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2014-2015 Undergraduate and Graduate Academic Catalog 
    
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2014-2015 Undergraduate and Graduate Academic Catalog [ARCHIVED CATALOG]

Course Descriptions


To enroll in any 400-level course, students must be admitted to the Upper Division; to enroll in a 400(G)-level course in which there are graduate students, students must have junior or higher standing.

*LCCN indicates Louisiana Common Course Number.
 

Electrical and Computer Engineering
  

  • EECE 585 - Mobile Graphics Programming

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    2D and 3D graphics for movile devices. Standards, performance issues, computational and memory constraints.

    Rstr: Permission of instructor required.
  

  • EECE 590 - Special Topics

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    New and emerging topics in electrical engineering.

    Rstr: Permission of instructor required.
  

  • EECE 597 - Directed Individual Study

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Guided individual study and research in selected topics.
  

  • EECE 598 - Directed Individual Study

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Guided individual study and research in selected topics.
  

  • EECE 599 - Thesis Research and Thesis

    1-9 Credit(s).

    Thesis research and thesis.

    Grading Option: Grades: S, U, W
  

  • EECE 600 - Advanced Topics in Random Processes

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Selected topics in advanced stochastic processes and applications.

    Prereq: EECE 500 
  

  • EECE 601 - Linear Filtering and Estimation

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    State-space models for linear dynamical systems; Kalman filtering; estimation theory and applications in control and communication systems.

    Prereq: EECE 501 
  

  • EECE 610 - Advanced Topics in Communication Networks

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Queuing theoretic modeling and analysis of network performance.

    Prereq: EECE 510 
  

  • EECE 620 - Current Topics in Information and Coding Theory

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Selected topics from current literature.

    Prereq: EECE 521 
  

  • EECE 630 - Advanced Optical Transmission

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Advanced coding, modulation and multiple access methods for ultra high-speed optical transmission.

    Prereq: EECE 530 
  

  • EECE 631 - Advances in Photonic Devices

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Selected readings from current literature in photonic communications devices.

    Prereq: EECE 531 
  

  • EECE 640 - Broadband Wireless Communication Systems

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Advanced coding and modulcation systems, space-time coding, MIMO channels, cooperative communications, network coding, emerging standards.

    Prereq: EECE 540 
  

  • EECE 641 - Cognitive Radios

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Cognitive and software radios, architectures and implementations, standards and appications.

    Prereq: EECE 540 
  

  • EECE 642 - MIMO Wireless Channels and Space-Time Coding

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    MIMO channel modeling, capacity analysis, space-time coding, applications.

    Prereq: EECE 540 
  

  • EECE 650 - Advanced Control Systems

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Linear and non-linear dynamical systems, filtering, estimation and prediction, applications.

    Prereq: EECE 550 
  

  • EECE 651 - Advanced Topics in Sensors and Control

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Selected readings in sensors and controls from current literature.

    Prereq: EECE 551 
  

  • EECE 660 - Solid State Physics for Devices

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Rigorous application of principles of solid-state physics to electronic and photonic devices.

    Prereq: EECE 560 
  

  • EECE 661 - Introduction to Quantum Devices

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Applications of quantum principles to solid-state devices.

    Prereq: EECE 470  or equivalent course.
  

  • EECE 662 - Electronic Devices for Communications II

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Physical theory and operation of Bipolor junction transistors and RF performance for wireless lightwave applications.

    Prereq: EECE 560 
  

  • EECE 663 - Fluctuation Phenomena

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Fundamental study of fluctuation phenomena in solid-state devices which limit device performance for communication applications.

    Prereq: EECE 500 
  

  • EECE 670 - Advanced Topics in Energy Systems

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Case studies and current readings in emerging trends in energy systems, alternative and hybrid energy sources and smart energy grids.

    Prereq: EECE 570 
  

  • EECE 690 - Special Topics

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    New and advanced topics in electrical engineering.

    Rstr: Permission of instructor required.
  

