emphasis on managerial responsibilities.
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BLAW 550 - Law for Entrepreneurs Credit Hours: 3 Lecture Contact Hours: 3 Lab Contact Hours: 0 Analysis of key legal aspects related to starting and growing a small business.
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Business Systems, Analysis and Technology |
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BSAT 382 - Operations Management Credit Hours: 3 Lecture Contact Hours: 3 Lab Contact Hours: 0 Analytical approach integrating operations, strategy, and information technology. Understanding, designing, managing, and quantitatively modeling operations.
Prerequisite(s): QMET 251 with a grade of “C” or better. Restriction(s): 30 hours.
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BSAT 530 - Quantitative Analysis Credit Hours: 3 Lecture Contact Hours: 3 Lab Contact Hours: 0 Application of quantitative procedures useful in business decisions including linear programming, inventory models, simulation, PERT/CPM, and queuing models. Computer-assisted analysis.
Restriction(s): Admission to MBA program or permission of MBA Director required
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QMET 510 - Data Analysis Credit Hours: 3 Lecture Contact Hours: 3 Lab Contact Hours: 0 Business application of multivariate methods, non-parametric methods, factor analysis, logistic regression, cluster analysis, and data mining procedures using a computer statistical package.
Prerequisite(s): MBA 502 or QMET 251 or STAT 214 with a grade of “C” or better Restriction(s): Admission to MBA program or permission of MBA Director required
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Chemical Engineering |
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CHEE 101 - Introduction to Chemical Engineering Credit Hours: 1 Lecture Contact Hours: 0 Lab Contact Hours: 2 Opportunities in chemical engineering and professional schools. Professionalism and ethics, basic chemical processes and professional practices.
Corequisite(s): MATH 270
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CHEE 201 - Chemical Engineering Calculations Credit Hours: 4 Lecture Contact Hours: 4 Lab Contact Hours: 0 Emphasizes development of systematic problem-solving abilities. Material and energy balances are thoroughly studied. Problems involving separation technology and chemical reaction technology are solved using both manual and software-based methods.
Prerequisite(s): CHEM 108 and MATH 270 with a grade of “C” or better
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CHEE 210 - Engineering Analysis Credit Hours: 2 Lecture Contact Hours: 1 Lab Contact Hours: 2 Development of a mathematical model.
Prerequisite(s): MATH 270 and CHEE 201 with a grade of “C” or better Restriction(s): Completion of 30 hours or more
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CHEE 302 - Transfer Operations Credit Hours: 3 Lecture Contact Hours: 3 Lab Contact Hours: 0 Heat and mass transport fundamentals with emphasis on the mathematical model.
Prerequisite(s): CHEE 201 and ENGR 305 with a grade of “C” or better
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CHEE 304 - Transport Processes Laboratory Credit Hours: 1 Lecture Contact Hours: 0 Lab Contact Hours: 3 Fundamentals of transfer and rate processes emphasized by laboratory exercises in the study of mass, momentum, and energy transfer.
Prerequisite(s): ENGR 305 with a grade of “C” or better
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CHEE 307 - Safety, Ethics, and Environmental Policy Credit Hours: 2 Lecture Contact Hours: 2 Lab Contact Hours: 0 Code of ethics and professionalism established by international engineering organizations. Strategies to manage risk and implement safety and environmental regulations in the chemical industry.
Prerequisite(s): CHEE 201 and ENGR 305 with a grade of “C” or better
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CHEE 310 - Chemical Engineering Thermodynamics Credit Hours: 3 Lecture Contact Hours: 3 Lab Contact Hours: 0 Fundamental laws of thermodynamics and applications of thermodynamic principles to industry.
Prerequisite(s): CHEE 201 and ENGR 301 both with a grade of “C” or better
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CHEE 317 - Materials of Engineering Credit Hours: 3 Lecture Contact Hours: 3 Lab Contact Hours: 0 A study of engineering materials such as ferrous and non-ferrous metals, alloys, plastics, rubber and ceramics, their structures, properties, behavior, heat treatment, phase diagrams, and an introduction to the theory of corrosion.
Prerequisite(s): CHEM 107 and MATH 270 with a grade of “C” or better
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CHEE 400G - Process Simulation Credit Hours: 3 Lecture Contact Hours: 3 Lab Contact Hours: 0 Practice in mathematical modeling and computer simulation of chemical process systems. Emphasis on solutions of differential equations as well as optimization. Preparation and execution of computer programs on digital computers.
