Modeling, design, and analysis of mechanical vibrations: natural frequency, damping, excitation, higher order systems, modal analysis, experimental testing, and continuous systems. Prerequisites: EGR 253; MTH 232; CPS 180; or EGR 200; permission of E&T advisor; cumulative GPA of 2.5 or higher; or Graduate Student in Engineering.

Design and analysis of control for mechanical systems, including modeling, transient and steady-state, root locus, frequency response, PID control, and state space. Prerequisites: EGR 253; MTH 232; CPS 180 or EGR 200; permission of E&T advisor; cumulative GPA of 2.5 or higher; or Graduate Student in Engineering.

Fundamentals of engineering acoustics including use of the wave equation, reflection, transmission and attenuation processes, with introduction of various acoustic applications. Prerequisites: EGR 356, 358; MTH 232; permission of E&T advisor; cumulative GPA of 2.5 or higher; or Graduate student in Engineering.

Fundamental mechanics and engineering principles applied to understand biological tissues and systems. Prerequisites: EGR 253, 255, 355; permission of E&T advisor; cumulative GPA of 2.5 or higher; or graduate standing in Engineering.

Covers composite material mechanics with emphasis on selection, analysis, and use. Stiffness and strength theories Treats composite beams and plates for static and dynamic loads. Prerequisites: EGR 255, 355; MTH 232; cumulative GPA of 2.5 or higher; or Graduate Student in Engineering; permission of E&T advisor.

Stress and strain in three dimensions, constitutive laws, failure theories. Advanced beam theories, curved beams, shear deformation, beams on elastic foundations, plates and shells, energy methods. Prerequisites: EGR 255, 355; MTH 233; cumulative GPA of 2.5 or higher; or Graduate Student in Engineering; permission of E&T advisor.

Internet of Things (IoT), protocols and standards, IoT architecture, microcontroller, sensor, actuator interfacing, wired and wireless communication, network interface, edge and cloud computing. This course may be offered in an online or hybrid format. Prerequisites: EGR 398; cumulative GPA of 2.5 or higher; permission of E&T advisor; or graduate standing.

Wireless Sensor Networks (WSN), sensors, node components, operating systems, protocols, simulators, applications, security, and signal processing. This course may be offered in an online or hybrid format. Prerequisites: EGR 398; cumulative GPA 2.5 or higher; permission of E&T advisor; or graduate standing.

A study of optical phenomena and its application to engineering problems. Topics include ray optics, beam optics, guided wave optics, lasers and applications thereof. Prerequisite: EGR 388; cumulative GPA of 2.5 or higher; or Graduate Student in Engineering; permission of E&T advisor.

Design and simulation of analog integrated circuits and systems using transistor level differential amplifiers, operational amplifiers, scillators, and data converters. Prerequisites: EGR 292, 392; cumulative GPA of 2.5 or higher; or Graduate Student in Engineering; permission of E&T advisor.

Fundamentals of power electronics including switch-mode DC-DC converters, feedback controllers, rectifiers, semiconductor switches and magnetic circuit in power electronics. Prerequisites: EGR 398; cumulative GPA of 2.5 or higher; or Graduate Student in Engineering; permission of E&T advisor.

Conceptual framework that underlies the microscopic viewpoint using examples related to the emerging field of nanoscale transistors. Prerequisites: EGR 487 or 491; cumulative GPA of 2.5 or higher; or graduate standing; permission of E&T advisor.

Intensive study of selected engineering topics not included in a regular course. Repeatable up to 6 credits when content previously studied is not duplicated. Prerequisite: Permission of instructor; cumulative GPA of 2.5 or higher.