  • EECE 699 - Dissertation Research and Dissertation

    1-24 Credit(s).

    Dissertation research and dissertation.

    Grading Option: Grades: S, U, W
  

  • EECE 899 - Examination Only

    3 Hour(s) Lecture.

    Required of all graduate non-thesis students taking examinations, oral and/or written, are not registered for any other course.

    Grading Option: Grades: S, U, W

General Engineering

General Engineering Classes are taught by faculty from various departments in the College of Engineering.
  

  • ENGR 104 - Industrial Arts Drawing

    3 Credit(s). 2 Hour(s) Lab. 2 Hour(s) Lecture.

    Introduces the student to the techniques of machine, architectural, and detail drawing. Designed specifically for those who plan to teach graphics.
  

  • ENGR 105 - Geological Drawing

    1 Credit(s). 2 Hour(s) Lab. 0 Hour(s) Lecture.

    Representation of land forms by means of isometric and perspective block diagramming.

  

  • ENGR 115 - Introduction to Engineering, Honors

    2 Credit(s). 2 Hour(s) Lab. 1 Hour(s) Lecture.

    Introduction to the historical evolution of Engineering. Topics such as basic programming, word processing, spreadsheet analysis, and programmable calculators will be explored in lecture and laboratory. Students will choose a special project in the department of their choice.

    Prereq: Admission to MATH 110  or completion of high school trigonometry.
  

  • ENGR 201 - Electrical Circuits

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Analysis of AC and DC electrical circuits using fundamental laws of electricity; study of digital techniques including number systems, logic gates, and circuits, microcomputer organization; study of three phase electrical circuits, motors, transformers and generators.

    Prereq: PHYS 201 .
  

  • ENGR 210 - Engineering Analysis

    2 Credit(s). 2 Hour(s) Lab. 1 Hour(s) Lecture.

    Engineering problems analyzed and solutions achieved using VISUAL BASIC. Discussion of the physical problem leads to a mathematical model, from which a computer simulation is developed. Basic numerical methods are used to solve problems.

    Prereq: MATH 270 .
    Rstr: Sophomore standing.
  

  • ENGR 211 - Statics

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Static systems of forces, vectors, moments, couples, centroids, center of gravity, friction, and moment of inertia.

    Prereq: PHYS 201  with “C” or better.
  

  • ENGR 218 - Statics and Strength of Materials

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Simplification of force systems, equilibrium of particles and rigid bodies, friction, centroids and moments of inertia. Load classification, normal and shearing stresses and strains, displacements and stresses due to axial, torsional, and flexural, and combined loadings.

    Prereq: PHYS 201 .
  

  • ENGR 219 - Mechanics of Materials

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Load classification, normal and shearing stresses and strains, thermal effects, material properties, displacements and stresses due to axial, torsional, flexural, and combined loadings, shear and moment equations and diagrams, statically indeterminate elements; columns under centric and eccentric loadings.

    Prereq: ENGR 211  or ENGR 218  with a grade of “C” or better.
  

  • ENGR 301 - Thermodynamics

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Laws of thermodynamics, available energy, mixtures, thermodynamic properties of matter, and applications to engineering systems.

    Prereq:  , CHEM 108  or PHYS 201 .
  

  • ENGR 302 - Honors Thermodynamics

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Laws of thermodynamics, available energy, mixtures, thermodynamic properties of matter, and applications to engineering systems.

    Prereq: MATH 270 , CHEM 108 , or PHYS 201  with a GPA of 3.2 of greater.
  

  • ENGR 304 - Fluid Mechanics

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Static and dynamic behavior of incompressible fluids. Continuity, energy and momentum equations, using the control volume approach. Dimensional analysis, similitude and model testing laws. Steady, incompressible fluid flow in series, parallel, and branching pressure conduits. Turbulent and laminar boundary layer concepts.

    Prereq: ENGR 211 .
    Pre/Coreq: ENGR 313 .
  