Prerequisite(s): MATH 350 and CHEE 210 with a grade of “C” or better. Corequisite(s): CHEE 420G Restriction(s): Senior standing
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CHEE 401 - Stage Operations Design Credit Hours: 3 Lecture Contact Hours: 3 Lab Contact Hours: 0 Applications of the fundamentals of transport processes to chemical engineering computations in stage operations, with particular emphasis on design. Problems illustrate the design of such unit operations as distillation, gas absorption and extraction.
Prerequisite(s): CHEE 302 , CHEE 310 , and CHEE 405G with a grade of “C” or better
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CHEE 402G - Corrosion Engineering Credit Hours: 3 Lecture Contact Hours: 3 Lab Contact Hours: 0 Course is designed to cover all important aspects of corrosion engineering and corrosion science, including corrosion principles of 8 forms of corrosion, noble metals, “exotic” metals, non-metallics, coatings, mechanical properties, corrosion testing, and modern corrosion theory.
Restriction(s): Permission of instructor required
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CHEE 403 - Chemical Engineering Laboratory I Credit Hours: 2 Lecture Contact Hours: 1 Lab Contact Hours: 3 Calibration of flow and measurement devices, filtration, fluidization, and heat transfer, with emphasis on safety and environmental practices.
Prerequisite(s): CHEE 302 , CHEE 405G and ENGR 305 with a grade of “C” or better
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CHEE 404 - Chemical Engineering Laboratory II Credit Hours: 2 Lecture Contact Hours: 0 Lab Contact Hours: 3 Practical experience of various types of unit operations, such as distillation, evaporation, heat exchangers, gas absorption, extraction and reactors. Open-ended problem solving with emphasis on safety and environmental practice.
Prerequisite(s): CHEE 401 , CHEE 403 , and CHEE 420G with a grade of “C” or better
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CHEE 405G - Process Heat Transfer Credit Hours: 3 Lecture Contact Hours: 3 Lab Contact Hours: 0 Conductive, convective, and radiative heat transfers; design rating of heat transfer equipment.
Prerequisite(s): ENGR 301 and ENGR 305 with a grade of “C” or better Corequisite(s): CHEE 302
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CHEE 407 - Chemical Engineering Plant Design Credit Hours: 3 Lecture Contact Hours: 3 Lab Contact Hours: 0 Introduction to chemical plant design based on the principles of unit operations and process studies and their interrelationships.
Prerequisite(s): CHEE 302 , CHEE 310 ; CHEE 405G ; and ENGR 305 with a grade of “C” or better
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CHEE 408G - Computer-Aided Process Design Credit Hours: 3 Lecture Contact Hours: 3 Lab Contact Hours: 0 Process and plant design, optimization, cost estimation and economic analysis for chemical process industries. Studies include theories, industrial practices and computer-aided design technology. Students are required to make a technical presentation of their work.
Prerequisite(s): CHEE 401 , CHEE 407 , CHEE 420G with a grade of “C” or better
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CHEE 411 - Chemical Engineering Projects I Credit Hours: 1-3 Lecture Contact Hours: 1-3 Lab Contact Hours: 0 Study of an individual problem in chemical engineering under the direction of a faculty member. Staff conferences held with the individual student for discussion of the progress of the study.
Restriction(s): Permission of department head required
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CHEE 412 - Chemical Engineering Projects II Credit Hours: 1-3 Lecture Contact Hours: 1-3 Lab Contact Hours: 0 Study of an individual problem in chemical engineering under the direction of a faculty member. Staff conferences held with the individual student for discussion of the progress of the study.
Restriction(s): Permission of department head required
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CHEE 413G - Process Control in Chemical Engineering Credit Hours: 3 Lecture Contact Hours: 2 Lab Contact Hours: 3 Process instrumentation, process dynamic models, Laplace transform analysis of feedback and feed forward control systems. Frequency response methods, computer simulation of process control systems.
Prerequisite(s): CHEE 302 , CHEE 405G ; and MATH 350 with a grade of “C” or better
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CHEE 414 - Chemical Engineering Seminar Credit Hours: 1 Lecture Contact Hours: 1 Lab Contact Hours: 0 Latest advances and developments in chemical engineering. Each student is assigned a subject and serves as moderator for the group discussion.
