Electrical engineering encompasses the analysis, design, synthesis, and maintenance of products, services, and systems that touch nearly every aspect of our daily lives. Electrical Engineers apply electronic and electromagnetic/optical principles to design, build, and test analog or digital devices, circuits, and systems for processing, communication, and storage of information; distribution, conversion, and storage of energy; and process automation or robotics. Application areas include communication, manufacturing, power and energy, health care, computing, security, entertainment, and many others.

Science, engineering science, and mathematics courses are fundamental to electrical engineering. Physics, chemistry, engineering mechanics, thermodynamics, and mathematics and statistics courses help to prepare students for in-depth study of electrical engineering subjects.

Electrical engineering courses give students in-depth study in the analysis methods, design approaches, state-of-art technology, and current understanding of various fields within the electrical engineering discipline. Areas of study include electric circuits, computer-aided experimentations, electronics, digital systems design, signals and systems, communications systems, control systems, and digital signal processing.

Computer science and engineering courses help students learn modern computing technologies to assist electrical engineering problem-solving. Computers and computer networks are important tools for all branches of modern electrical engineering disciplines. Students will study contemporary programming languages and software engineering methodologies, data structures, and computer networks and data communications courses.