Spring Semester 2013

  1. Electrical Engineering (EE)

  2. Course Number Course Name Credits
  3. A204 Fundamentals of Elect Engr II 4.0
    1. Days Time Location Instructor Open Seats
    2.   T R   08:30AM-9:45AM
      ENGR 109
      Petersen, T 1

      CRN: 31708
      Section: 001
      Date Range: 01/14-05/04

      Introduces electronic devices, their characteristics, uses, and limitations. Covers methods of analysis of circuits containing solid state devices including diodes, bipolar junction transistors, field effect transistors, and operational amplifiers. Covers design and operation of primitive digital devices including logic gates and analog/digital converters.
      Special Note: Offered Fall Semesters.

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    Introduces electronic devices, their characteristics, uses, and limitations. Covers methods of analysis of circuits containing solid state devices including diodes, bipolar junction transistors, field effect transistors, and operational amplifiers. Covers design and operation of primitive digital devices including logic gates and analog/digital converters.
    Special Note: Offered Fall Semesters.

  4. A204L Fundmntls of Elect Engr II Lab 0.0
    1. Days Time Location Instructor Open Seats
    2.   T     04:00PM-6:30PM
      ENGR 229
      Petersen, T -1

      CRN: 39911
      Section: 001
      Date Range: 01/14-05/04

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    3.    W    04:00PM-6:30PM
      ENGR 229
      Petersen, T 3

      CRN: 39912
      Section: 002
      Date Range: 01/14-05/04

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  5. A241 Computer Hardware Concepts 4.0
    1. Days Time Location Instructor Open Seats
    2.   T R   10:00AM-11:15AM
      RH 211
      Lund, J 3

      CRN: 31709
      Section: 051
      Date Range: 01/14-04/29

      Analysis and design of electronic devices used as building blocks for construction of simple combinational and sequential digital systems. Presents formats for data storage, number systems and alphanumeric codes, and methods of implementing logical and arithmetic operations within computers. Relates hardware components' capabilities and limitations to design requirements for computer processing, memory and control functions.
      Crosslisted with CSCE A241.

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    Analysis and design of electronic devices used as building blocks for construction of simple combinational and sequential digital systems. Presents formats for data storage, number systems and alphanumeric codes, and methods of implementing logical and arithmetic operations within computers. Relates hardware components' capabilities and limitations to design requirements for computer processing, memory and control functions.
    Crosslisted with CSCE A241.

  6. A261 MATLAB for Elec. Eng. 1.0
    1. Days Time Location Instructor Open Seats
    2.  M W    04:00PM-4:50PM
      ENGR 109
      Kupilik, M 6

      CRN: 38679
      Section: 001
      Date Range: 01/14-05/04

      Introduces MATLAB programming skills to students to solve problems in various electrical engineering focus areas including circuit analysis, signal analysis, and communication.

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    Introduces MATLAB programming skills to students to solve problems in various electrical engineering focus areas including circuit analysis, signal analysis, and communication.

  7. A306 Dynamics of Systems 3.0
    1. Days Time Location Instructor Open Seats
    2.  M W    08:30AM-9:45AM
      ENGR 218
      Lobontiu, N 22

      CRN: 31710
      Section: 051
      Date Range: 01/14-05/04

      Modeling of mechanical, electrical, fluid and thermal elements and systems. Study of free and forced response by the Laplace transform, transfer function, and state space models. Time domain and frequency domain responses. Coupled systems, system analogy, sensing and actuation principles.
      Crosslisted with: ME A306

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    Modeling of mechanical, electrical, fluid and thermal elements and systems. Study of free and forced response by the Laplace transform, transfer function, and state space models. Time domain and frequency domain responses. Coupled systems, system analogy, sensing and actuation principles.
    Crosslisted with: ME A306

  8. A308 Instrumentation & Measurement 3.0
    1. Days Time Location Instructor Open Seats
    2.  M W    02:30PM-3:45PM
      SSB 119
      Petersen, T 0

      CRN: 31712
      Section: 051
      Date Range: 01/14-04/29

      Principles of measurement, instrumentation, Laplace transform, Fourier series, transfer function, steady-state response, calibration, and errors. Signal filtering and amplification, data acquisition, recording, and processing. Methods and devices for measuring strain, force, torque, displacement, velocity, acceleration, pressure, fluid flow properties, and temperature. Mechatronics, sensors, actuators, and controls.
      Crosslisted with ME A308.

