electrical engineering, b.s. m.i. sid: advisor · em flds & waves cert c c or // ee 261 &...
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CHEM 105 (4)Chemistry I
MATH 220 (2)Lin. Algebra
MATH 171 (4)Calculus I
MATH 172 (4)Calculus II
MATH 273 (2)Calculus III
ENGL 101 (3)Intro. Writing
(3)
PHYS 201 (4)Eng. Physics I
HISTCont. Issues
M. Economics
PHYS 202 (4)Eng. Physics II
(3)
MATH 315 (3)C
C
MATH 106 & C & MATH 108 & Cor 83% ALEKS C or //
MATH 106 or other MATHor 80% ALEKS MATH 171 or //
Pass in Writing Examor ENGL 100 & S
MATH 171 & C or MATH 172, 273, 315 or //
MATH >= 101 or // in MATH >=106or 40% ALEKS
C
Freshman – Year 1 Sophomore – Year 2 Junior – Year 3
Electrical Engineering, B.S. SID: Advisor:
ALEKS: Math Placement: Writing Placement:
Transfer School:
Start Sem.: Cert. Sem.: Grad. Sem.:
Fall: 16 Cr Spring: 14 Cr Fall: 15 Cr Spring: 17 Cr
11 Required UCORE Courses - UCORE GPA:[ROOT], [QUAN], [WRTG], [COMM], [SSCI], [PSCI], [CAPS], , , ,
Version 7.0 - 07-22-2018
(3)
Senior –Year 4 Fall: 16 CrFall: 15 Cr
Notes
Credits: Credits Completed:
A's
A-'s
B+'s
B's
B-'s
C+'s
C's
C-'s
D+'s
D's
F's
Last Name:M.I.:
Transfer Degree:
First Name:Advising Gateway
Certification Requirements: Cum GPA >= 2.5 and at least a “C” in each of these 7 courses:CptS 121 , EE 214 , MATH 171 , MATH 172 , MATH 220 , MATH 273 , PHYS 201
Sem. GPA: Sem. GPA: Sem. GPA: Sem. GPA: Sem. GPA: Sem. GPA:
5 Required Track EE Electives
& e-mail: # Sem. Courses:
ENGR 120 (2)Innovation
EE 214 (4)Logic Circuits
EE 261 (3)Elect. Circuits I
EE 262 (1)Elect. Circ. Lab
(3)
CptS 121 (4)Comp. Prog.
EE 352 (3)Elect Eng Lab I
EE 311 (3)Electronics
Engr Science I
STAT 360 (3) Prob. & Statistics
Spring: 15 Cr EE 361 (3)
Elect. Pwr Syst
EE 341 (3)Signals & Syst
Track Elective 1
(3)
EE 415 (3) Des. Proj. Mngmt
EE 302 (3)Profes. Skills
Spring: 15 Cr EE 416 (3)
Elect. Eng Dsgn
ENGL 402 (3)Tech. Writing
Cert
Cert; Junior Standing
Cert;
Cert; EE 321 & C or //
Cert; EE 321 & C; STAT & C or //
Cert; OtherPrereqs Depend on Elective
EE 221 (2)Numer. Comp.
MATH >=108 & Cor 80% ALEKS or dept placement
C
MATH 172 & C;
EE 234 (4) Micropr. Syst.
Track Elective 2
Track Elective 3
EE 499 (1)FE Review
Track Elective 4
Track Elective 5
Engr Science II
C or//
MATH 315 & C or //;PHYS 202 & C or //
Cert
Cert;EE 321 & C; EE 331 & C
C
Cert; OtherPrereqs Depend on Elective
Cert; OtherPrereqs Depend on Elective
Cert; OtherPrereqs Depend on Elective
Cert; OtherPrereqs Depend on Elective
CptS 122 & C; EE 214 & C
ENGL 101;Junior Stand.