Restriction(s): Senior standing and permission of department head required
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CHEE 415G - Petrochemical and Hydrocarbon Processing Credit Hours: 3 Lecture Contact Hours: 2 Lab Contact Hours: 3 Unit processes in petroleum refining and production of petrochemicals, polymers and related products
Prerequisite(s): CHEE 401 , and CHEM 231 with a grade of “C” or better
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CHEE 416G - Biochemical Engineering Credit Hours: 3 Lecture Contact Hours: 3 Lab Contact Hours: 0 Chemical engineering principles will be used with biology and chemistry to mathematically describe and model various processes in the human body. The computer will be used as a tool for the modeling.
Restriction(s): Permission of instructor required
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CHEE 417G - Introduction to Polymer Science and Engineering Credit Hours: 3 Lecture Contact Hours: 3 Lab Contact Hours: 0 Introduction to the fundamentals of polymer science and engineering with an emphasis on concepts unique to polymetric materials. This course will provide a basic understanding for those interested in pursuing career paths involving the synthesis, production, or utilization of polymetric materials.
Prerequisite(s): CHEE 317 with a grade of “C” or better or permission of instructor.
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CHEE 418G - Industrial Waste Treatment Credit Hours: 3 Lecture Contact Hours: 3 Lab Contact Hours: 0 Design and modeling of chemical and biochemical processes for industrial waste treatments, as an integrated part of plant design. Studies of air and water pollution controls, industrial solid waste disposal, and recent environmental protection regulations are included.
Restriction(s): Permission of instructor required
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CHEE 420G - Chemical Reaction Engineering Credit Hours: 3 Lecture Contact Hours: 3 Lab Contact Hours: 0 Kinetic behavior of chemical processes, determination and prediction of specific reaction rate and order, catalysis, relationships between chemical and physical variables in heterogeneous systems as these influence the design of chemical reactors.
Prerequisite(s): CHEE 310 ; CHEM 302 ; and MATH 350 with a grade of “C” or better
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CHEE 422G - Biomaterials and Biomedical Engineering Credit Hours: 3 Lecture Contact Hours: 3 Lab Contact Hours: 0 Survey of materials intended for biological applications, materials for medical implants and appliances will be covered. Discussions of various aspects pertaining to the selection, processing, testing and performance of biomedical materials. The biocompatibility and applicability of metallic, polymeric, ceramic and other materials are discussed.
Prerequisite(s): CHEE 317 with a grade of “C” or better or permission from instructor.
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CHEE 425 - Pharmaceutical Operations Credit Hours: 3 Lecture Contact Hours: 3 Lab Contact Hours: 0 Chemical Engineering in the pharmaceutical industry including manufacturing techniques with an emphasis on mass transfer and thermodynamics.
Prerequisite(s): CHEE 302 and CHEE 310 both with a “C” or better
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CHEE 427G - Advanced Materials Science and Engineering Credit Hours: 3 Lecture Contact Hours: 3 Lab Contact Hours: 0 Covers the structure-property-process-performance relationship in advanced materials. Major emphasis on structure of advanced materials, physical basis of modulus, phase transformations, alloy design, advanced metallics, advanced polymers and composites.
Prerequisite(s): CHEE 317 with a grade of “C” or better
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CHEE 440G - Renewable Energy Credit Hours: 3 Lecture Contact Hours: 3 Lab Contact Hours: 0 Course will demonstrate sound theoretical knowledge in the production of renewable energy and its economic and technological challenges. Students will acquire the ability to understand, select and design economically viable processes for the conversion of biomass, waste and natural resources into energy.
Prerequisite(s): MATH 270 , MATH 301 , CHEE 201 , CHEE 302 and CHEE 310 with a grade of “C” or better.
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CHEE 450G - Solid-State Electrochemistry Credit Hours: 3 Lecture Contact Hours: 3 Lab Contact Hours: 0 Application of materials chemistry and solid-state physics to the development and evaluation of the electrochemical energy devices, focusing on fuel cells and batteries.