  • ENGR 305 - Transport Phenomena

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Basic theories of fluid flow, heat transfer, and mass transfer; compressible and incompressible fluid flow, rheological equations of Newtonian and non-Newtonian fluids, concepts of laminar and turbulent flows, introductions of two-phase flow and boundary layer theory, flow measurements, hydraulic machinery; conductive, convective, and radioactive heat transfer, heat exchangers; diffusion.

    Coreq: ENGR 301 .
  

  • ENGR 310 - Engineering Methods and Analysis

    2 Credit(s). 2 Hour(s) Lab. 1 Hour(s) Lecture.

    Solutions are obtained and evaluated in light of engineering practice.

    Prereq: ENGR 210 .
    Coreq: MATH 350 .
  

  • ENGR 311 - Engineering Data Analysis

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Analysis and presentation of engineering data, including compiling, evaluation, refining, and smoothing of data; presentation of data and its utilization in engineering reports; objectives, format, preparation and use of detailed engineering reports and their presentation; analysis and use of information retrieval systems for engineering data, papers, reports and subject matter.

  

  • ENGR 313 - Dynamics

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Kinematics and kinetics of particles and rigid bodies; Newton’s Laws of Motion; work and energy principles; impulse and momentum; and applications to two and three dimensional problems.

    Prereq: ENGR 211  with a grade of “C” or better.
  

  • ENGR 315 - Technology and Society

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Study of the interactions of technology and society for technical and non-technical students; the role that technological change plays in shaping their lives. Assessment of contemporary technologies in terms of social and environmental consequence.

    Rstr: Junior standing.
  

  • ENGR 317 - Materials and Manufacturing Processes

    3 Credit(s). 2 Hour(s) Lab. 2 Hour(s) Lecture.

    Studies on engineering materials, material selection, material testing, and the processes relating to manufacturing of industrial products such as material shaping, fasteners and bondings, fabrication techniques, and heat treating methods.

    Coreq: ENGR 203.
    Formerly MCHE 364
  

  • ENGR 397 - Engnineering Co-Op I

    1-3 Credit(s).

    Rstr: Permission of the department head required.
  

  • ENGR 398 - Engnineering Co-Op II

    1-3 Credit(s).

    Rstr: Permission of the department head required.
  

  • ENGR 400(G) - Advanced Engineering Methods

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Content varies. Permission of instructor required.

  

  • ENGR 401 - Engineering Registration Studies

    2 Credit(s). 0 Hour(s) Lab. 2 Hour(s) Lecture.

    Review of engineering fundamentals for engineering examination.

    Rstr: Senior standing.
  

  • ENGR 407 - Electrical Power System Design

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Design of industrial power distribution and control systems.

    Rstr: Senior standing and permission of the instructor required.
  

  • ENGR 410(G) - Wave Phenomena

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Introduction to wave theory, development of wave equations and application in continuous media, acoustics, electromagnetic waves, and light.

  

  • ENGR 411(G) - Manufacturing Facility Planning

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Selection of plant site, product development, overview of manufacturing processes and their economic evaluation, production charts, machine and manpower assignment, material handling and plant layout.

    Prereq: ITEC 345 , or MCHE 473 , or MGMT 382.
    Rstr: Cannot be taken by students with credit for ITEC 446 .
  

  • ENGR 412(G) - Computer Integrated Manufacturing Technology I

    3 Credit(s). 1 Hour(s) Lab. 3 Hour(s) Lecture.

    Combines technologies such as CAD, CAM, CAPP MRPII, simulation, and JIT in order to implement CIM and discuss their synergistic relationships.

    Prereq: ITEC 345 , or MCHE 463(G) , or MGMT 382.
    Rstr: Cannot be taken by students with credit for ITEC 447 .
  

  • ENGR 497 - Proctor Seminar III

    1 Credit(s). 3 Hour(s) Lab. 0 Hour(s) Lecture.

    Rstr: Permission of the department head required.
  

