Graduates of the electrical engineering program utilize their academic preparation to become successful practitioners and innovators in electrical engineering and other fields. They analyze, design and implement creative solutions to problems with electrical and electronic devices and systems. They contribute effectively as team members, communicate clearly and interact responsibly with colleagues, clients, employers and society.

All students must complete the unified set of general requirements for all engineering majors. These courses are often completed during the first two years in SEAS, with the exception of STS 4500 and 4600, which are taken during the fall and spring of the fourth year, respectively.

Degree Requirements

Degree and minor requirements can be found in the UNDERGRADUATE RECORD.  

Electrical engineering is a very broad discipline with applications to many areas. As you decide how to use your ECE, technical and unrestricted electives, we recommend that you meet with your faculty advisor to discuss how to combine application areas and courses  to meet your personal and professional goals. All electrical engineering students begin with a unifying foundation that is combined with technical and unrestricted electives focused on different application areas such as digital systems, communications, microelectronics, art and drama, and environment and sustainability. 

Core Electrical Engineering Courses:

  • ECE 2200 Applied Physics
  • ECE 2300 Applied Circuits
  • ECE 2330 Digital Logic Design
  • ECE 2410 Introduction to Machine Learning for Engineers
  • ECE 2600 Electronics
  • ECE 2700 Signals and Systems
  • ECE 3430 Introduction to Embedded Computer Systems

Questions?

Keith Williams

Associate Professor, Electrical and Computer Engineering Clark Scholars Faculty Director

Williams' completed my Ph.D. in materials physics at Penn State University in 2001, and undertook postdoctoral research in the Molecular Biophysics Group at the Delft University of Technology in the Netherlands, thereafter establishing a nanophysics laboratory in the physics department at the University of Virginia. 

The information contained on this website is for informational purposes only.  The Undergraduate Record and Graduate Record represent the official repository for academic program requirements. These publications may be found here.

Licensure Disclosure

  • As a member of the State Authorizations Reciprocity Agreement, the University of Virginia (UVA) is authorized to provide curriculum in a distance learning environment to students located in all states in the United States except for California. (34 CFR 668.43(a)(6)& 34 CFR 668.72(n)).
  • Upon completion of an engineering degree program which prepares graduates for licensure or certification, graduates may be eligible for initial professional licensure in another U.S. state by applying to the licensing board or agency in that state. Please visit the University’s state authorization web pages to make an informed decision regarding which states’ educational requirements for initial licensure are met by this program. (668.43(a)(5) (v)(A) - (C))
  • Enrolled students who change their current (or mailing) address to a state other than Virginia should update this information immediately in the Student Information System as it may impact their ability to complete internship, practicum, or clinical hours, use Title IV funds, or meet licensure or certification requirements in the new state. (34 CFR 668.402).