Corequisite(s): CHEE 317
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CHEE 502 - Advanced Corrosion Engineering Credit Hours: 3 Lecture Contact Hours: 3 Lab Contact Hours: 0 Designed to cover all important aspects of corrosion in the oilfield. Emphasis will be placed on corrosion related to well completion, production, and transportation. Specific areas include carbon and alloy steels, elastomers, coatings, inhibitors, methods of corrosion monitoring, and phase behavior aspects of deep, hot wells.
Restriction(s): Permission of instructor required
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CHEE 503 - Heat and Mass Transfer Credit Hours: 3 Lecture Contact Hours: 3 Lab Contact Hours: 0 Theories and engineering applications of heat and mass transfer are presented. Design equations and data for process and equipment designs are discussed. Applications in energy conservation, fuel combustion, pollution monitoring and control are included in presentation.
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CHEE 512 - Advanced Thermodynamics II Credit Hours: 3 Lecture Contact Hours: 3 Lab Contact Hours: 0 Phase equilibrium of mixtures at high pressures will be studied and modeled on the computer. Some emphasis will also be given to chemical reactions.
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CHEE 514 - Graduate Seminar Credit Hours: 1 Lecture Contact Hours: 1 Lab Contact Hours: 0 Technical presentations by guests and graduate students. Discussion and interchange of ideas.
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CHEE 527 - Nanomaterials and Nanostructures Credit Hours: 3 Lecture Contact Hours: 3 Lab Contact Hours: 0 Origin and theoretical basis of nanotechnology related to materials, processing of nanostructured materials and composites for structural and functional applications, impact on material performance.
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CHEE 530 - High Pressure Phase Equilibrium Credit Hours: 3 Lecture Contact Hours: 3 Lab Contact Hours: 0 Application of relationships for high pressure equilibrium. Computer usage required.
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CHEE 535 - Multiphase Flow in Pipes Credit Hours: 3 Lecture Contact Hours: 3 Lab Contact Hours: 0 Mathematical and computer approach to analysis of multiphase fluid flow in pipes and flow through restrictions.
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CHEE 541 - Physical Properties of Polymers Credit Hours: 3 Lecture Contact Hours: 3 Lab Contact Hours: 0 Characterization and applications of the physical properties of polymeric materials. Includes thermal, flow, mechanical, electrical, optical and environmental properties.
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CHEE 599 - Thesis Research and Thesis Credit Hours: 3-12 Lecture Contact Hours: 3-12 Lab Contact Hours: 0 |
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CHEE 601 - Transport Phenomena Credit Hours: 3 Lecture Contact Hours: 3 Lab Contact Hours: 0 Comprehensive analysis of the physical laws which govern the transport of momentum, energy, and mass. The mathematical model is developed on the basis of the general case. Special cases, including the steady state, are treated only as ramifications of the general case. Problems illustrate practical applications of the models and methods developed.
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CHEE 610 - Advanced Thermodynamics I Credit Hours: 3 Lecture Contact Hours: 3 Lab Contact Hours: 0 Theoretical background of phase behavior and phase equilibrium for pure components and mixtures will be addressed. Various models which help describe PVT behavior on a molecular level will be discussed.
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CHEE 616 - Advanced Biomaterials Credit Hours: 3 Fundamental performance of biomaterials. Topics such as biological processes, developing biomedical instrumentation, and smart biomaterials will be covered. The emphasis also include structure-property-function relationship of various biomaterials such as polymers, ceramics, and metals. Students will be exposed to a highly interdisciplinary field and gain experience at the intersection of engineering and biological systems, advancing their scientific knowledge in specific areas.
Prerequisite(s): CHEE 317 or permission from instructor.
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CHEE 617 - Physical Polymer Science Credit Hours: 3 Lecture Contact Hours: 3 Lab Contact Hours: 0 Physical science of polymers with an emphasis on structure-property relationships including how the unique chemistries, morphologies, thermodynamics of polymer materials affects their processing, application, and life cycle.
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CHEE 620 - Advanced Reactor Design Credit Hours: 3 Lecture Contact Hours: 3 Lab Contact Hours: 0 Application of advanced concepts to the design of reactors.
Prerequisite(s): CHEE 420G
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CHEE 680 - Nanoscience and Nanotechnology Credit Hours: 3 Lecture Contact Hours: 3 Lab Contact Hours: 0 Introduction of basic nanoscale phenomena, the properties of nanomaterials, advanced nanotechnology processing methods for synthesizing nanomaterials, methods for characterizing the structure and properties of nanomaterials, current and emerging applications for nanomaterials and nanotechnology.