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    Principles of measurement, instrumentation, Laplace transform, Fourier series, transfer function, steady-state response, calibration, and errors. Signal filtering and amplification, data acquisition, recording, and processing. Methods and devices for measuring strain, force, torque, displacement, velocity, acceleration, pressure, fluid flow properties, and temperature. Mechatronics, sensors, actuators, and controls.
    Crosslisted with ME A308.

  9. A324 Electromagnetics II 3.0
    1. Days Time Location Instructor Open Seats
    2.  M W    10:00AM-11:15AM
      ENGR 109
      Munk, J 7

      CRN: 31713
      Section: 051
      Date Range: 01/14-05/04

      Use of Maxwell's equations in analysis of plane wave propagation, wave reflection, radiation and antennas, waveguides, cavity resonators, transmission lines, and radio propagation.
      Crosslisted with PHYS A324.

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    Use of Maxwell's equations in analysis of plane wave propagation, wave reflection, radiation and antennas, waveguides, cavity resonators, transmission lines, and radio propagation.
    Crosslisted with PHYS A324.

  10. A324L Electromagnetics Laboratory II 1.0
    1. Days Time Location Instructor Open Seats
    2.      F  12:30PM-3:30PM
      ENGR 229
      Munk, J 6

      CRN: 31714
      Section: 001
      Date Range: 01/14-05/04

      Laboratory experiments using Maxwell's equations in analysis of plane wave propagation, wave reflection, radiation and antennas, waveguides, cavity resonators, transmission lines, and radio propagation.

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    Laboratory experiments using Maxwell's equations in analysis of plane wave propagation, wave reflection, radiation and antennas, waveguides, cavity resonators, transmission lines, and radio propagation.

  11. A353 Circuit Theory 3.0
    1. Days Time Location Instructor Open Seats
    2.   T R   02:30PM-3:45PM
      ENGR 109
      Munk, J -1

      CRN: 31715
      Section: 001
      Date Range: 01/14-05/04

      Analysis of circuit behavior for passive and active filters. Application of Laplace and Fourier techniques to circuit characterization.

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    Analysis of circuit behavior for passive and active filters. Application of Laplace and Fourier techniques to circuit characterization.

  12. A353L Circuit Theory Lab 1.0
    1. Days Time Location Instructor Open Seats
    2.  M      04:00PM-6:30PM
      ENGR 229
      Mixsell Jr, J 4

      CRN: 31716
      Section: 001
      Date Range: 01/14-05/04

      Analysis of circuit behavior for passive and active filters. Application of Laplace and Fourier techniques to circuit characterization. This course serves as a laboratory component to EE A353.

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    3.     R   04:00PM-6:30PM
      ENGR 229
      Mixsell Jr, J 6

      CRN: 39897
      Section: 002
      Date Range: 01/14-05/04

      Analysis of circuit behavior for passive and active filters. Application of Laplace and Fourier techniques to circuit characterization. This course serves as a laboratory component to EE A353.

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    Analysis of circuit behavior for passive and active filters. Application of Laplace and Fourier techniques to circuit characterization. This course serves as a laboratory component to EE A353.

  13. A438 *Design Electrical Engr System 3.0
    1. Days Time Location Instructor Open Seats
    2.      F  11:00AM-12:00PM
      ENGR 342
      Munk, J 10

      CRN: 31717
      Section: 001
      Date Range: 01/14-04/29

      Capstone course in which electrical engineering students design an electrical engineering component or system starting with the initial design specification to the implementation and testing. Students apply knowledge and skills learned in their undergraduate curriculum.
      Registration Restrictions: Student must be in senior year of BSE degree program or obtain faculty permission. Completion of GER Tier 1 (basic college-level skills) courses.

