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

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

Introduction to electromagnetic waves in electrical engineering. Topics include: concepts of transmission lines, electrostatics and magnetostatics; Maxwell's equations for time-varying fields; ...

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 ...

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 continuously invent and shape the future of the digital world. They create the "intelligent” inner life of cell phones, computers, cameras, automobiles, robots, medical laboratory ...

Do you want to use technology to improve healthcare, transportation, communications and beyond? Electrical engineering is an extremely diverse field ranging from the ultra-small devices inside our ...

There is a strong industrial demand for skilled engineers capable of spanning mechanical and electrical engineering disciplines with a view to the effective and informed design of systems that ...

There is a strong industrial demand for skilled engineers capable of spanning mechanical and electrical engineering disciplines to effectively and informedly design systems that interchange and manage ...

Electrical engineering is one of the newer branches of engineering, and dates back to the late 19th century. It is the branch of engineering that deals with the technology of electricity. Electrical ...