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Electrical Engineering |
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ELEN 472: Introduction To Digital Control 3 Semester Credit Hours . Prerequisite ELEN 471 . An introduction to the theory of linear control systems. Time-domain analysis of discrete systems. Z-transform. Sampling. Discrete-time signal analysis. Sampled data control systems. |
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ELEN 474: UAV Control 3 Semester Credit Hours . 0-3-3 Prerequisite ELEN 321 and Permission of Instructor Introduction to Unmanned Aerial Vehicles (UAVs), models and control methods; state-space models, LQR controls, pole placement, and robust control; stability; data links; path planning.
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ELEN 479: Automatic Control Systems Lab 1 Semester Credit Hours . Prerequisite Credit or registration in ELEN 471 . Laboratory design, simulation and testing of automatic control systems. |
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ELEN 481: Power Systems 3 Semester Credit Hours . Prerequisite ELEN 411 . Pre-unit notion. The design and analysis of balanced power systems including load flow, economic dispatch, short circuit and over current device coordination and control of watts and vars. (G) |
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ELEN 482: Power Systems Design and Analysis 3 Semester Credit Hours . Prerequisite ELEN 481 . Review of three-phase short circuits. Symmetrical components. Analysis of power systems in the transient state. Control of frequency and power flow in interconnected systems. (G) |
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ELEN 483: Motor Control 3 Semester Credit Hours . Prerequisite ELEN 481 . Speed control. Reduced voltage starting techniques. Classical relay ladder logic. Modern programmable logic control device applications. Power electronic applications. |
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ELEN 489: Power Systems Laboratory 1 Semester Credit Hours . Prerequisite Credit or registration in ELEN 481 . Laboratory design, simulation, and testing of electric power devices, machines, and systems. |
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ELEN 505: Solid State Effect . |
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ELEN 512: Electromagnetic Waves. 3 Semester Credit Hours . Prerequisite ELEN 411 . Propagation, reflection and refraction of electromagnetic waves. Guided waves and power flow. Boundry-value problems. |
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ELEN 524: Instrumentation and Measurement 3 Semester Credit Hours . 0-3-3 Prerequisite Graduate Standing and Permission of instructor
Transducers, including 4-20 mA loops. Signal Conditioning. Industrial Control Electronics, including Programmable Logic Controllers (PLCs). Statistical analysis of experimental data.
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ELEN 525: Telecommunication Theory and Appl 3 Semester Credit Hours . Emphasis on the physical and data link layers of the OSI model. Topics include modulation, utilization, multiplexing, impairments, and protocols on LANs, MANs and WANs. |
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ELEN 526: Modern Wireless and Optical Netwrk 3 Semester Credit Hours . Overview of wireless and optical networking (at all layers of the OSI model). Topics include: 4G, FTTx, OFDMA, software-defined-radio, ROADM, optical packet and burst switching. |
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ELEN 527: Optical Communication Systems 3 Semester Credit Hours . Optical telecommunication system performance issues and enabling technologies. Shot noise mitigation, dispersion compensation, reduction and exploitation of nonlinearities. Next generation optical networks, sources and detectors. |
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ELEN 531: Antennas and Radiation . |
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ELEN 533: Optoelectronics. 3 Semester Credit Hours . Prerequisite Permission of instructor. Modulation of light, display devices, lasers, photodectors, optical transistors, logic gates, Waveguides, transmitter and receiver design. |
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ELEN 535: Advanced Topics in Microelectronics 3 Semester Credit Hours . Prerequisite Consent of instructor. Selected topics of current research interest in the field of microelectronics. |
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ELEN 537: Advanced Microfabrication With Computer-Aided Design 3 Semester Credit Hours . Prerequisite ELEN 438 . Advanced microfabrication process development and integration with the aid of computer process modeling and simulation. |
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ELEN 538: Advanced Microelectronic Devices With Computer-Aided Design 3 Semester Credit Hours . Prerequisite ELEN 537 . Principles of operation and analysis of advanced microelectronic devices with the aid of computer device modeling and simulation. |
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ELEN 550: Special Problems 1-4 Semester Credit Hours . Prerequisite Consent of Instructor. Advanced problems in electrical engineering. The problems and projects will be treated by current methods used in professional practice. |
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ELEN 550A: Special Problems 1 Semester Credit Hours . Prerequisite Consent of Instructor. Advanced problems in electrical engineering. The problems and projects will be treated by current methods used in professional practice. |