CE 211: MATH 172 or //; PHYS 201 or //ME 301: PHYS 201 & C
ME 212: MATH 172 & C; CE 211 & CME 301: PHYS 201 & C
Sem. GPA:
Remaining Cum. GPA Cert. GPA M&P GPA ENG GPA
Sem. GPA:
Courses
EE 331 (3)EM Flds & Waves
CertC
C or //
EE 261 & C; MATH 315 & C; PHYS 202 & C
MATH 172 & C;
//
MATH 172
C
C
Cert; ENGL 402 & C or //C or //
C Diff. Equations
EE 321 (3)Elect. Circuits II
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Desired Cum GPA:Requirements:
Writing PortfolioTri-Cities Contact
Track Options and Electives
This is for unofficial planning purposes only and does not represent any official endorsement. The official requirements are available in the WSU Catalog.
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This is the Mathematics and Physical Sciences GPA, calculated from the grades of all the Mathematics and Physical Sciences courses currently completed.
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This is the cumulative GPA calculated from the grades of all the WSU courses completed thus far. This is the engineering GPA, calculated from the grades of all the Engineering courses currently completed.
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Enter the number of courses you wish to take next semester
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234 Microprocessor Systems 4 (3-3) Course Prerequisite: CPT S 122 with a C or better; E E 214 with a C or better. Microprocessor system architecture, instruction sets, and interfacing; assembly language programming.
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415 Design Project Management 3 (1-6) Course Prerequisite: E E 341 with a C or better and E E 361 with a C or better; or E E 334 with a C or better and CPT S 360 with a C or better; certified major in Electrical Engineering, Computer Science, or Computer Engineering. Project scheduling/planning, technical writing, oral presentation skills, working in teams, TQC, TQM, market-driven organizations.
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416 [CAPS] [M] Electrical Engineering Design 3 (1-6) Course Prerequisite: E E 415 with a C or better; ENGLISH 402 with a C or better, or concurrent enrollment, or ENGLISH 403 with a C or better, or concurrent enrollment; certified major in E E, Cpt S, Cpt E or Cpt A; senior standing. Electrical engineering design of specific projects including design specification; written and oral presentations and reports.
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262 Electrical Circuits Laboratory I 1 (0-3) Course Prerequisite: E E 261 with a C or better or concurrent enrollment. Electrical instruments; laboratory applications of electric laws; transient and steady-state responses of electrical circuits.
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331 Electromagnetic Fields and Waves 3 Course Prerequisite: E E 261 with a C or better; E E 262 with a C or better or concurrent enrollment; MATH 315 with a C or better; PHYSICS 202 with a C or better. Certification not required. Students will be required to pass a math skills test. Fundamentals of transmission lines, electrostatics, magnetostatics, and Maxwell's Equations for static fields.
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360 Probability and Statistics 3 Course Prerequisite: MATH 172 or MATH 182. Probability models, sample spaces, random variables, distributions, moments, comparative experiments, tests, correlation and regression in engineering applications. Credit not granted for both STAT 360 and 370. Cooperative: Open to UI degree-seeking students.
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402 [WRTG] [M] Technical and Professional Writing 3 Course Prerequisite: ENGLISH 101 or 298; junior standing. Research writing: defining, proposing, reporting progress; presenting a final product; other professional writing needs. Credit not granted for both ENGLISH 402 and 403.
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105 [ROOT] The Roots of Contemporary Issues 3 Foundational first-year course that explores the deep historical roots of global contemporary issues relevant to students' lives in the 21st century. Credit not granted for both HISTORY 105 and 305. or 305 [ROOT] Roots of Contemporary Issues For Transfer Students 3 Course Prerequisite: Junior standing. Historical roots of global contemporary issues relevant to students' lives in the 21st century. Credit not granted for both HISTORY 105 and 305.
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120 Innovation in Design 2 (1-3) Introduction to engineering disciplines, problem solving, design teamwork and ethics.
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Certification Course 171 [QUAN] Calculus I 4 (3-3) Course Prerequisite: MATH 106 with a C or better and MATH 108 with a C or better, or a minimum ALEKS math placement score of 83%. Enrollment not allowed if credit already earned for MATH 140, 202, or 206. Differential and integral calculus of one variable with associated analytic geometry. Credit not normally allowed for more than one of MATH 140, 171, 202, 206.
