Electrical Engineering

Electrical Engineering
BS
Hours89 - 90 Credit Hours
MAPMajor Academic Plan

Program Requirements

requirement 1 Complete 4 courses
Prerequisite courses:
requirement 2 Complete 3 options
Supporting courses:
option 2.1 Complete 1 course
CHEM 105 - (Not currently offered)
CHEM 111 - (Not currently offered)
option 2.2 Complete 1 course
option 2.3 Complete 5 courses
requirement 3 Complete 11 courses
Complete 20 credit hours of technical electives.
requirement 4 Complete 16.0 hours from the following course(s)
Complete 16 credit hours from the following:
requirement 5 Complete 4.0 hours from the following option(s)
Complete 4 credit hours from the following:
option 5.1 Complete up to 4.0 hours from the following course(s)
1. Additional courses listed in Requirement 4 above. (Note: courses will not double count.)
option 5.2 Complete up to 4.0 hours from the following course(s)
2. Any of the following:
option 5.3 Complete up to 4.0 hours from the following course(s)
3. 500-level EC En, C S, or Math courses.
C S 500 - (C S-Chem-Geol-Math-MthEd-Phscs-Stat) Business Career Essentials in Science and Math 1.5
C S 501R - Advanced Topics in Computer Science 3.0v
C S 513 - Robust Control 3.0
C S 557 - Computer-Aided Geometric Design 3.0
EC EN 521 - Introduction to Algorithm Design 3.0
EC EN 522R - Special Topics in Computer Systems 3.0v
EC EN 523 - Computer System Reliability 3.0
EC EN 528 - Computer Architecture 3.0
EC EN 541 - Active and Passive Filter Design 3.0
EC EN 542R - Special Topics in Electronics 3.0v
EC EN 543 - CMOS Amplifier Design 3.0
EC EN 548 - Analog CMOS Circuit Design 3.0
EC EN 549 - VLSI Communication Circuit Design 3.0
EC EN 550 - (EC En-Me En) Microelectromechanical Systems (MEMS) 3.0
EC EN 555 - Optoelectronic Devices 3.0
EC EN 560 - Electromagnetic Wave Theory 3.0
EC EN 562 - Optical Communication Components and Systems 3.0
EC EN 563 - Applied Computational Electromagnetics 3.0
EC EN 564 - Radar and Communication Systems 3.0
EC EN 568 - Microwave Remote Sensing 3.0
EC EN 576 - Medical Imaging and Image Reconstruction 3.0
MATH 500 - (Math-Chem-C S-Geol-MthEd-Phscs-Stat) Business Career Essentials in Science and Math 1.5
MATH 510 - Numerical Methods for Linear Algebra 3.0
MATH 511 - Numerical Methods for Partial Differential Equations 3.0
MATH 513R - Advanced Topics in Applied Mathematics 3.0
MATH 521 - Methods of Applied Mathematics 1 3.0
MATH 522 - Methods of Applied Mathematics 2 3.0
MATH 532 - Complex Analysis 3.0
MATH 534 - Introduction to Dynamical Systems 1 3.0
MATH 540 - Linear Analysis 3.0
MATH 541 - Real Analysis 3.0
MATH 543 - Advanced Probability 1 3.0
MATH 544 - Advanced Probability 2 3.0
MATH 547 - Partial Differential Equations 1 3.0
MATH 553 - Foundations of Topology 1 3.0
MATH 554 - Foundations of Topology 2 3.0
MATH 561 - Introduction to Algebraic Geometry 1 3.0
MATH 562 - Introduction to Algebraic Geometry 2 3.0
MATH 565 - Differential Geometry 3.0
MATH 570 - Matrix Analysis 3.0
MATH 571 - Algebra 1 3.0
MATH 572 - Algebra 2 3.0
MATH 586 - Introduction to Algebraic Number Theory 3.0
MATH 587 - Introduction to Analytic Number Theory 3.0
4. Other engineering, mathematics, physics, or computer science courses as specified or approved by the Electrical and Computer Engineering Department.
Note: Contact the Electrical and Computer Engineering Department for current information about added and/or deleted courses, as well as information about when courses are offered.
requirement 6
Complete the department exit interview.
Program Outcomes

Fundamentals

An ability to apply knowledge of mathematics (differential, integral, and multivariate calculus; linear algebra; complex variables; differential equations; discrete math; and probability), science (Newtonian mechanics; electricity and magnetism; and introductory chemistry), computer fundamentals (programming languages; computer organization; and software/hardware interfaces) and engineering science (signals and systems, electromagnetics, and electronic devices).

Experiments and Data Analysis

An ability to design and conduct experiments, as well as to analyze and interpret data.

System Design

An ability to design a system component or process to meet desired needs within realistic constraints such as economic, environmental, social, political, ethical, health and safety, manufacturability, and sustainability.

Teamwork

An ability to function on multi-disciplinary teams.

Engineering Problems

An ability to identify, formulate, and solve engineering problems.

Ethics

An understanding of professional and ethical responsibility.

Communication Skills

An ability to communicate effectively.

Broad Education

The broad education necessary to understand the impact of engineering solutions in a global, economic, environmental, and societal context.

Lifelong Learning

A recognition of the need for, and an ability to engage in life-long learning.

Contemporary Issues

A knowledge of contemporary issues.

Techniques, Skills, and Tools

An ability to use the techniques, skills, and modern engineering tools necessary for engineering practice.

Leadership

An understanding of principles of leadership and project management.