Prerequisite(s): CHEM 108 and PHYS 201
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CHEE 697 - Special Topics Credit Hours: 1-3 Lecture Contact Hours: 1-3 Lab Contact Hours: 0 |
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CHEE 899 - Examinations Only Credit Hours: 3 Lecture Contact Hours: 3 Lab Contact Hours: 0 Required of all graduate non-thesis students taking examinations, oral and/or written, who are not registered for any other course.
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Chemistry |
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CHEM 101 - Survey of Chemistry I Credit Hours: 3 Lecture Contact Hours: 3 Lab Contact Hours: 0 General Education Core Curriculum: Natural Sciences, Physical Sciences
Survey of the basic principles of chemistry as it applies to everyday life.
LCCN: CCEM 1013 Course Notes: Credit will be awarded either for CHEM 101, CHEM 105 , or CHEM 107 . Credit awarded for only one of these courses. |
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CHEM 102 - Survey of Chemistry II Credit Hours: 3 Lecture Contact Hours: 3 Lab Contact Hours: 0 General Education Core Curriculum: Natural Sciences, Physical Sciences
Continuation of a survey of principles of chemistry as it applies to everyday life.
Prerequisite(s): CHEM 101 LCCN: CCEM 1103
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CHEM 105 - Honors General Chemistry I Credit Hours: 3 Lecture Contact Hours: 3 Lab Contact Hours: 0 General Education Core Curriculum: Natural Sciences, Physical Sciences
Principles and problems of chemistry. Designed for students of high proficiency.
Prerequisite(s): Minimum ACT score of 23 or SAT Math Score of 540 or credit in MATH 103 and MATH 104 or MATH 105 with a grade of “C” or better Course Notes: Credit for CHEM 105 prohibits earning additional degree credit in CHEM 101 , CHEM 107 , or CHEM 212 . Students must be in the Honor’s College to enroll. |
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CHEM 106 - Honors General Chemistry II Credit Hours: 3 Lecture Contact Hours: 3 Lab Contact Hours: 0 General Education Core Curriculum: Natural Sciences, Physical Sciences
Principles and problems of chemistry. Designed for students of high proficiency.
Prerequisite(s): CHEM 105 or CHEM 107 , or permission of instructor required Restriction(s): Student must be in Honor’s College to enroll.
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CHEM 107 - General Chemistry I Credit Hours: 3 Lecture Contact Hours: 3 Lab Contact Hours: 0 General Education Core Curriculum: Natural Sciences, Physical Sciences
Principles and problems of chemistry.
Prerequisite(s): Minimum ACT Math score of 23, or SAT Math score of 570, or credit in MATH 103 and MATH 104 or MATH 105 or MATH 109 or MATH 270 with a grade of “C” or better. LCCN: CCEM 1123 Course Notes: Credit for CHEM 107 prohibits earning additional degree credit in CHEM 101 , CHEM 105 , or CHEM 212 . |
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CHEM 108 - General Chemistry II Credit Hours: 3 Lecture Contact Hours: 3 Lab Contact Hours: 0 General Education Core Curriculum: Natural Sciences, Physical Sciences
Continuation of principles and problems of chemistry.
Prerequisite(s): CHEM 105 or CHEM 107 LCCN: CCEM 1133
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CHEM 112 - Introductory Chemistry Laboratory Credit Hours: 1 Lecture Contact Hours: 0 Lab Contact Hours: 3 General Education Core Curriculum: Natural Sciences, Physical Sciences
Experiments in general chemistry, organic chemistry, and biochemistry. Laboratory is intended for non-science majors.
Prerequisite(s): CHEM 101 or CHEM 107 LCCN: CCEM 1111
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CHEM 115 - General Chemistry Laboratory Credit Hours: 2 Lecture Contact Hours: 0 Lab Contact Hours: 6 General Education Core Curriculum: Natural Sciences, Physical Sciences
Pre/Corequisite(s): CHEM 106 or CHEM 108 LCCN: CCEM 1132
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CHEM 121 - Survey of General, Organic, and Biological Chemistry I Credit Hours: 1 Lecture Contact Hours: 1 Lab Contact Hours: 0 General Education Core Curriculum: Natural Sciences, Physical Sciences
General Chemistry with a focus on health care.