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105 [PSCI] Principles of Chemistry I 4 (3-3) Course Prerequisite: Credit for or concurrent enrollment in one of the following courses: MATH 106, 108, 140, 171, 172, 182, 202, or ENGR 107, or a minimum ALEKS math placement score of 80%. Stoichiometry, structure, gases, liquids, solids, solutions, thermodynamics, kinetics, equilibrium, volumetric, and gravimetric analysis. Recommended preparation: One year high school chemistry or CHEM 101.
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101 [WRTG] College Composition 3 Course Prerequisite: Appropriate Writing Exam score or completion of ENGLISH 100 with an S grade. Designed to further develop students' academic writing, critical thinking, rhetorical strategies, reading and library skills. Credit not granted for more than one of ENGLISH 101 and 105.
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Certification Course 121 Program Design and Development C/C++ 4 (3-3) Course Prerequisite: MATH 108, 171, 172, 182, 201, 202, 206, or 220, each with a C or better, or a minimum ALEKS math placement score of 80%, or adequate CPT S placement test score determined by the department. Formulation of problems and top-down design of programs in a modern structured language (C/C++) for their solution on a digital computer.
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Certification Course 172 Calculus II 4 (3-3) Course Prerequisite: MATH 171 with a C or better. Techniques and applications of one-variable calculus; estimations; series, derivative of a vector function. Credit not granted for both MATH 172 and 182.
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Certification Course 214 Design of Logic Circuits 4 (3-3) Design and application of combinational logic circuits with exposure to modern methods and design tools; introduction to sequential logic circuits. Recommended preparation: Prior programming class.
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Choose one of the following 101 [SSCI] Fundamentals of Microeconomics 3 Course Prerequisite: MATH 101, MATH 103 (or higher) or concurrent enrollment, MGTOP 215, STAT 205, STAT 212 or concurrent enrollment, or a minimum ALEKS score of 40%. Enrollment not allowed if credit for ECONS 198 with a C or higher and ECONS 102. Theory and policy of human responses to scarcity; how this affects business competition, international trade, industrial organization, investment, and income distribution. Or 102 [SSCI] Fundamentals of Macroeconomics 3 Course Prerequisite: MATH 101 (or higher), STAT 205, or 212; or concurrent enrollment in MATH 106 (or higher), or STAT 212; or a minimum ALEKS score of 40%. Enrollment not allowed if credit earned for ECONS 198 with a grade of C or higher and ECONS 101. Theory and policy related to unemployment, inflation, foreign trade, government spending, taxation, and banking.
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Certification Course 273 Calculus III 2 Course Prerequisite: MATH 172 with a C or better, or MATH 182 with a C or better. Calculus of functions of several variables. Credit not granted for both MATH 273 and 283.
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Certification Course 220 Introductory Linear Algebra 2 Course Prerequisite: MATH 171 or concurrent enrollment. Elementary linear algebra with geometric applications. Credit not normally granted for more than one of MATH 220 and 230.
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Certification Course 201 [PSCI] Physics for Scientists and Engineers I 4 (3-3) Course Prerequisite: MATH 171 with a C or better, MATH 172 or concurrent enrollment, MATH 182 or concurrent enrollment, MATH 273 or concurrent enrollment, or MATH 315 or concurrent enrollment. Calculus-based physics; topics in motion and dynamics of particles and rigid bodies, vibrations, wave phenomena, and the laws of thermodynamics. Credit not granted for more than one of PHYSICS 101, 201, or 205.
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261 Electrical Circuits I 3 Course Prerequisite: MATH 315 with a C or better or concurrent enrollment; PHYSICS 202 with a C or better. Application of fundamental concepts of electrical science in linear circuit analysis; mathematical models of electric components and circuits.
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315 Differential Equations 3 Course Prerequisite: MATH 273 with a C or better or Math 283 with a C or better; and MATH 220 with a C or better or concurrent enrollment, or MATH 230 with a C or better or concurrent enrollment. Linear differential equations and systems; series, numerical and qualitative approaches; applications.
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EE 221 Numerical Computing for Engineers 2 Course Prerequisite: MATH 172 or 182 with a C or better; MATH 220 with a C or better or concurrent enrollment. Solutions to engineering problems using modern software tools such as Matlab.