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    3.      F  11:00AM-12:00PM
      ENGR 342
      Lund, J 10

      CRN: 31717
      Section: 001
      Date Range: 01/14-04/29

      Capstone course in which electrical engineering students design an electrical engineering component or system starting with the initial design specification to the implementation and testing. Students apply knowledge and skills learned in their undergraduate curriculum.
      Registration Restrictions: Student must be in senior year of BSE degree program or obtain faculty permission. Completion of GER Tier 1 (basic college-level skills) courses.

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    4.      F  11:00AM-12:00PM
      ENGR 342
      Petersen, T 10

      CRN: 31717
      Section: 001
      Date Range: 01/14-04/29

      Capstone course in which electrical engineering students design an electrical engineering component or system starting with the initial design specification to the implementation and testing. Students apply knowledge and skills learned in their undergraduate curriculum.
      Registration Restrictions: Student must be in senior year of BSE degree program or obtain faculty permission. Completion of GER Tier 1 (basic college-level skills) courses.

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    Capstone course in which electrical engineering students design an electrical engineering component or system starting with the initial design specification to the implementation and testing. Students apply knowledge and skills learned in their undergraduate curriculum.
    Registration Restrictions: Student must be in senior year of BSE degree program or obtain faculty permission. Completion of GER Tier 1 (basic college-level skills) courses.

  14. A441 Integrated Circuit Design 3.0
    1. Days Time Location Instructor Open Seats
    2.   T R   04:00PM-5:15PM
      RH 315
      Ayers, M 10

      CRN: 31718
      Section: 001
      Date Range: 01/14-04/29

      Develops the design and fabrication of integrated circuits (ICs) used in computer electronics. Describes the material properties, methods of charge transport, energy exchanges, fundamentals of device fabrication, and fabrication process capabilities and limits. Electrical characteristics, timing considerations, heat and power considerations, and reliability of IC devices.

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    Develops the design and fabrication of integrated circuits (ICs) used in computer electronics. Describes the material properties, methods of charge transport, energy exchanges, fundamentals of device fabrication, and fabrication process capabilities and limits. Electrical characteristics, timing considerations, heat and power considerations, and reliability of IC devices.

  15. A451 Digital Signal Processing 3.0
    1. Days Time Location Instructor Open Seats
    2.      F  09:00AM-11:30AM
      ENGR 109
      Mixsell Jr, J 13

      CRN: 39475
      Section: 001
      Date Range: 01/14-05/04

      Develops properties and methods of analysis of discrete-time signals, and the techniques used in creating and processing those signals. Topics include discrete-time linear systems, Z-transforms, the Discrete Fourier Transform and Fast Fourier Transform algorithms, digital filter design, system performance analysis and problem-solving. Methods and effects of signal processing are analyzed and evaluated.

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    Develops properties and methods of analysis of discrete-time signals, and the techniques used in creating and processing those signals. Topics include discrete-time linear systems, Z-transforms, the Discrete Fourier Transform and Fast Fourier Transform algorithms, digital filter design, system performance analysis and problem-solving. Methods and effects of signal processing are analyzed and evaluated.

  16. A465 Telecommunications 3.0
    1. Days Time Location Instructor Open Seats
    2.   T R   10:00AM-11:15AM
      RH 220
      Mixsell Jr, J 1

      CRN: 31720
      Section: 001
      Date Range: 01/14-04/29

      Emphasis in data transmission, guided and wireless transmission, signal encoding, digital data, multiplexing, and circuit and packet switching. Analyze data communications, networking, protocols and standards.

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    Emphasis in data transmission, guided and wireless transmission, signal encoding, digital data, multiplexing, and circuit and packet switching. Analyze data communications, networking, protocols and standards.

  17. Engineering (ENGR)

  18. Course Number Course Name Credits
  19. A105A Engr Computer-Aided Design I 1.0
    1. Days Time Location Instructor Open Seats
    2.      F  01:00PM-6:30PM
      ENGR 218
      Foster, J 0

      CRN: 31880
      Section: 001
      Date Range: 01/18-02/15

      Applied engineering design course focusing on engineering graphics concepts using applied Computer-Aided Design (CAD) tools. Orthographic projections, auxiliary views, sectional views, and layer management are explored and implemented in assigned engineering design projects. Part I of a three part series.