Prerequisite(s): MATH 103 and MATH 104 Pre/Corequisite(s): MATH 105 Restriction(s): Students must be enrolled in Online RN-to-BSN Program to register for this course.
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CHEM 122 - Survey of General, Organic, and Biological Chemistry II Credit Hours: 2 Lecture Contact Hours: 2 Lab Contact Hours: 0 General Education Core Curriculum: Natural Sciences, Physical Sciences
Organic and Biological Chemistry with a focus on health care.
Prerequisite(s): CHEM 121 Restriction(s): Students must be enrolled in Online RN-to-BSN Program to register for this course.
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CHEM 123 - Survey of General, Organic and Biological Chemistry Credit Hours: 3 Lecture Contact Hours: 3 Lab Contact Hours: 0 General Education Core Curriculum: Natural Sciences, Physical Sciences
Survey of general, organic and biological chemistry with a focus toward health care.
Prerequisite(s): Minimum ACT Math score of 21, or SAT Math score of 500, or MATH 103 and MATH 104 Pre/Corequisite(s): MATH 105 LCCN: CCEM 1003
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CHEM 212 - Survey of Chemistry for Education Majors Credit Hours: 3 Lecture Contact Hours: 2 Lab Contact Hours: 2 General Education Core Curriculum: Natural Sciences, Physical Sciences
For elementary and non-science secondary school teachers. Understanding and application of basic concepts of chemistry through lectures and experiments.
Course Notes: Credit for CHEM 212 prohibits earning additional degree credit in CHEM 101 , CHEM 105 , or CHEM 107 . |
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CHEM 221 - Analytical Chemistry Credit Hours: 3 Lecture Contact Hours: 3 Lab Contact Hours: 0 General Education Core Curriculum: Natural Sciences, Physical Sciences
Theories and applications.
Prerequisite(s): CHEM 106 or CHEM 108 with a grade of “C” or better or permission of instructor required LCCN: CCEM 2303
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CHEM 222 - Analytical Chemistry Laboratory Credit Hours: 2 Lecture Contact Hours: 0 Lab Contact Hours: 4 General Education Core Curriculum: Natural Sciences, Physical Sciences
Prerequisite(s): CHEM 115 Pre/Corequisite(s): CHEM 221 LCCN: CCEM 2301
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CHEM 231 - Organic Chemistry I Credit Hours: 3 Lecture Contact Hours: 3 Lab Contact Hours: 0 General Education Core Curriculum: Natural Sciences, Physical Sciences
Structure, nomenclature, preparation, reactions, stereochemistry and mechanisms of reactions of organic compounds.
Prerequisite(s): CHEM 106 or CHEM 108 LCCN: CCEM 2213
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CHEM 232 - Organic Chemistry II Credit Hours: 3 Lecture Contact Hours: 3 Lab Contact Hours: 0 General Education Core Curriculum: Natural Sciences, Physical Sciences
Continuation of structure, nomenclature, preparation, reactions, stereochemistry and mechanisms of reactions of organic compounds.
Prerequisite(s): CHEM 231 LCCN: CCEM 2223
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CHEM 233 - Organic Chemistry Laboratory I Credit Hours: 1 Lecture Contact Hours: 0 Lab Contact Hours: 3 General Education Core Curriculum: Natural Sciences, Physical Sciences
Prerequisite(s): CHEM 106 or CHEM 108 and CHEM 115 Pre/Corequisite(s): CHEM 231 or CHEM 240 LCCN: CCEM 2211
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CHEM 234 - Organic Chemistry Laboratory II Credit Hours: 2 Lecture Contact Hours: 0 Lab Contact Hours: 4 General Education Core Curriculum: Natural Sciences, Physical Sciences
Prerequisite(s): CHEM 233 Pre/Corequisite(s): CHEM 232 LCCN: CCEM 2221
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CHEM 240 - Introductory Organic Chemistry Credit Hours: 3 Lecture Contact Hours: 3 Lab Contact Hours: 0 General Education Core Curriculum: Natural Sciences, Physical Sciences
Prerequisite(s): CHEM 101 or CHEM 108 LCCN: CCEM 2203
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CHEM 251 - Descriptive Inorganic Chemistry Credit Hours: 3 Lecture Contact Hours: 3 Lab Contact Hours: 0 General Education Core Curriculum: Natural Sciences, Physical Sciences
Inorganic chemical reactions.