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202 [PSCI] Physics for Scientists and Engineers II 4 (3-3) Course Prerequisite: PHYSICS 201 with a C or better or PHYSICS 205 with a C or better; MATH 172 with a C or better or MATH 182 with a C or better. Calculus-based physics, topics in electricity, magnetism, electromagnetics, D/C and A/C circuits, optics, reflection, refraction, interference, diffraction, polarization. Credit not granted for more than one of PHYSICS 102, 202, or 206.
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311 Electronics 3 Course Prerequisite: E E 261 with a C or better; concurrent enrollment in E E 352; certified major in Electrical Engineering, Computer Science, or Computer Engineering. Fundamental device characteristics including diodes, MOSFETs and bipolar transistors; small- and large-signal characteristics and design of linear circuits.
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321 Electrical Circuits II 3 Course Prerequisite: E E 261 with a C or better; certified major in Electrical Engineering, Computer Science, or Computer Engineering. State space analysis, Laplace transforms, network functions, frequency response, Fourier series, two-ports, energy and passivity.
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361 Electrical Power Systems 3 Course Prerequisite: E E 321 with a C or better; E E 331 with a C or better; certified major in Electrical Engineering, Computer Science, or Computer Engineering. Power system hardware; transformers, and electromechanical machinery; introduction to power system operation.
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341 Signals and Systems 3 Course Prerequisite: E E 321 with a C or better; STAT 360 with a C or better or concurrent enrollment, or STAT 443 with a C or better or concurrent enrollment; certified major in Electrical Engineering, Computer Science, or Computer Engineering. Discrete and continuous-time signals, LTI systems, convolution, sampling, Fourier transform, filtering, DFT, amplitude modulation, probability applications.
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302 Professional Skills in Computing and Engineering 3 Course prerequisite: Certified major in Computer Science, Computer Engineering, Electrical Engineering, or Software Engineering; junior standing. Foundation in computing and engineering professional development. (Crosslisted course offered as CPT S 302, E E 302). Credit not granted for both CPT S/E E 302 and CPT S 401.
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Five courses are required. Please, check the details in the “Track Options and Electives” field EE 455 Introduction to Computer Networks 3 Course Prerequisite: CPT S 360, CPT S 370, or E E 234, with a C or better; certified major in Computer Science, Computer Engineering, Electrical Engineering, or Software Engineering. Concepts and implementation of computer networks; architectures, protocol layers, internetworking and addressing case studies. (Crosslisted course offered as CPT S 455, E E 455). EE 489 Introduction to Control Systems 3 Course Prerequisite: E E 341 with a C or better or concurrent enrollment; certified major in Electrical Engineering, Computer Science, or Computer Engineering. State variable models, system response, stability analysis, root locus analysis and design; frequency-response and state-space analysis and design. EE 491 Performance of Power Systems 3 Course Prerequisite: E E 361 with a C or better; certified major in Electrical Engineering, Computer Science, or Computer Engineering. Static and dynamic behavior of power systems, powerflow, and economic considerations. EE 496 Semiconductor Devices 3 Course Prerequisite: Certified major in Electrical Engineering, Computer Science, or Computer Engineering. Equilibrium statistics of electrons and holes; carrier dynamics; p-n junctions, metal-semiconductor junctions, BJTs, Mosfets, solar cells, and LEDs. EE 499 Special Problems V 1-4 May be repeated for credit. Independent study conducted under the jurisdiction of an approving faculty member; may include independent research studies in technical or specialized problems; selection and analysis of specified readings; development of a creative project; or field experiences. S, F grading.
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BSEE students are strongly encouraged to take EE 499 in the fall of their senior year and then take the FE exam in the winter. 499 Special Problems – FE Review 1 Course prerequisite: Certified in Electrical Engineering. Review of engineering fundamentals and specific electrical engineering topics to prepare for the Fundamentals of Engineering Examination. S, F grading.
