Continuation of E&C-ENG 323. Design of more advanced electronic circuits. Design and analysis of integrated circuit amplifiers. Design and analysis of feedback amplifiers. Includes major design project. Prerequisite: E&C-ENG 323.

Probability space, conditional probability, Bayes theorem. Combinatorial analysis. Random variables (r.v.'s), distribution and density functions. Expected value, moments, characteristic function. Function of r.v.'s, Multiple r.v.'s, conditional distributions, independent r.v.'s. Multivariate Gaussian r.v.'s. Parameter estimation, confidence intervals, hypothesis testing. Introduction to random processes: mean, autocorrelation, power spectral density. Prerequisite: E&C-ENG 313.

Probability space, conditional probability, Bayes theorem. Combinatorial analysis. Random variables (r.v.'s), distribution and density functions. Expected value, moments, characteristic function. Function of r.v.'s, Multiple r.v.'s, conditional distributions, independent r.v.'s. Multivariate Gaussian r.v.'s. Parameter estimation, confidence intervals, hypothesis testing. Introduction to random processes: mean, autocorrelation, power spectral density. Prerequisite: E&C-ENG 313.

With lab. Continuation of ECE 211. Analysis techniques for ac circuits, frequency response, resonance, Bode plots, phasor representation of sinusoidal steady-state systems, complex frequency domain, transfer functions. MOSFETs as amplifiers; operational amplifiers. Transformers, two-port networks, Fourier series. Lab includes circuit hardware and PSPICE simulation experiments.

With lab. Continuation of ECE 211. Analysis techniques for ac circuits, frequency response, resonance, Bode plots, phasor representation of sinusoidal steady-state systems, complex frequency domain, transfer functions. MOSFETs as amplifiers; operational amplifiers. Transformers, two-port networks, Fourier series. Lab includes circuit hardware and PSPICE simulation experiments.

With lab. Continuation of ECE 211. Analysis techniques for ac circuits, frequency response, resonance, Bode plots, phasor representation of sinusoidal steady-state systems, complex frequency domain, transfer functions. MOSFETs as amplifiers; operational amplifiers. Transformers, two-port networks, Fourier series. Lab includes circuit hardware and PSPICE simulation experiments.

With lab. Continuation of ECE 211. Analysis techniques for ac circuits, frequency response, resonance, Bode plots, phasor representation of sinusoidal steady-state systems, complex frequency domain, transfer functions. MOSFETs as amplifiers; operational amplifiers. Transformers, two-port networks, Fourier series. Lab includes circuit hardware and PSPICE simulation experiments.

A rigorous mathematical study of flow in open channels, including uniform, gradually varied, rapidly varied, tidal, and flood flows. Analytical and numerical solutions to the governing conservation equations developed with the aid of the computer, and stable channel design addressed. Prerequisite: CE-ENGIN 357.

Geotechnical engineering practice related to site characterization. Topics include: site investigation techniques; drilling; geoenvironmental issues; in situ testing; site instrumentation; soil and groundwater sampling; laboratory testing; and evaluation and interpretation of field and laboratory data for selection of soil properties for design. Written engineering reports. Prerequisite: CE-ENGIN 320.

Hydrology, geology, chemistry, and engineering design of groundwater systems. Topics include groundwater and the hydrologic cycle, groundwater hydraulics, groundwater as a resource, natural groundwater chemistry, groundwater contamination and remediation.