Prerequisite(s): CHEM 108 and CHEM 115
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CHEM 252 - Inorganic Chemistry Laboratory I Credit Hours: 2 Lecture Contact Hours: 0 Lab Contact Hours: 4 General Education Core Curriculum: Natural Sciences, Physical Sciences
Inorganic chemical reactions. Physical measurements on inorganic compounds.
Prerequisite(s): CHEM 115 with a grade of “C” or better Pre/Corequisite(s): CHEM 251
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CHEM 270 - Chemical Literature Credit Hours: 1 Lecture Contact Hours: 1 Lab Contact Hours: 0 General Education Core Curriculum: Natural Sciences, Physical Sciences
Use of chemical journals and other references.
Prerequisite(s): CHEM 231 Restriction(s): Chemistry majors only
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CHEM 280 - Introduction to Biochemistry Credit Hours: 3 Lecture Contact Hours: 3 Lab Contact Hours: 0 General Education Core Curriculum: Natural Sciences, Physical Sciences
Prerequisite(s): CHEM 240 Corequisite(s): CHEM 231 or CHEM 232
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CHEM 301 - Physical Chemistry I Credit Hours: 3 Lecture Contact Hours: 3 Lab Contact Hours: 0 General Education Core Curriculum: Natural Sciences, Physical Sciences
Study of laws and theories relating to energy changes of physical and chemical transformations; structure and physical states of matter, chemical thermodynamics, properties of solutions, chemical equilibria, electrochemistry and kinetics.
Prerequisite(s): CHEM 108 , PHYS 201 and MATH 301 with a grade of “C” or better
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CHEM 302 - Physical Chemistry II Credit Hours: 3 Lecture Contact Hours: 3 Lab Contact Hours: 0 General Education Core Curriculum: Natural Sciences, Physical Sciences
Study of laws and theories relating to energy changes of physical and chemical transformations; structure and physical states of matter, chemical thermodynamics, properties of solutions, chemical equilibria, electrochemistry and kinetics.
Prerequisite(s): CHEM 108 , PHYS 201 and MATH 301 with a grade of “C” or better
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CHEM 303 - Introductory Physical Chemistry Credit Hours: 3 Lecture Contact Hours: 3 Lab Contact Hours: 0 General Education Core Curriculum: Natural Sciences, Physical Sciences
Brief survey of thermodynamics, electrochemistry, kinetics and molecular structure.
Prerequisite(s): CHEM 106 or CHEM 108 with a grade of “C” or better, MATH 250 or MATH 270
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CHEM 311 - Physical Chemistry Laboratory I Credit Hours: 2 Lecture Contact Hours: 0 Lab Contact Hours: 4 General Education Core Curriculum: Natural Sciences, Physical Sciences
Prerequisite(s): CHEM 115 ; CHEM 301 or CHEM 303
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CHEM 312 - Physical Chemistry Laboratory II Credit Hours: 2 Lecture Contact Hours: 0 Lab Contact Hours: 4 General Education Core Curriculum: Natural Sciences, Physical Sciences
Prerequisite(s): CHEM 302 and CHEM 311
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CHEM 317 - Biochemistry I Credit Hours: 3 Lecture Contact Hours: 3 Lab Contact Hours: 0 General Education Core Curriculum: Natural Sciences, Physical Sciences
Chemistry of carbohydrates, lipids, proteins, enzymes and metabolism.
Pre/Corequisite(s): CHEM 232 LCCN: CBIO 3403
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CHEM 319 - Biochemistry Laboratory Credit Hours: 2 Lecture Contact Hours: 0 Lab Contact Hours: 4 General Education Core Curriculum: Natural Sciences, Physical Sciences
Prerequisite(s): CHEM 234 Pre/Corequisite(s): CHEM 317 LCCN: CBIO 3401
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CHEM 320 - Chemistry of Macromolecules Credit Hours: 3 Lecture Contact Hours: 3 Lab Contact Hours: 0 General Education Core Curriculum: Natural Sciences, Physical Sciences
Essential topics include the chemistry and properties of all macromolecules, polymerization methods, mechanisms and kinetics. Morphology and physical properties of polymers, and macromolecules. Important industrial polymer materials and applications are included.