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Five courses are required. Please, check the details in the “Track Options and Electives” field EE 351 Distributed Parameter Systems 3 Course Prerequisite: E E 331 with a C or better; certified major in Electrical Engineering, Computer Science, or Computer Engineering. Maxwell's equations, plane waves, waveguides, resonators, antennas, numerical methods. EE 362 Power System Laboratory I 3 (1-6) Course Prerequisite: E E 262 with a C or better; E E 352 with a C or better; concurrent enrollment in E E 361; concurrent enrollment in E E 341; certified major in Electrical Engineering, Computer Science, or Computer Engineering. Experiments in simulation, modeling, transformers, rotating machines, and transmission lines. EE 432 RF Engineering for Telecommunications 4 (3-3) Course Prerequisite: E E 341 with a C or better; E E 351 with a C or better; STAT 360 with a C or better or STAT 443 with a C or better; certified major in Electrical Engineering, Computer Science, or Computer Engineering. System and propagation issues for wireless telecommunications; cellular, PCS, EE 464 Digital Signal Processing I 3 Course Prerequisite: E E 341 with a C or better; certified major in Electrical Engineering, Computer Science, or Computer Engineering. Discrete and fast Fourier transforms; Z-transform; sampling; discrete convolution; digital filter design; effects of quantization. EE 476 Analog Integrated Circuits 3 Course Prerequisite: E E 311 with a C or better; certified major in Electrical Engineering, Computer Science, or Computer Engineering. Analysis and design of analog integrated circuits in CMOS and BiCMOS technologies; current mirrors, gain stages, operational amplifiers, frequency response, and compensation. Credit not granted for both E E 476 and 576. Offered at 400 and 500 level EE 492 Renewable Energy Sources 3 (2-3) Course Prerequisite: E E 361 with a C or better; certified major in Electrical Engineering, Computer Science, or Computer Engineering. Design of electrical generation plants using wind, solar and other renewable energy sources including technical, environmental and economic aspects. EE 493 Protection of Power Systems I 3 Course Prerequisite: E E 361 with a C or better; certified major in Electrical Engineering, Computer Science, or Computer Engineering. Analysis and equipment fundamentals of power system protection; symmetrical components, fault calculations; fuses; and relays including burden calculations. EE 499 Special Problems V 1-4 May be repeated for credit. Independent study conducted under the jurisdiction of an approving faculty member; may include independent research studies in technical or specialized problems; selection and analysis of specified readings; development of a creative project; or field experiences. S, F grading.
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This the total number of courses for which grades remain to be entered for the current semester. Enter a 0 (zero) to start the review and recommendation process.
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This is the cumulative GPA calculated from the grades of all the WSU courses completed thus far.
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This is the certification GPA, calculated from the grades of all the courses completed in the first three program semesters, at the end of which an application for certification should be submitted.
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Click Here to Enter Advising Notes in this Box.
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ME 211 Statics 3 Course Prerequisite: MATH 172 or concurrent enrollment, or MATH 182 or concurrent enrollment; PHYSICS 201 or concurrent enrollment, or PHYSICS 205 or concurrent enrollment. Engineering mechanics concepts; force systems; static equilibrium; centroids, centers of gravity; shear and moment diagrams; friction; moments of inertia. Or ME 301 Fundamentals of Thermodynamics 3 Course Prerequisite: PHYSICS 201 with a grade of C or better. Thermodynamic properties of matter, ideal and real gases, work and heat, first and second laws and their application to engineering systems.
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ME 212 Dynamics 3 Course Prerequisite: MATH 172 or 182 with a grade of C or better; CE 211 with a grade C or better. Kinematics and kinetics of particles and rigid bodies; introduction to mechanical vibration. Or ME 301 Fundamentals of Thermodynamics 3 Course Prerequisite: PHYSICS 201 with a grade of C or better. Thermodynamic properties of matter, ideal and real gases, work and heat, first and second laws and their application to engineering systems.