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ELEN 550B: Special Problems 2 Semester Credit Hours . Prerequisite Consent of Instructor. Advanced problems in electrical engineering. The problems and projects will be treated by current methods used in professional practice. |
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ELEN 550C: Special Problems 3 Semester Credit Hours . Prerequisite Consent of Instructor. Advanced problems in electrical engineering. The problems and projects will be treated by current methods used in professional practice. |
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ELEN 550D: Special Problems 4 Semester Credit Hours . Prerequisite Consent of Instructor. Advanced problems in electrical engineering. The problems and projects will be treated by current methods used in professional practice. |
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ELEN 551: Research and Thesis in Electrical Engineering . Prerequisite 12 semester hours of graduate work. Registration in any quarter is for 3 semester hours credit or multiples thereof. Maximum credit applicable towards the degree is 6 semester hours. |
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ELEN 551C: Res and Thesis in Electrical Engr . Prerequisite 12 semester hours of graduate work. Registration in any quarter is for 3 semester hours credit or multiples thereof. Maximum credit applicable towards the degree is 6 semester hours. |
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ELEN 551F: Res and Thesis in Electrical Engr . Prerequisite 12 semester hours of graduate work. Registration in any quarter is for 3 semester hours credit or multiples thereof. Maximum credit applicable towards the degree is 6 semester hours. |
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ELEN 555: Practicum 3 (6) Semester Credit Hours . Prerequisite 12 semester hours of graduate work. Analytical and/or experimental solution of an engineering problem; technical literature survey required, development of engineering research techniques. (Pass/Fail) |
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ELEN 557: Special Topics: Electrical Engineering 3 (9) Semester Credit Hours . The topic or topics will be selected by the instructor from the various sub-areas of electrical engineering. May be repeated as topics change. |
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ELEN 561: Random Signals and Systems 3 Semester Credit Hours . Prerequisite ELEN 461 , ELEN 471 . Random signal analysis. Correlation and power spectrum analysis. Stochastic communication and control systems. |
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ELEN 565: Digital Signal Processing 3 Semester Credit Hours . Prerequisite ELEN 461 . Review of discrete linear signals and systems theory. Design/Implementation of FIR and IIR digital filters. Quantization and finite word length effects. Spectrum estimation. |
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ELEN 566: Estimation Theory 3 Semester Credit Hours . Prerequisite ELEN 561 . Estimation, based on noise-corrupted observations, of unknown system states. Maximum-likelihood and least square estimation; matched filters. Wiener and Kalman filtering. |
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ELEN 567: Wireless Sensor Networks 3 Semester Credit Hours . Topics include: Introduction to wireless sensor networks, networks, topology, routing, graph theory, hardware components, layered network architecture, coverage and connectivity, localization and tracking, network platforms. |
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ELEN 572: Digital Control Systems I 3 Semester Credit Hours . Prerequisite ELEN 471 . Sampling Theory. Date reconstruction. Z-transforms. Stability analysis. Time-domain analysis. Frequency domain analysis. Introduction to Digital Control Systems. |
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ELEN 573: Digital Control Systems II 3 Semester Credit Hours . Prerequisite ELEN 572 or permission of instructor. Review of Z-transforms. State variable techniques. Controllability and observability. Design of digital control systems with state variable techniques. Digital state observer. Microprocessor control. |
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ELEN 574: UAV Control 3 Semester Credit Hours . 0-3-3 Prerequisite Permission of instructor Introduction to Unmanned Aerial Vehicles (UAVs), models and control methods; state-space models, LQR controls, pole placement, and robust control; stability; data links; path planning. |
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ELEN 575: Nonlinear Systems 3 Semester Credit Hours . Topics include: Introduction to nonlinear systems, equilibrium points, phase-plane analysis, limit cycles, examples of nonlinear systems, Lyapunov stability, feedback linearization, nonlinear observers, adaptive control. |
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ELEN 581: Computer Applications To Power Systems 3 Semester Credit Hours . Prerequisite ELEN 481 . The study of algorithms for power network matrices, three-phase networks, fault, load flow and stability problems solution by computer methods. |
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ELEN 582: Motor Control and Power Electronics 3 Semester Credit Hours . Prerequisite ELEN 481 . Electronic and electromagnetic motor control devices; programmable controllers; motor protection; solid state power device application to DC and AC power conversion. |
Electrical Engineering Technology |
