Confused about your engineering future? Learn the core differences between Electrical (power systems) and Electronic (micro-chips) engineering to find your perfect career path.

Want to know how we're training the next generation of engineers and computer scientists? Join us to learn about the Gina Cody School's undergraduate programs and plans to advance integrated ...

The graduate program in electrical engineering prepares professionals for applying deepened skillsets and advanced knowledge that will further their career. Students emerge as professionals ready to ...

With the responsibility of designing, developing, testing and maintaining electrical equipment, electrical engineers play a big role in our society. However, the skills that students will learn while ...

Electrical engineering is the study and application of electricity, electronics, and electromagnetism. With electrical engineering at Michigan Tech, you can define the future with society-transforming ...

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, ...

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 University of New Haven offers a 30-credit master degree program in electrical engineering which seamlessly bridges theory with hands-on application that allows graduates to be not only productive ...

Master the fundamentals of electrical and electronic circuits and systems. Work hands-on in labs where you'll learn to design, program, troubleshoot, and maintain automated systems. Combine your ...

Synthesize science, mathematics, technology, and application-oriented designs into world-class consumer products, timely microprocessors, state-of-the-art computers, advanced electronic components, ...