E E 201.3
Electric and Magnetic Circuits II
1(3L-1.5P)
Prerequisite(s): MATH 124 and E P 155.

Topics include magnetic fields, series and parallel magnetic circuits; electromagnetic induction, self and mutual inductances, transients in R-L circuits; generator and motor actions; waveform and frequency, average and rms values; voltage drops in R, L and C circuits; phasor representations of sinusoidal quantities; single phase series and parallel ac circuits; apparent, real and reactive powers, complex power, power factor; ammeters, voltmeters, wattmeters, and multimeters, impedance and frequency measurements.

E E 212.3
Passive AC Circuits
2(3L)
Prerequisite(s): MATH 124 and E E 201.

Basic concepts in AC circuits, power factor, real, reactive and complex power. Loop and nodal analysis, circuit theorems and their application in AC circuits. Wye-delta transformation, series and parallel resonance, circuit response to variable frequencies. Circuit representation of transformers, utilization of the per unit system, Polyphase system, three phase 3-wire and 4-wire systems, star and wye connections, balanced and unbalanced three phase systems, power measurement in three phase systems.

E E 214.3
System Modelling and Network Analysis
2(3L)
Prerequisite(s): MATH 124 and E E 201.

Deriving differential equations for electrical and mechanical systems, solving differential equations for initial conditions and a step input, the Laplace transform, Second Order Systems, solving transient response by the Laplace transform, Simulation with Matlab/Simulink, Frequency Response, Passive Filters, Network Synthesis, Two-Port Networks.

E E 216.3
Probability, Statistics and Numerical Methods
1(3L)
Prerequisite(s): MATH 124.

Tabular and graphical representation of data, Probability, Random variables and discrete probability distributions, Continuous probability distributions, expectation, confidence interval, Testing of hypotheses, Method of least squares, Software packages for statistical analyses. Numerical Methods: Random numbers and random sampling, Interpolation and spline functions, Solutions of equations in one variable, solutions of systems of linear equations, Numerical differentiation and numerical integration, Solutions of differential equations, Fast Fourier Transform, Optimization.

E E 221.3
Analog Electronics
1(3L)
Corequisite(s): E E 201 (or G E 212).

Introduction to solid state electronics. Emphasis is on circuit design concepts with extensive discussion on diodes and diode circuits and on bipolar junction transistors (BJT) and field effect transistors (FET) as amplifiers and as switches.

E E 232.3
Digital Electronics
2(3L)
Prerequisite(s): E E 221.

An introduction to digital logic including combinational and sequential logic devices and circuits. Covers the range from the fundamentals of Boolean algebra and the binary number systems to combinational and sequential circuit functional blocks such as adders, multiplexers, counters and state machines. Some coverage is also given to electronic characteristics of real logic devices and field programmable gate arrays (FPGA).

E E 271.3
Materials and Heat Transport in Electrical Engineering
1(3L)
Prerequisite(s): CHEM 111 (beginning 2003 CHEM 114) and E P 155.

Basic concepts in materials science, crystals, kinetic theory, heat capacity, thermal fluctuations, Boltzmann equation, x-ray diffraction, crystal imperfections, solid solutions, alloys, mechanical properties, electrical properties, thermal properties, heat transport by thermal conduction, radiation and convection; and applications of these concepts in electrical engineering. Practicum and design based on these topics.

E E 292.2
Electrical Engineering Laboratory I
2(3P)
Corequisite(s): E E 212 and 232.

Experiments related to Passive AC circuits, Analog Electronics and Digital Electronics. Introduction to Electrical Engineering laboratory equipment and experimental methods.

E E 301.3
Electricity, Magnetism and Fields
1(3L)
Prerequisite(s): E E 201 and E E 212.

Review of vector calculus, static electric and magnetic field theory and its extension into time varying E and M fields, interaction between fields and materials, transmission line, wave guide and antenna fields.

E E 311.3
Electronics
1(3L-1.5P)
Prerequisite(s): E E 201 (or G E 212).

An introductory service course in electronics. Topics include Thevenin's theorem, Norton's theorem, operational amplifiers, filters, an introduction to diodes, BJT, FET, diode circuits, and electronic amplifiers. Digital electronics, Boolean algebra, shift registers, and memory devices.

Note: Electrical Engineering students may not take this course for credit.