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    3.   T R   01:00PM-3:45PM
      ENGR 218
      Foster, J 0

      CRN: 31881
      Section: 004
      Date Range: 01/15-02/15

      Applied engineering design course focusing on engineering graphics concepts using applied Computer-Aided Design (CAD) tools. Orthographic projections, auxiliary views, sectional views, and layer management are explored and implemented in assigned engineering design projects. Part I of a three part series.

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    Applied engineering design course focusing on engineering graphics concepts using applied Computer-Aided Design (CAD) tools. Orthographic projections, auxiliary views, sectional views, and layer management are explored and implemented in assigned engineering design projects. Part I of a three part series.

  20. A105B Engr Computer-Aided Design II 1.0
    1. Days Time Location Instructor Open Seats
    2.      F  01:00PM-6:30PM
      ENGR 218
      Foster, J 0

      CRN: 31882
      Section: 001
      Date Range: 02/18-03/22

      Applied engineering design course focusing on engineering graphics concepts using applied Computer-Aided Design (CAD) tools. Object snaps, engineering drawing editing, blocks and external references, multi viewports and views, object linking and embedding, raster image manipulation, and basic 3-D modeling are explored and implemented in assigned engineering design projects. Part II of a three part series.

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    3.   T R   01:00PM-3:45PM
      ENGR 218
      Foster, J 2

      CRN: 31883
      Section: 005
      Date Range: 02/18-03/22

      Applied engineering design course focusing on engineering graphics concepts using applied Computer-Aided Design (CAD) tools. Object snaps, engineering drawing editing, blocks and external references, multi viewports and views, object linking and embedding, raster image manipulation, and basic 3-D modeling are explored and implemented in assigned engineering design projects. Part II of a three part series.

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    Applied engineering design course focusing on engineering graphics concepts using applied Computer-Aided Design (CAD) tools. Object snaps, engineering drawing editing, blocks and external references, multi viewports and views, object linking and embedding, raster image manipulation, and basic 3-D modeling are explored and implemented in assigned engineering design projects. Part II of a three part series.

  21. A105C Engr Computer-Aided Design III 1.0
    1. Days Time Location Instructor Open Seats
    2.      F  01:00PM-6:30PM
      ENGR 218
      Foster, J 10

      CRN: 31884
      Section: 001
      Date Range: 03/25-04/26

      Applied engineering design course focusing on engineering graphics concepts using applied Computer-Aided Design (CAD) tools. Surfaces, featured based modeling, solid editing, extraction of orthographic, auxiliary and section views from a 3-D model, printing and plotting are explored and implemented in assigned engineering design projects. Part III of a three part series.

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    3.   T R   01:00PM-3:45PM
      ENGR 218
      Foster, J 13

      CRN: 31885
      Section: 006
      Date Range: 03/25-04/26

      Applied engineering design course focusing on engineering graphics concepts using applied Computer-Aided Design (CAD) tools. Surfaces, featured based modeling, solid editing, extraction of orthographic, auxiliary and section views from a 3-D model, printing and plotting are explored and implemented in assigned engineering design projects. Part III of a three part series.

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    Applied engineering design course focusing on engineering graphics concepts using applied Computer-Aided Design (CAD) tools. Surfaces, featured based modeling, solid editing, extraction of orthographic, auxiliary and section views from a 3-D model, printing and plotting are explored and implemented in assigned engineering design projects. Part III of a three part series.

  22. A151 Introduction to Engineering 1.0
    1. Days Time Location Instructor Open Seats
    2.      F  09:30AM-10:20AM
      SSB 213
      Peuker, S 15

      CRN: 38675
      Section: 001
      Date Range: 01/14-04/29

      An introduction to engineering, both as a profession and as a field of study. Introduces students to the roles, responsibilities and capabilities of civil, computer systems, electrical and mechanical engineers.

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    3.      F  10:30AM-11:20AM
      SSB 213
      Peuker, S 4

      CRN: 38676
      Section: 002
      Date Range: 01/14-04/29

      An introduction to engineering, both as a profession and as a field of study. Introduces students to the roles, responsibilities and capabilities of civil, computer systems, electrical and mechanical engineers.