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Five courses are required. Please, check the details in the “Track Options and Electives” field EE 455 Introduction to Computer Networks 3 Course Prerequisite: CPT S 360, CPT S 370, or E E 234, with a C or better; certified major in Computer Science, Computer Engineering, Electrical Engineering, or Software Engineering. Concepts and implementation of computer networks; architectures, protocol layers, internetworking and addressing case studies. (Crosslisted course offered as CPT S 455, E E 455). EE 489 Introduction to Control Systems 3 Course Prerequisite: E E 341 with a C or better or concurrent enrollment; certified major in Electrical Engineering, Computer Science, or Computer Engineering. State variable models, system response, stability analysis, root locus analysis and design; frequency-response and state-space analysis and design. EE 491 Performance of Power Systems 3 Course Prerequisite: E E 361 with a C or better; certified major in Electrical Engineering, Computer Science, or Computer Engineering. Static and dynamic behavior of power systems, powerflow, and economic considerations. EE 496 Semiconductor Devices 3 Course Prerequisite: Certified major in Electrical Engineering, Computer Science, or Computer Engineering. Equilibrium statistics of electrons and holes; carrier dynamics; p-n junctions, metal-semiconductor junctions, BJTs, Mosfets, solar cells, and LEDs. EE 499 Special Problems V 1-4 May be repeated for credit. Independent study conducted under the jurisdiction of an approving faculty member; may include independent research studies in technical or specialized problems; selection and analysis of specified readings; development of a creative project; or field experiences. S, F grading.
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Five courses are required. Please, check the details in the “Track Options and Electives” field EE 351 Distributed Parameter Systems 3 Course Prerequisite: E E 331 with a C or better; certified major in Electrical Engineering, Computer Science, or Computer Engineering. Maxwell's equations, plane waves, waveguides, resonators, antennas, numerical methods. EE 362 Power System Laboratory I 3 (1-6) Course Prerequisite: E E 262 with a C or better; E E 352 with a C or better; concurrent enrollment in E E 361; concurrent enrollment in E E 341; certified major in Electrical Engineering, Computer Science, or Computer Engineering. Experiments in simulation, modeling, transformers, rotating machines, and transmission lines. EE 432 RF Engineering for Telecommunications 4 (3-3) Course Prerequisite: E E 341 with a C or better; E E 351 with a C or better; STAT 360 with a C or better or STAT 443 with a C or better; certified major in Electrical Engineering, Computer Science, or Computer Engineering. System and propagation issues for wireless telecommunications; cellular, PCS, EE 464 Digital Signal Processing I 3 Course Prerequisite: E E 341 with a C or better; certified major in Electrical Engineering, Computer Science, or Computer Engineering. Discrete and fast Fourier transforms; Z-transform; sampling; discrete convolution; digital filter design; effects of quantization. EE 476 Analog Integrated Circuits 3 Course Prerequisite: E E 311 with a C or better; certified major in Electrical Engineering, Computer Science, or Computer Engineering. Analysis and design of analog integrated circuits in CMOS and BiCMOS technologies; current mirrors, gain stages, operational amplifiers, frequency response, and compensation. Credit not granted for both E E 476 and 576. Offered at 400 and 500 level EE 492 Renewable Energy Sources 3 (2-3) Course Prerequisite: E E 361 with a C or better; certified major in Electrical Engineering, Computer Science, or Computer Engineering. Design of electrical generation plants using wind, solar and other renewable energy sources including technical, environmental and economic aspects. EE 493 Protection of Power Systems I 3 Course Prerequisite: E E 361 with a C or better; certified major in Electrical Engineering, Computer Science, or Computer Engineering. Analysis and equipment fundamentals of power system protection; symmetrical components, fault calculations; fuses; and relays including burden calculations. EE 499 Special Problems V 1-4 May be repeated for credit. Independent study conducted under the jurisdiction of an approving faculty member; may include independent research studies in technical or specialized problems; selection and analysis of specified readings; development of a creative project; or field experiences. S, F grading.
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Upper Box Certification index: 0 = certification requirements to be completed 1 = certification requirements have been satisfied Lower Box Number of certification courses completed thus far
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Writing Portfolio Completed towards the end of the spring semester of the second year, the Junior Writing Portfolio is a two-part, mid-career diagnostic to determine if your writing abilities are ready to handle the challenges of your Writing-in-the-Major (M) Courses and other upper-division courses that assign writing. The two parts are the timed write and the packet. You may complete these two parts in the order you choose. The timed write consists of two impromptu essays written during a single, supervised two-hour session. One essay will be argumentative and the other will be a self-evaluation. The packet consists of three samples of your writing that you have completed for three different college-level courses. These samples demonstrate your readiness for upper-division, writing-intensive classes in your major. The instructor who assigned and graded each sample will have to sign the packet cover sheet and note the writing as “Acceptable” or “Exceptional.” Additional information is available at the "Writing Portfolio" and "Tri-Cities Contact" links.