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ELET 100: Intro To Electrical Engr Tech 1 Semester Credit Hours . A survey of topics to introduce the students to the profession, the department and the curricula. |
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ELET 170: Elec Circuit Theory I-Dc Circuit 3 Semester Credit Hours . Prerequisite MATH 101 Introduction to DC circuit theory: mesh and nodal analysis, network theorems, Kirchhoff’s Laws, single time-constant transients and Thevenin’s and Norton’s equivalents for DC circuits. A minimum grade of C” is required.” |
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ELET 171: Electrical Circuits I Laboratory 1 Semester Credit Hours . Corequisite ELET 170 . Exercises that demonstrate and reinforce theoretical DC circuit concepts. Skills in component recognition, component value identification and proper test equipment usage are emphasized. |
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ELET 180: Elec Circuit Thry II-Ac Circuits 3 Semester Credit Hours . Prerequisite ELET 170 and MATH 112 An extension of concepts developed in ELET 170 to include sinusoidal steady-state analysis of alternating current circuits. A minimum grade of C” is required.” |
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ELET 181: Electrical Circuits II Laboratory 1 Semester Credit Hours . Corequisite ELET 180 . Exercises that demonstrate and reinforce theoretical AC circuit concepts. The proper use of AC test equipment is emphasized. |
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ELET 260: Electronic Circuit Theory I 3 Semester Credit Hours . Prerequisite ELET 180 An introductory treatment of solid-state devices emphasizing the junction diode, bipolar junction transistor and the field effect transistor. A minimum grade of C” is required.” |
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ELET 261: Electronic Circuits Laboratory I 1 Semester Credit Hours . Corequisite ELET 260 . Exercises demonstrating theoretical electronic circuit concepts. Skills are developed in component identification and specification, circuit assembly, schematic interpretation, test equipment usage and troubleshooting. |
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ELET 268: Electrical Projects Laboratory 1 Semester Credit Hours . Prerequisite ELET 260 Introduction to project development concepts Via assigned and student-selected topics. Soldering, troubleshooting and the practical use of test equimpment are emphasized. |
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ELET 270: Instrumentation 3 Semester Credit Hours . Prerequisite ELET 180 An introduction to measurement methods and the principles of operation of sensors and actuators used in open-loop and closed-loop control systems. |
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ELET 271: Instrumentation Laboratory 1 Semester Credit Hours . Corequisite ELET 270 . The study of measurement methods and general applications of industrial instrumentation. |
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ELET 272: Electronic Circuit Theory II 3 Semester Credit Hours . Prerequisite ELET 260 Corequisite ELET 273 Continuation of ELET 260 . The study of semiconductor devices and circuits; applications of these circuits in practical situations. |
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ELET 273: Electronic Circuits II Laboratry 1 Semester Credit Hours . Corequisite ELET 272 . Exercises that demonstrate and reinforce electronic circuit concepts. Further development of skills in electronic circuit construction, component identification and troubleshooting. |
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ELET 280: Elec Power I-Indus Power Distr 3 Semester Credit Hours . Prerequisite ELET 180 Electrical power generation, transmission and distribution systems. Equipment requirements and characteristics. Design fundamentals of typical electrical installations. A minimum grade of C” is required.” |
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ELET 360: Elec Pwr II-Electro-Mech Pwr Conversion 3 Semester Credit Hours . Prerequisite ELET 280 The theory of operation and equivalent circuits of transformers; DC generators and motors; AC synchronous generators and motors and AC induction motors. |
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ELET 361: Electro-Mech Power Conv Lab 1 Semester Credit Hours . Prerequisite ELET 360 Exercises that demonstrate and reinforce the operating characteristics of power transformers; AC and DC motors; AC and DC generators and solid-state power conversion equipment. |
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ELET 370: Intro To Digital Circuits 2 Semester Credit Hours . Prerequisite ELET 260 An introduction to digital circuit fundamentals: binary numbers, Boolean algebra, truth tables, combinational logic and logic minimization. Operation of logic circuits and sequential digital circuits. |
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ELET 371: Intro To Digital Circuits Lab 1 Semester Credit Hours . 3-0-1 Prerequisite ELET 372 or Corequisite ELET 372 Exercises that demonstrate the operation and use of basic logic circuits and an assortment of sequential digital circuits. Solid-state, integrated devices are emphasized. |
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ELET 372: Introduction to Digital Circuits 3 Semester Credit Hours . 0-3-3 Prerequisite ELET 260 Digital circuit fundamentals: binary numbers, Boolean algebra, truth tables, combinational logic and logic minimization, adders, multiplexers, sequential logic, counters, and memory circuits.