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    4.      F  08:30AM-9:20AM
      SSB 213
      Peuker, S 9

      CRN: 31888
      Section: 003
      Date Range: 01/14-04/29

      An introduction to engineering, both as a profession and as a field of study. Introduces students to the roles, responsibilities and capabilities of civil, computer systems, electrical and mechanical engineers.

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    5.        
      Resnick, J 0

      CRN: 41376
      Section: D1S
      Date Range: 01/14-05/06

      An introduction to engineering, both as a profession and as a field of study. Introduces students to the roles, responsibilities and capabilities of civil, computer systems, electrical and mechanical engineers.

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    An introduction to engineering, both as a profession and as a field of study. Introduces students to the roles, responsibilities and capabilities of civil, computer systems, electrical and mechanical engineers.

  23. A161 Engineering Practices II 3.0
    1. Days Time Location Instructor Open Seats
    2.  M W    02:30PM-3:45PM
      ENGR 109
      Peuker, J 2

      CRN: 31889
      Section: 001
      Date Range: 01/14-05/04

      Presents the basic skills required of engineers for using computers to solve engineering problems and presenting results in a professional form. Application of computation methods and tools for practicing engineering. Introduction to computer programming and engineering problem solving softwares including visual basic in spreadsheets, Matlab, and Mathcad.

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    3.  M W    01:00PM-2:15PM
      ENGR 109
      Peuker, J 5

      CRN: 31890
      Section: 002
      Date Range: 01/14-05/04

      Presents the basic skills required of engineers for using computers to solve engineering problems and presenting results in a professional form. Application of computation methods and tools for practicing engineering. Introduction to computer programming and engineering problem solving softwares including visual basic in spreadsheets, Matlab, and Mathcad.

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    4.  M W    08:30AM-9:45AM
      ENGR 109
      Peuker, J 13

      CRN: 31891
      Section: 003
      Date Range: 01/14-05/04

      Presents the basic skills required of engineers for using computers to solve engineering problems and presenting results in a professional form. Application of computation methods and tools for practicing engineering. Introduction to computer programming and engineering problem solving softwares including visual basic in spreadsheets, Matlab, and Mathcad.

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    5.     R   07:00PM-9:45PM
      JKB 115
      Wright Jr, N 0

      CRN: 38370
      Section: P11
      Date Range: 01/14-05/06

      Presents the basic skills required of engineers for using computers to solve engineering problems and presenting results in a professional form. Application of computation methods and tools for practicing engineering. Introduction to computer programming and engineering problem solving softwares including visual basic in spreadsheets, Matlab, and Mathcad.

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    Presents the basic skills required of engineers for using computers to solve engineering problems and presenting results in a professional form. Application of computation methods and tools for practicing engineering. Introduction to computer programming and engineering problem solving softwares including visual basic in spreadsheets, Matlab, and Mathcad.

  24. A495 Engineering Internship 1.0
    1. Days Time Location Instructor Open Seats
    2.        
      ARR
      Hoffman, J 1

      CRN: 31893
      Section: 001
      Date Range: 01/14-05/04

      Professional work experience designed to provide students with the opportunity to investigate the practical applications of engineering design within engineering organizations. Assignments and projects arranged with cooperating organizations and agencies.
      Registration Restrictions: Instructor permission.

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    Professional work experience designed to provide students with the opportunity to investigate the practical applications of engineering design within engineering organizations. Assignments and projects arranged with cooperating organizations and agencies.
    Registration Restrictions: Instructor permission.

  25. Engineering Science (ES)

  26. Course Number Course Name Credits
  27. A103 Engineering Graphics 3.0
    1. Days Time Location Instructor Open Seats
    2.  M W    06:30PM-8:10PM
      ENGR 228
      Varney, T 3

      CRN: 38533
      Section: 002
      Date Range: 01/14-05/04

      Introduces the fundamentals of engineering graphics and provides training in visualization skills necessary for graphically presenting of engineering ideas using standard drawing techniques and Computer Aided Design (CAD).

