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

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 ...

Entrepreneurship is the driving force for innovation and growth in the global economy, and UD’s educational and research programs in electrical engineering provide numerous opportunities to explore ...

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 ...

The following content is brought to you by Mashable partners. If you buy a product featured here, we may earn an affiliate commission or other compensation. TL;DR: Learn the basics of mechanical and ...

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

At SNHU, we want to make sure you have the information you need to make decisions about your education and your future—no matter where you choose to go to school. That's why our informational articles ...

Our Program Educational Objectives describe the expectations of our graduates after several years of work experience. Be established and recognized as a valued professional and an effective ...

Electrical and computer engineering is an incredibly broad field that equips students to develop emerging technologies that will help address some of the world’s biggest challenges in energy, health ...