Electrical engineers design, develop, and improve the efficiency and reliability of the power infrastructure, communications systems, and electronic devices that support modern society. As such, ...

Electrical engineers design, develop and analyze key technological systems, like the ones that power electronics, communications and electromagnetics. In UW’s electrical engineering program, students ...

Electrical engineers are on the front lines of technological innovation and discoveries, and their contributions to society have changed the way we think, eat, move and communicate. An increasing ...

When you study electrical engineering technology (EET), you study the lifeblood of today's technology: electronics and computers. Electrical engineering technology is a part of virtually everything ...

With five years of experience as a writer and editor in the higher education and career development space, Ilana has a passion for creating accessible, relevant content that demystifies the higher-ed ...

With five years of experience as a writer and editor in the higher education and career development space, Ilana has a passion for creating accessible, relevant content that demystifies the higher-ed ...

The Electrical Engineering and Computer Science (EECS) Department is committed to excellence in teaching, research, and service. Distinguished faculty conduct world-class research and their ...

Electricity runs the world, and electrical engineers design solutions to generate it, regulate it, and use it to propel advances in electronic devices. A degree in electrical engineering prepares ...

This lab course introduces students to modern topics of engineering optics. Teams of students will carry out four different projects: holography, lasers, free-space optical communication, and ...

A next-gen approach to the future of communications, applied AI, computer software and hardware design, autonomous systems, power and renewal energy, microdevices and electronics, and biomedical ...