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    Introduces the fundamentals of engineering graphics and provides training in visualization skills necessary for graphically presenting of engineering ideas using standard drawing techniques and Computer Aided Design (CAD).

  28. A208 Engr Statics & Dynamics 5.0
    1. Days Time Location Instructor Open Seats
    2.  M W F  08:00AM-9:40AM
      RH 117
      Cullin, M 27

      CRN: 37345
      Section: 001
      Date Range: 01/14-04/29

      Static and dynamic analysis of particles and rigid bodies. Statics topics covered include Newton's laws of motion, Newton's law of gravitational attraction, force and force systems, equilibrium, structural analysis, internal forces, friction, and center of gravity and centroid. Dynamics topics covered include particle and rigid body kinematics and kinetics, force and acceleration, work and energy, impulse and momentum, and vibrations.

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    Static and dynamic analysis of particles and rigid bodies. Statics topics covered include Newton's laws of motion, Newton's law of gravitational attraction, force and force systems, equilibrium, structural analysis, internal forces, friction, and center of gravity and centroid. Dynamics topics covered include particle and rigid body kinematics and kinetics, force and acceleration, work and energy, impulse and momentum, and vibrations.

  29. A209 Engineering Statics 3.0
    1. Days Time Location Instructor Open Seats
    2.  M W    08:30AM-9:45AM
      RH 220
      Dutta, U 0

      CRN: 31909
      Section: 001
      Date Range: 01/14-04/29

      Principles and analysis of static force systems, equilibrium, distributed forces, centroids, centers of gravity, moments of inertia, structures, friction, and virtual work.

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    Principles and analysis of static force systems, equilibrium, distributed forces, centroids, centers of gravity, moments of inertia, structures, friction, and virtual work.

  30. A210 Engineering Dynamics 3.0
    1. Days Time Location Instructor Open Seats
    2.   T R   08:30AM-9:45AM
      RH 316
      Dutta, U 25

      CRN: 31910
      Section: 001
      Date Range: 01/14-04/29

      Kinematics and kinetics of particles and rigid bodies with applications of Newton's second law and principles of work-energy, impulse-momentum, and vibration.

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    3.   T R   02:30PM-3:45PM
      RH 117
      Lobontiu, N 4

      CRN: 31911
      Section: 002
      Date Range: 01/14-04/29

      Kinematics and kinetics of particles and rigid bodies with applications of Newton's second law and principles of work-energy, impulse-momentum, and vibration.

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    Kinematics and kinetics of particles and rigid bodies with applications of Newton's second law and principles of work-energy, impulse-momentum, and vibration.

  31. A302 Engineering Data Analysis 3.0
    1. Days Time Location Instructor Open Seats
    2.  M W    11:30AM-12:45PM
      ENGR 228
      Kretchik, G -4

      CRN: 31912
      Section: 001
      Date Range: 01/14-05/04

      Analytical and spreadsheet methods appropriate to the solution of engineering problems using the concepts from probability and statistics.

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    3.      F  08:30AM-11:15AM
      ENGR 218
      Dutta, U 0

      CRN: 31913
      Section: 002
      Date Range: 01/14-05/04

      Analytical and spreadsheet methods appropriate to the solution of engineering problems using the concepts from probability and statistics.

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    Analytical and spreadsheet methods appropriate to the solution of engineering problems using the concepts from probability and statistics.

  32. A309 Elements Electrical Engineer 3.0
    1. Days Time Location Instructor Open Seats
    2.   T R   04:00PM-5:15PM
      SSB 118
      Kupilik, M 22

      CRN: 31914
      Section: 001
      Date Range: 01/14-04/29

      Electrical fundamentals: elementary circuit analysis, network theorems, steady state, and transient analysis of DC circuits with resistors and one energy storage device (L or C). Steady state analysis of AC circuits with resistors, capacitors, and inductors using complex number and phasor representation. Power in DC and AC circuits. Transformers, meters, and applications of simple electrical components and circuits.

