Electrical Engineering Fields

Mar 05, 2015

When it comes to electrical engineering fields, there are many questions on the future of electrical engineering. Electrical engineering fields involve control systems, digital systems, electrodynamics, magnetics and semiconductors. For students entering or interested in electrical engineering fields, it is helpful to gain an understanding of the field, as well as the predicted industry trends.

To help further educate current and prospective students, here are answers to some primary questions.

What is electrical engineering?

Electrical engineering is a multidisciplinary field that applies to numerous industries. It also can be adapted to any engineering field, from mechanical engineering to computer engineering.

Electrical engineering fields involve testing, producing and designing equipment, products or devices that use electrical power. Students who pursue this career path may have the opportunity to work with a range of electronic devices such as transmitters and receivers, for example.

What is an electrical engineer, and what does a electrical engineer do?

An electrical engineer’s main focus is to manage, develop and improve products that are powered by or produce electricity. The types of projects that an electrical engineer manages can vary. However, many projects rely on the knowledge of electrical and navigation systems. These skills help engineers complete projects such as electrical wiring for a building or wiring for a computer, car or robot.

Electrical engineers take the science of electrical power and microchip applications to create devices by finding innovative ways to solve today’s global challenges. Electrical engineers and workers in the electrical engineering field can deal with power transmission, distribution and consumption.

What is the future of electrical engineering fields?

According to the Business Bureau of Labor Statistics, “Employment of electrical and electronics engineers is projected to grow by 4 percent between now and 2022” due to the advancement of emerging technologies. Examples of growing areas include optical lithography, wireless communication and semiconductors. Current students will influence the future of communication, much as they influenced the history of communication technology.

With the projected growth of this field, students who major in electrical engineering will have the opportunity to pursue a career that is guided by innovation and technological advancements.

If you have additional questions or are interested in more information on an electrical engineering degree or electrical engineering courses, please visit our STEM academics page.