Electrical engineering is the study and application of electricity, electronics, and electromagnetism. In simple terms, it is about understanding how electricity works in order to use the knowledge ...

An electromechanical engineering degree that explores the fundamentals of mechatronics, which involves the integration of mechanics, electrical circuits, microprocessors, mathematics, materials ...

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 ...

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 ...

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 ...

From nanobots to the national grid, electrical and computer engineers create the systems that power and control our world The field of electrical and computer engineering is vast, and the recent ...

Advanced Electives: Gain a deep understanding of computer engineering as it relates to electrical engineering. Senior Project: Work on an exciting design project that focuses on embedded systems. STEM ...

The name of the project -- "photonic neuron" -- was catchy enough, but what really caught Mitchell Nahmias' attention was the opportunity to combine his interests in engineering and neuroscience.

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 ...