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

Key Takeaways There are nearly 90 quantum-focused academic programs across the U.S. from the bachelor's to the postdoctoral level. They fall in the following disciplines: interdisciplinary (43%), ...

THERE are few branches of mathematics which have not found useful application to electrical phenomena, and the engineer is continually receiving new tools of a theoretical nature to add to his ...

A new working paper has examined the cost of educating students in various fields. Apparently, education is more expensive to teach than just three other subjects: mechanical engineering, nursing and ...

AN editorial preface by Mr. H. P. Young, an appreciative foreword by Dr. Alexander Russell, the usual author's preface, four chapters of elementary ‘pure’ mathematics (complex numbers and calculus), a ...

To inspire the next generation of electric industry professionals, the FirstEnergy Foundation is donating $55,000 to New ...

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 ...

The students huddled around their tables, scribbling and erasing their notes, nodding and shaking their heads and rearranging the blocks in front of them. “There has to be a hole in the middle.” “We ...

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, ...

Many of the most common, useful devices that make modern life possible – such as automobiles, batteries, computers, light bulbs, mobile phones and satellites – utilize electricity, a form of energy.