300
An introduction to financial and economic decision-making for engineering projects, with an emphasis on problem solving, life cycle costs, and the time value of money. Prerequisites:
MTH 132 or 133; one of: STA 282, 382, 392; permission of E&T advisor; cumulative GPA of 2.5 or higher.
Credits
3(3-0)
Fundamentals of biological processes commonly used in water and wastewater treatment. Material and energy balances of biological reactors, biological treatment processes; nutrient removal; sludge digestion. Prerequisites:
EGR 202 with a grade of C- or better; permission of E&T advisor; cumulative GPA of 2.5 or higher.
Credits
3(3-0)
Fundamentals of physical and chemical processes commonly used in water and wastewater treatment. Disinfection, oxidation, coagulation and flocculation, sedimentation, filtration, ion exchange, flotation, adsorption. Prerequisites:
EGR 203 with a C- or better; permission of E&T advisor; cumulative GPA of 2.5 or higher.
Credits
3(3-0)
Laboratory methods in environmental engineering applications. Analysis of selected chemical and microbiological water quality parameters. Experiments on selected unit operations and processes of environmental engineering. Prerequisites:
EGR 304, 305; permission of E&T advisor; cumulative GPA of 2.5 or higher.
Credits
3(1-4)
Covers fundamentals of engineering materials including metals, alloys, ceramics, polymers, and composites. Materials processing, properties and selection, and their role in design are also introduced. Prerequisites:
CHM 131 or 161;
EGR 251 with grade of C- or better;
MTH 132 with grade of C- or better;
PHY 146 with grade of C- or better; permission of E&T advisor; signed engineering major; cumulative GPA of 2.5 or higher.
Credits
3(3-0)
Fundamentals of engineering thermodynamics are covered which include: general energy concepts, first and second laws of thermodynamics, entropy, processes, power cycles and refrigeration cycles. Prerequisite:
CHM 131 or 161;
EGR 251 with grade of C- or better;
MTH 133 with grade of C- or better;
PHY 146 with grade of C- or better; permission of E&T advisor; signed engineering major; cumulative GPA of 2.5 or higher.
Credits
3(3-0)
Study of the principles of fluid statics and dynamics including Bernoulli's equation, control volume analysis, similitude, dimensional analysis, viscous flow, and flow over immersed bodies. Prerequisites:
EGR 253;
MTH 133 with grade of C- or better; permission of E&T advisor; signed engineering major; cumulative GPA of 2.5 or higher.
Credits
3(3-0)
The study of relative motion of machine parts, forces acting on them, and motions resulting from these forces. Prerequisites:
EGR 253;
IET 154; signed engineering major; permission of E&T advisor; cumulative GPA of 2.5 or higher. Pre/Co-requisite:
MTH 233.
Credits
3(3-0)
Experimental skills and measurement techniques are developed in the areas of material behavior, static and dynamic stress and strain analysis. Prerequisites:
EGR 253, 255;
PHY 175 with grade of C- or better; permission of E&T advisor; signed engineering major; cumulative GPA of 2.5 or higher. Pre/Co-Requisite:
EGR 355.
Credits
3(1-4)
An introduction to the theory and application of robotics including robot fundamentals, kinematics, trajectory planning, actuators, sensors, and industrial robot programming. Prerequisites:
CPS 180 or
EGR 200;
EGR 251, 290;
MTH 232 or
MTH 223, 334; permission of E&T advisor; cumulative GPA of 2.5 or higher.
Credits
3(2-2)
Design and integration of systems that include both mechanical and electrical components. Interdisciplinary study in engineering design and prototyping, sensors, actuation, and microprocessor programming. Prerequisites:
EGR 200 or
CPS 180;
EGR 251 or 290 or
IET 279; cumulative GPA of 2.5 or higher; permission of E&T advisor.
Credits
3(3-0)
Exploration of basic elements of NC coding and programming, CNC machine set up, elements of CAM and prototype selection and production. Credit may not be earned in both
EGR 377 and
IET 377. This course may be offered in an online format. Prerequisites:
IET 154,
EGR 255; cumulative GPA of 2.5 or higher; permission of E&T advisor.
Credits
3(2-2)
A study of static and time-variant electric and magnetic fields, plane waves, guided waves, transmission line theory, radiation and antennas. Prerequisites:
MTH 232 or
MTH 223, 334;
MTH 233 with a grade of C- or better;
PHY 146 with a grade of C- or better; permission of E&T advisor; cumulative GPA of 2.5 or higher.
Credits
3(3-0)
Review of combinational and sequential circuits, digital functional units, micro-operations and register transfers. Memory organization. Datapath and control units. Verilog Hardware Description Language. Prerequisites: EGR 190 with a grade of C- or better; permission of E&T advisor; cumulative GPA of 2.5 or higher. Pre-requisite/Co-requisite:
EGR 396.
Credits
3(3-0)
Continuous and discrete-time linear systems, time and frequency domain analysis of signals and systems, Laplace, Fourier and z-transforms. Applications to problems in electrical engineering. Prerequisites:
EGR 290 with a grade of C- or better; permission of E&T advisor; cumulative GPA of 2.5 or higher.
Credits
3(3-0)
Design and analysis of electronics circuits including current mirrors, cascode amplifiers, differential amplifiers, feedback amplifiers, amplifier frequency response, and analog filters. Prerequisites:
EGR 298; permission of E&T advisor; cumulative GPA of 2.5 or higher.
Credits
3(3-0)
Basic experimentation consistent with the theory in EGR 190,
EGR 290 and
EGR 292. Use laboratory equipment to investigate electrical and digital circuits. Prerequisites: EGR 190; permission of E&T advisor; cumulative GPA of 2.5 or higher. Pre/Co-Requisite:
EGR 292.
Credits
3(1-4)
This course reinforces basic circuit analysis principles using computer software and teaches students various computer circuit analysis and design techniques. Prerequisite: permission of E&T advisor; cumulative GPA of 2.5 or higher. Pre/Co- Requisite:
EGR 392.
Credits
3(2-2)
Introduction to architecture, operation, and application of microprocessor systems and microcontrollers. Prerequisites:
CPS 180 or
EGR 200; EGR 190 with grade of C- or better; permission of E&T advisor; cumulative GPA of 2.5 or higher.
Credits
3(3-0)
Intensive study of selected engineering topics not included in a regular course. Repeatable up to 6 hours when content previously studied is not duplicated. Prerequisite: Permission of instructor; cumulative GPA of 2.5 or higher.
Credits
1-6(Spec)
Laboratory exploration of semiconductor devices, discrete and integrated amplifiers; feedback; microcomputer systems including input/output, assembly language programming and interrupt processing. Prerequisite: permission of E&T advisor; cumulative GPA of 2.5 or higher. Pre/Co- Requisites:
EGR 392, 396.
Credits
3(2-2)