  • ENGR 498 - Proctor Seminar IV

    1 Credit(s). 3 Hour(s) Lab. 0 Hour(s) Lecture.

    Rstr: Permission of the department head required.
  

  • ENGR 501 - Data Analysis for Engineering Projects

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Basic concepts of random variation in engineering projects, followed by planning experiments, then analyzing the resulting data using exploratory procedures, point and interval estimation, tests of hypothesis, regression, or analysis of variance. Use of software for analysis and presentation.
  

  • ENGR 513 - Engineering Analysis I

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Applications of modern analytical techniques in the solutions of engineering problems, development of classical and numerical solutions in the areas of thermal-fluids; soil mechanics; electrical, petroleum and chemical phenomena, and dynamics; including problems in heat transfer, transport phenomena, potential flow, hydrodynamics, flow through porous media, viscous flow, magnetic and electrical fields, and continuum mechanics.

    Rstr: Permission of instructor required.
  

  • ENGR 514 - Engineering Analysis II

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Applications of modern analytical techniques in the solutions of engineering problems, development of classical and numerical solutions in the areas of thermal-fluids; soil mechanics; electrical, petroleum and chemical phenomena, and dynamics; including problems in heat transfer, transport phenomena, potential flow, hydrodynamics, flow through porous media, viscous flow, magnetic and electrical fields, and continuum mechanics.

    Rstr: Permission of instructor required.
  

  • ENGR 515 - Engineering Systems

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    General analytical concepts used in the modeling and analysis of engineering systems. Applications of linear systems in all areas of engineering.

    Rstr: Permission of instructor required.
  

  • ENGR 517 - Control Systems I

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Control loop analysis and design. Laplace transform approach for continuous systems, frequency response, Z-transform approach for sampled data systems. Computer control algorithms for feedback, feed forward, cascade, and adaptive control.
  

  • ENGR 525 - Advanced Engineering Systems

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Optimization theory and techniques. Theory of maxima and minima, and variational problems with bounded control variables. Computer applications to engineering systems.

    Prereq: ENGR 515 
  

  • ENGR 597 - Directed Individual Study

    3 Hour(s) Lecture.

  

  • ENGR 605 - Systems Engineering I

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Advanced analytical concepts used in the modeling and analysis of engineering systems, including system requirements, cost modeling and life cycle analysis.

    Prereq: ENGR 501  or permission of instructor required.
  

  • ENGR 606 - Systems Engineering II

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Advanced design and integration of engineering systems, including structured and object-oriented analysis techniques. Life cycle issues and tools. Team-based preliminary, system design project.

    Prereq: ENGR 501  or permission of instuctor required.
  

  • ENGR 609 - Industrial Operations

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Application of principles of engineering systems for industrial operations. Includes topics such as capacity planning, production system design, demand forecasting, aggregate planning, inventory management, scheduling systems, and performance controls.
  

  • ENGR 617 - Control Systems II

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Multivariable control system analysis and design. Process modeling and simulation. Selection of controlled and manipulated variables, interaction analysis, decoupling and ration control, model predictive control.

    Rstr: Premission of instructor required.
  

  • ENGR 622 - Advanced Finite Element Method for Engineering Analysis

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Emphasize standard discrete systems. The definition of finite elements of an elastic continuum will be followed by generalization of the finite element concept to a wide variety of problems. Problems to be addressed include: plane stress, bending of thin plates; axisymmetric shells; heat conduction, and fluid flow.

    Rstr: Permission of instructor required.
  

  • ENGR 625 - Engineering Systems Simulation

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Use of computer models to improve engineering and management processes that cannot be expressed analytically using deterministic or probabilistic models. Applications include a wide range of commonly occurring problems for both manufacturing and service organizations.

    Prereq: ENGR 501 , ENGR 515 
  

  • ENGR 627 - Advanced Non-Linear Systems

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Techniques available to analyze non-linear and discontinuous feedback control systems. Phase plane. Lyapunov stability. Describing functions. Relay controllers.