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    Electrical fundamentals: elementary circuit analysis, network theorems, steady state, and transient analysis of DC circuits with resistors and one energy storage device (L or C). Steady state analysis of AC circuits with resistors, capacitors, and inductors using complex number and phasor representation. Power in DC and AC circuits. Transformers, meters, and applications of simple electrical components and circuits.

  33. A331 Mechanics of Materials 3.0
    1. Days Time Location Instructor Open Seats
    2.   T R   08:30AM-9:45AM
      RH 211
      Paris, A 21

      CRN: 31915
      Section: 001
      Date Range: 01/14-04/29

      Stress-strain relations, axially loaded and torsional members, review of shear and bending moment diagrams for beams, flexural and shearing stresses, deflections of beams, plane stress, combined stresses, buckling of columns, elementary design of beams and columns.

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    Stress-strain relations, axially loaded and torsional members, review of shear and bending moment diagrams for beams, flexural and shearing stresses, deflections of beams, plane stress, combined stresses, buckling of columns, elementary design of beams and columns.

  34. A341 Fluid Mechanics 3.0
    1. Days Time Location Instructor Open Seats
    2.   T R   10:00AM-11:15AM
      ARTS 117
      Ravens, T 36

      CRN: 31916
      Section: 001
      Date Range: 01/14-04/29

      Introduction to physical properties and behavior of fluids. Topics include hydrostatics and dynamics of liquids and gases, dimensional analysis, fluid forces on immersed bodies, pipe flow, fluid machinery, and open channel flow.

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    Introduction to physical properties and behavior of fluids. Topics include hydrostatics and dynamics of liquids and gases, dimensional analysis, fluid forces on immersed bodies, pipe flow, fluid machinery, and open channel flow.

  35. A341L Fluid Mechanics Laboratory 1.0
    1. Days Time Location Instructor Open Seats
    2.   T     06:00PM-8:45PM
      ENGR 104
      Ravens, T 5

      CRN: 31918
      Section: 001
      Date Range: 01/14-05/04

      Provides supplemental explanation and practical exercises applying physical properties and behavior of fluids, including hydrostatics, fluid forces, pipe flow, fluid machinery, and open channel flow.

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    3.  M      01:00PM-3:45PM
      ENGR 104
      Ravens, T 10

      CRN: 38535
      Section: 003
      Date Range: 01/14-05/04

      Provides supplemental explanation and practical exercises applying physical properties and behavior of fluids, including hydrostatics, fluid forces, pipe flow, fluid machinery, and open channel flow.

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    Provides supplemental explanation and practical exercises applying physical properties and behavior of fluids, including hydrostatics, fluid forces, pipe flow, fluid machinery, and open channel flow.

  36. A346 Basic Thermodynamics 3.0
    1. Days Time Location Instructor Open Seats
    2.  M W    10:00AM-11:15AM
      RH 111
      Brock, J 26

      CRN: 31920
      Section: 001
      Date Range: 01/14-04/29

      Thermodynamics systems, properties, processes, and cycles. Fundamental principles of thermodynamics (first and second laws), and elementary applications.

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    Thermodynamics systems, properties, processes, and cycles. Fundamental principles of thermodynamics (first and second laws), and elementary applications.

  37. AC030 Fund of Arctic Engineering 4.5
    1. Days Time Location Instructor Open Seats
    2.        
      DISTANCE
      Zubeck, H 29

      CRN: 39832
      Section: 201
      Date Range: 02/25-03/08

      Introduces students to a broad spectrum of engineering challenges that are unique to cold regions of the world. Physical principles and practical data collection, analysis, design, and construction methods are discussed. Students gain a working knowledge of cold regions engineering problems and modern solutions.
      Registration Restrictions: Degree in engineering, architecture, landscape architecture, geomatics, or physical science, upper class standing in an undergraduate program in these categories, or instructor permission.

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    Introduces students to a broad spectrum of engineering challenges that are unique to cold regions of the world. Physical principles and practical data collection, analysis, design, and construction methods are discussed. Students gain a working knowledge of cold regions engineering problems and modern solutions.
    Registration Restrictions: Degree in engineering, architecture, landscape architecture, geomatics, or physical science, upper class standing in an undergraduate program in these categories, or instructor permission.

* - Course meets a GER requirement