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

Gain Hands-On Experience: Four required blocks of cooperative education mean nearly a year of hands-on, full-time, paid work experience in the industry. Focused Options: Choose from two professional ...

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 ...

Electrical and electronic engineering is one of the broadest engineering disciplines and uses cutting-edge technology to address some of the major concerns of the modern world. There is a growing ...

Introduction to fundamental concepts and applications of electrical engineering. Topics include: circuit analysis from dc resistive networks to networks of impedances operating in the sinusoidal ...

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, ...

Study mathematics, control, embedded systems and programming, then advance to system design, security and intelligent systems. Learn to design optimised hardware/software for computing, sensing, IoT, ...

Power the future by pursuing a B.S. in electrical engineering with a focus in bioengineering! This innovative degree incorporates cutting-edge biomedical engineering techniques with foundational ...

Designed in close consultation with industry, this specialist degree offers a strong foundation in electrical and electronic engineering to address the increasing demand for qualified engineers.

Explore how the Electrical Engineering bachelor's degree compares with three related degrees within Michigan Technological University, offering insight into curriculum similarities, shared ...