    Prereq: ENGR 517 
  

  • ENGR 630 - Special Topics

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

  

  • ENGR 635 - Linear and Non-Linear Programming

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Techniques for optimizing linear and non-linear models of engineering systems. Deterministic and stochastic techniques; continuous and discrete variables and functions; constrained and unconstrained problems.
  

  • ENGR 640 - Lean Six Sigma

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Lean six sigma philosophy. Value stream mapping and process flow tools, variation analysis, six sigma tools, and the lean six sigma infrastructure within the organization.

    Prereq: ENGR 501  or permission of instructor required.
  

  • ENGR 697 - Directed Individual Study

    3 Hour(s) Lecture.

  

  • ENGR 698 - Directed Individual Study

    3 Hour(s) Lecture.

  

  • ENGR 699 - Dissertation Research and Dissertation

    1-24 Credit(s).

    Grading Option: Grades: S, U, W

Engineering Management
  

  • EMGT 500 - Computer Applications

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Survey of modern computer applications in engineering management such as decision support systems, networks and the Internet, electronic data interchange, data management, spreadsheets, report and program development tools, and software systems for case problems.
  

  • EMGT 502 - Project Economics

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Procedures for conducting economic analyses used by technical managers. Fundamental methods followed by more advanced topics such as capital budgeting, leveraged investments, decisions under risk and uncertainty, and use of modern software systems.
  

  • EMGT 509 - Industrial Operations

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Application of principles of engineering management to industrial operations. Includes topics such as capacity planning, production system design, demand forecasting, aggregate planning, inventory management, scheduling systems, and performance controls.

  

  • EMGT 510 - Applied Knowledge Systems

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Survey of knowledge engineering with emphasis on the use of expert systems and artificial intelligence to solve problems in manufacturing and logistical systems.

  

  • EMGT 519 - Models of Industrial Operations

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Quantitative and computer-based models. Applications to cost reduction and productivity improvement.
  

  • EMGT 520 - Forecasting

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Survey of forecasting procedures useful for planning and budgeting functions. Includes topics such as moving averages and regression, smoothing, decomposition, feedback and adaptive control methods, ARIMA, and qualitative procedures.
  

  • EMGT 525 - Engineering Systems Simulation

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Use of computer models to improve engineering and management processes that cannot be expressed analytically using deterministic or probabilistic models. Applicable to a wide range of commonly occurring problems for both manufacturing and service organizations.
  

  • EMGT 530 - Legal Aspects of Engineering Management

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Survey of legal aspects of topics relevant to engineering managers, such as design and product liability, labor law, insurance, and project management.
  

  • EMGT 550 - Engineering and Technology Management

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Management principles and practices applicable to technical organizations.
  

  • EMGT 570 - Management of CAD/CAM and CIM

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Understanding, implementing and managing CAD/CAM and CIM technologies in the industrial environment.
  

  • EMGT 594 - Research

    3-6 Credit(s).

    Credit to be 3 hours unless written justification for varied credits is accepted by the Graduate School.

    Rstr: To be taken by non-thesis option master’s students only.
    Grading Option: Grades: S, U, W.
  

  • EMGT 595 - Special Topics

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

  

  • EMGT 597 - Directed Individual Study

    3 Hour(s) Lecture.

  

  • EMGT 598 - Directed Individual Study

    3 Hour(s) Lecture.

  

  • EMGT 599 - Thesis Research and Thesis

    3-9 Credit(s).

    Grading Option: Grades: S, U, W.
  

  • EMGT 899 - Examinations Only

    3 Hour(s) Lecture.

    Required of all graduate non-thesis students taking examinations, oral and/or written, who are not registered for any other course.

    Grading Option: Grades: S, U, W.

English

General prerequisites for all 200 and 300-level courses: “C” or better in ENGL 102, ESOL 102, ENGL 115, or advanced placement.