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Each track requires five courses. Please select one track in the field below this comment window. Also change track and then revert to initial choice to generate a convenient track-course audit. General Track: One from EE 351, EE 362, EE 489; twelve credits of approved electives, nine of which must be credits in 400-level EE courses Power Track: EE 362, EE 489, EE 491, EE 492, EE 493 Systems Track: EE 351, EE 489, EE 495, EE 432*, EE 464* (* Offered during summer session only)
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Five courses are required. Please, check the details in the “Track Options and Electives” field EE 351 Distributed Parameter Systems 3 Course Prerequisite: E E 331 with a C or better; certified major in Electrical Engineering, Computer Science, or Computer Engineering. Maxwell's equations, plane waves, waveguides, resonators, antennas, numerical methods. EE 362 Power System Laboratory I 3 (1-6) Course Prerequisite: E E 262 with a C or better; E E 352 with a C or better; concurrent enrollment in E E 361; concurrent enrollment in E E 341; certified major in Electrical Engineering, Computer Science, or Computer Engineering. Experiments in simulation, modeling, transformers, rotating machines, and transmission lines. EE 432 RF Engineering for Telecommunications 4 (3-3) Course Prerequisite: E E 341 with a C or better; E E 351 with a C or better; STAT 360 with a C or better or STAT 443 with a C or better; certified major in Electrical Engineering, Computer Science, or Computer Engineering. System and propagation issues for wireless telecommunications; cellular, PCS, EE 464 Digital Signal Processing I 3 Course Prerequisite: E E 341 with a C or better; certified major in Electrical Engineering, Computer Science, or Computer Engineering. Discrete and fast Fourier transforms; Z-transform; sampling; discrete convolution; digital filter design; effects of quantization. EE 476 Analog Integrated Circuits 3 Course Prerequisite: E E 311 with a C or better; certified major in Electrical Engineering, Computer Science, or Computer Engineering. Analysis and design of analog integrated circuits in CMOS and BiCMOS technologies; current mirrors, gain stages, operational amplifiers, frequency response, and compensation. Credit not granted for both E E 476 and 576. Offered at 400 and 500 level EE 492 Renewable Energy Sources 3 (2-3) Course Prerequisite: E E 361 with a C or better; certified major in Electrical Engineering, Computer Science, or Computer Engineering. Design of electrical generation plants using wind, solar and other renewable energy sources including technical, environmental and economic aspects. EE 493 Protection of Power Systems I 3 Course Prerequisite: E E 361 with a C or better; certified major in Electrical Engineering, Computer Science, or Computer Engineering. Analysis and equipment fundamentals of power system protection; symmetrical components, fault calculations; fuses; and relays including burden calculations. EE 499 Special Problems V 1-4 May be repeated for credit. Independent study conducted under the jurisdiction of an approving faculty member; may include independent research studies in technical or specialized problems; selection and analysis of specified readings; development of a creative project; or field experiences. S, F grading.
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Please, select the ALEKS score band that contains yours. For instance, for a score of 60% the band to select is >=40%, for 75% the band is >= 70%, and so on.
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Please, select your WSU Math Placement. For instance, if you have already earned a "C" or better in College Algebra select 106-C; for a "C" or better in Trigonometry select 108-C.
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Please, select your WSU Writing Placement. For instance, if you have successfully completed the writing placement select OK; if you have earned a grade of "S" in ENGL 100 select 100-S.
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352 [M] Electrical Engineering Laboratory I 3 (1-6) Course Prerequisite: Concurrent enrollment in E E 311; E E 321 with a C or better or concurrent enrollment; certified major in Electrical Engineering, Computer Science, or Computer Engineering. Experiments in electrical circuits, measurements and electronics; principles of measurements and measuring instruments.