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ELET 374: Introduction To Microcontrollers 2 Semester Credit Hours . Prerequisite ELET 260 Corequisite ELET 375 Introduction to microcontroller organization, operation, data manipulation, programming, register level operations and device interfacing. |
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ELET 375: Microcontrollers Laboratory 1 Semester Credit Hours . 3-0-1 Corequisite ELET 376 Practical exercises in microprocessor data manipulation, programming and device interfacing. |
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ELET 376: Introduction to Microcontrollers 3 Semester Credit Hours . 0-3-3 Prerequisite ELET 260 Corequisite ELET 375 Microcontroller organization, operation, data manipulation, programming, register level operations and device interfacing. Serial communications, timers, analog to digital conversion, interrupts, PWM outputs.
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ELET 380: Print Circuit Brd(PCB)Des and Fab 3 Semester Credit Hours . Prerequisite ELET 260 An introduction to PCB layout software and the milling machine hardware used to fabricate prototype PCBs. |
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ELET 390: Electrical Drafting 3 Semester Credit Hours . 3-2-3 Prerequisite ELET 272 and ELET 372 An introduction to computer aided drafting (CAD). CAD creation of schematic diagrams, wiring diagrams and instrument loop diagrams is emphasized. |
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ELET 422: Control Sys I-Discrete I/O Sys 3 Semester Credit Hours . 0-3-3 Prerequisite ELET 372 Corequisite ELET 423 Application of the programmable logic controller (PLC) as a control device in two-state input/output control systems. Relay ladder logic programming is emphasized. |
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ELET 423: Control Systems I Laboratory 1 Semester Credit Hours . Corequisite ELET 422 An introduction to programmable logic controller (PLC) hardware and programming software. PLC programming and application skills are developed through practical exercises. |
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ELET 460: Digital Data Communication Networks 3 Semester Credit Hours . Prerequisite ELET 260 The study of systems used in communicating digital data. LANs and WANs. |
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ELET 461: Digital Data Communication Laboratory 1 Semester Credit Hours . Prerequisite ELET 460 OR CONCURRENT REGISTRATION IN ELET 460 Corequisite ELET 460 OR CONCURRENT REGISTRATION IN ELET 460 Practical exercises that demonstrate and reinforce classroom material. Installation and administration of a LAN. |
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ELET 470: Control Systems II - Analog Sys 3 Semester Credit Hours . Prerequisite ELET 272 and MATH 223 An introduction to linear feedback control systems including transient response analysis, stability, steady-state error analysis and system response modification. |
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ELET 471: Control Systems II Laboratory 1 Semester Credit Hours . Prerequisite ELET 470 Practical laboratory exercises that investigate the time responses, stability, and controller tuning of first- and second-order physical systems. |
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ELET 472: Professionalism and Ethics for Electrical Engineering Technology 1 Semester Credit Hours . Prerequisite Senior standing. Cultural and social diversity issues; professional behaviors, and ethical standards applicable to professional practice. Current job market and other employment related topics are also addressed. |
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ELET 475: Capstone Design I 1 Semester Credit Hours . Prerequisite SENIOR STANDING AND PERMISSION OF DEPARTMENT HEAD A self-directed student project incorporating practical skills and technical knowledge derived from the entire curriculum. A minimum grade of C” is required.” |
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ELET 476: Capstone Design II 1 Semester Credit Hours . Prerequisite ELET 475 Continuation of ELET 475 . Students apply program-acquired knowledge and practical skills to a problem-solving/project-management scenario. A minimum grade of C” is required.” |
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ELET 477: Capstone Design III 1 Semester Credit Hours . Prerequisite ELET 476 Continuation of ELET 476 . Terminal capstone course in which students apply program-acquired knowledge and practical skills to a student-directed problem solving/project management scenario. |
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ELET 490: Special Problems Laboratory 1 Semester Credit Hours . Prerequisite Consent of instructor. A laboratory course for covering a selected topic of relevant interest. May also be utilized for special project assignments. |
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ELET 490A: Special Problems 1 Semester Credit Hours . Prerequisite Consent of instructor A course for covering a selected topic of relevant interest. May also be utilized for special project assignments. |
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ELET 490B: Special Problems 2 Semester Credit Hours . Prerequisite Consent of instructor A course for covering a selected topic of relevant interest. May also be utilized for special project assignments. |
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ELET 490C: Special Problems 3 Semester Credit Hours . Prerequisite Consent of instructor A course for covering a selected topic of relevant interest. May also be utilized for special project assignments. |