Prerequisite(s): CHEM 108 and CHEM 231 with a “C” or better in both.
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CHEM 362 - Undergraduate Research I Credit Hours: 1-6 Lecture Contact Hours: 1-6 Lab Contact Hours: 0 General Education Core Curriculum: Natural Sciences, Physical Sciences
Collaboration with a faculty member on a chemistry research project. Prior to registering, the student must find a faculty member willing to sponsor a research project.
Repeatable Course: May be repeated for a total of no more than six (6) credits.
Prerequisite(s): 8 hours of chemistry and permission of instructor required
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CHEM 401G - Structure of Matter Credit Hours: 2 Lecture Contact Hours: 2 Lab Contact Hours: 0 General Education Core Curriculum: Natural Sciences, Physical Sciences
Topics include quantum mechanics, atomic structure, MO theory, Group theory and spectroscopy/photochemistry.
Prerequisite(s): PHYS 202 or PHYS 208 Pre/Corequisite(s): MATH 302
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CHEM 402G - Chemistry of Materials Credit Hours: 3 Lecture Contact Hours: 3 Lab Contact Hours: 0 General Education Core Curriculum: Natural Sciences, Physical Sciences
Properties of solids based on their fundamental structure.
Prerequisite(s): CHEM 302
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CHEM 404 - Advanced Physical Chemistry Credit Hours: 2 Lecture Contact Hours: 2 Lab Contact Hours: 0 General Education Core Curriculum: Natural Sciences, Physical Sciences
Prerequisite(s): CHEM 302 with grade of “C” or better
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CHEM 405 - Internship in Chemistry Credit Hours: 2-3 Lecture Contact Hours: 2-3 Lab Contact Hours: 0 General Education Core Curriculum: Natural Sciences, Physical Sciences
Supervised work experience in chemistry.
Repeatable Course: May be repeated for a total six (6) credits.
Restriction(s): Upper division standing, 2.5 GPA and prior approval of advisor and sponsoring company required. Chemistry majors only.
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CHEM 417G - Biochemistry II Credit Hours: 3 Lecture Contact Hours: 3 Lab Contact Hours: 0 General Education Core Curriculum: Natural Sciences, Physical Sciences
Metabolism, nucleic acids, protein synthesis, and other topics.
Prerequisite(s): CHEM 317 LCCN: CBIO 4413
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CHEM 418G - Special Topics in Biochemistry Credit Hours: 3 Lecture Contact Hours: 3 Lab Contact Hours: 0 General Education Core Curriculum: Natural Sciences, Physical Sciences
Advanced topics in metabolism, medical biochemistry, drug-biomolecule interactions, nucleic acid technology, physical biochemistry, etc.
Prerequisite(s): CHEM 417G
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CHEM 430G - Instrumental Analysis Credit Hours: 5 Lecture Contact Hours: 3 Lab Contact Hours: 4 General Education Core Curriculum: Natural Sciences, Physical Sciences
Prerequisite(s): CHEM 221 and CHEM 222 ; CHEM 301 or CHEM 303
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CHEM 432G - Advanced Organic Chemistry Credit Hours: 3 Lecture Contact Hours: 3 Lab Contact Hours: 0 General Education Core Curriculum: Natural Sciences, Physical Sciences
Topics include organic synthesis, reaction mechanisms, new synthetic methodology, stereochemistry/stereoselectivity and bonding molecular structure.
Prerequisite(s): CHEM 232 Pre/Corequisite(s): CHEM 301 or CHEM 303 or permission of instructor required
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CHEM 451G - Inorganic Chemistry Credit Hours: 3 Lecture Contact Hours: 3 Lab Contact Hours: 0 General Education Core Curriculum: Natural Sciences, Physical Sciences
Advanced topics in inorganic chemistry including coordination chemistry, bioinorganic, organometallic, nanotechnology, and bonding theories.
Prerequisite(s): CHEM 251 and 231 Pre/Corequisite(s): CHEM 302
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CHEM 452 - Inorganic Chemistry Laboratory Credit Hours: 2 Lecture Contact Hours: 0 Lab Contact Hours: 4 General Education Core Curriculum: Natural Sciences, Physical Sciences
Prerequisite(s): CHEM 252 and CHEM 233 Pre/Corequisite(s): CHEM 451G
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