General Prerequisite for all 400 level courses: UPPER-DIVISION STANDING, AT LEAST 60 HOURS OF CREDIT TOWARD A DEGREE, 6 HOURS SOPHOMORE LITERATURE CREDIT AND 3 HOURS 300 LEVEL ENGLISH LITERATURE CREDIT, OR PERMISSION OF INSTRUCTOR REQUIRED.
  

  • ENGL 101 - Introduction to Academic Writing

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Designed to introduce students to the critical thinking, reading, and writing skills required in the university and beyond. Course will focus on writing effective, well-argued essays

    Prereq: Minimum ACT English subscore of 18.
    LCCN: CENL 1013.
  

  • ENGL 102 - Writing and Research About Culture

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Content varies. Through exploration of cultural themes, students will build on and advance the thinking, reading, and writing skills learned in English 101 while focusing on rhetoric and research. Satisfies diversity and international requirements.

    Prereq: Minimum ACT English subscore of 28 or a grade of “C” or better in ENGL 101 .
    LCCN: CENL 1023.
  

  • ENGL 115 - Honors Academic Writing

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Critical reading and research-based writing on literature and culture. Satisfies diversity and international requirements. Credit in 115 completes freshman English requirements.

    Prereq: Minimum ACT English subscore of 28 or advanced placement.
  

  • ENGL 201 - British Literature I

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Survey of British literature from its beginnings through the eighteenth century, emphasizing the critical reading of individual works.

    Prereq: “C” or better in ENGL 102 , ESOL 102 , ENGL 115 , or advanced placement.
    LCCN: CENL 2103.
  

  • ENGL 202 - British Literature II

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Survey of British literature from the eighteenth century to the present, emphasizing the critical reading of individual works.

    Prereq: “C” or better in ENGL 102 , ESOL 102 , ENGL 115 , or advanced placement.
    LCCN: CENL 2113.
  

  • ENGL 205 - American Literature I

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Survey of American literature from its beginnings to Walt Whitman, emphasizing the critical reading of representative works.

    Prereq: “C” or better in ENGL 102 , ESOL 102 , ENGL 115 , or advanced placement.
    LCCN: CENL 2153.
  

  • ENGL 206 - American Literature II

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Survey of American literature from Walt Whitman to the present, emphasizing the critical reading of representative works.

    Prereq: “C” or better in ENGL 102 , ESOL 102 , ENGL 115 , or advanced placement.
    LCCN: CENL 2163.
  

  • ENGL 210 - Literary Genres

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Content varies. May be repeated for credit once when the genre changes. Explores and traces the development of a specified genre or subgenre of literature.

    Prereq: Six hours freshman English credit.
    LCCN: CENL 2303 / CENL 2313
  

  • ENGL 211 - Thematic Approaches to Literature

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Content varies. May be repeated once for credit when the topic changes. Each section focuses on a different theme. Explores and traces the development of a specified theme that recurs in literature through the ages.

    Prereq: Six hours freshman English credit.
    LCCN: CENL 2203 / CENL 2213 / CENL 2403 / CENL 2413
  

  • ENGL 212 - Literature and Other Media

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Content varies. Explores the relationship of literature to other arts.

    Prereq: Six hours freshman English credit.
  

  • ENGL 215 - Honors British Literature

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Course for superior students, focusing on the major writers in British literature from the beginnings to the present.

    Prereq: “C” or better in ENGL 115 , advanced placement, or recommendation by ENGL 102  instructor.
  

  • ENGL 216 - Honors American Literature

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Course for superior students, focusing on the major writers in American literature from the beginnings to the present.

    Prereq: “C” or better in ENGL 115 , advanced placement, or recommendation by ENGL 102  instructor.
  

  • ENGL 223 - Introduction to Creative Writing

    3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.

    Introduction to the forms and concepts of literary creation. The basic elements and compositional principles of fiction, poetry, drama are all treated.

    Prereq: 6 hours freshman English credit or JOUR 201.
 

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