Engineering |
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ENGR 120: Engineering Problem Solving I 2 Semester Credit Hours . Corequisite MATH 240 , CHEM 100 . The engineering profession, engineering problem solving, computer applications. |
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ENGR 121: Engineering Problem Solving II 2 Semester Credit Hours . Prerequisite ENGR 120 . Corequisite MATH 241 , CHEM 101 . Introduction to engineering design, engineering problem solving, computer applications. |
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ENGR 122: Engineering Problem Solving III 2 Semester Credit Hours . Prerequisite ENGR 121 . Corequisite MATH 242 . Engineering design, engineering problem solving, computer applications. |
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ENGR 189: Special Topics . Selected topics in an identified area of study in the College of Engineering and Science. May be repeated for credit. |
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ENGR 189A: Special Topics . Selected topics in an identified area of study in the College of Engineering and Science. May be repeated for credit. |
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ENGR 189B: Special Topics . Selected topics in an identified area of study in the College of Engineering and Science. May be repeated for credit. |
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ENGR 189C: Special Topics . Selected topics in an identified area of study in the College of Engineering and Science. May be repeated for credit. |
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ENGR 189D: Special Topics . Selected topics in an identified area of study in the College of Engineering and Science. May be repeated for credit. |
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ENGR 194: Special Topics . Selected topics in an identified area of study in the College of Engineering and Science. May be repeated for credit. |
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ENGR 194A: Special Topics . Selected topics in an identified area of study in the College of Engineering and Science. May be repeated for credit. |
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ENGR 194B: Special Topics . Selected topics in an identified area of study in the College of Engineering and Science. May be repeated for credit. |
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ENGR 194C: Special Topics . Selected topics in an identified area of study in the College of Engineering and Science. May be repeated for credit. |
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ENGR 194D: Special Topics . Selected topics in an identified area of study in the College of Engineering and Science. May be repeated for credit. |
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ENGR 220: Statics and Mechanics of Materials 3 Semester Credit Hours . Prerequisite ENGR 122 , PHYS 201 , MATH 242 . Resultants and equilibrium of force systems, stress and strain, truss and frame analysis, torsion, bending. |
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ENGR 221: Electrical Engineering and Circuits I 3 Semester Credit Hours . Prerequisite ENGR 122 , MATH 242 and PHYS 201 Fundamental concepts, units and laws. Network theorems, network simplification, phasors and AC solution of circuits, power and electronic applications. |
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ENGR 222: Thermodynamics 3 Semester Credit Hours . Prerequisite ENGR 122 , MATH 242 . Fundamental concepts, properties of pure substance, work, heat, first and second laws of thermodynamics, entropy, cycle analysis. |
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ENGR 289: Special Topics . Selected topics in an identified area of study in the College of Engineering and Science. May be repeated for credit. |
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ENGR 289A: Special Topics . Selected topics in an identified area of study in the College of Engineering and Science. May be repeated for credit. |
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ENGR 289B: Special Topics . Selected topics in an identified area of study in the College of Engineering and Science. May be repeated for credit. |
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ENGR 289C: Special Topics . Selected topics in an identified area of study in the College of Engineering and Science. May be repeated for credit. |
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ENGR 289D: Special Topics . Selected topics in an identified area of study in the College of Engineering and Science. May be repeated for credit. |
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ENGR 294: Special Topics . Selected topics in an identified area of study in the College of Engineering and Science. May be repeated for credit. |
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ENGR 294A: Special Topics . Selected topics in an identified area of study in the College of Engineering and Science. May be repeated for credit. |
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ENGR 294B: Special Topics . Selected topics in an identified area of study in the College of Engineering and Science. May be repeated for credit. |
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ENGR 294D: Special Topics . Selected topics in an identified area of study in the College of Engineering and Science. May be repeated for credit. |
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