Bachelor of Science in Electrical Engineering Program By University of Kentucky |Top Universities

Bachelor of Science in Electrical Engineering

Bachelor of Science in Electrical Engineering

  • QS World University Rankings
    651-700
  • Degree Other
  • Study Level Bachelors
  • Duration 48 months
Electrical engineers find innovative ways to use electricity, electronic materials and electrical phenomena to improve people’s lives. The field of electrical engineering encompasses a very broad spectrum of technical areas, including computers and digital systems, electronics and integrated circuits, communications, systems and control, electromagnetics and electro-optics, energy conversion and power distribution, robotics, signal processing, solid state electronics and photonics. Electrical engineers work at the frontier of high technology and are involved in research, the creation of new ideas and the design and development of new products, manufacturing and marketing activities. Electrical engineers work in a variety of industries: film and television, aerospace, automotive, business machines, professional and scientific equipment, computers and electronics, communications, medical technology. They work in public utilities, at NASA, the National Institutes of Health, and the Department of Defense. As researchers, they study everything from fuel cells to nanotechnology. If it’s got an on/off switch, these engineers have studied it, designed it or produced it. Careers Design Your Future Electrical engineers learn to understand and use electrical power: make it, control it, transmit it, and tame it to design and run all kinds of traditional and advanced technologies. Students who enroll as Electrical Engineering majors at UK study at Kentucky’s flagship research institution, meaning you’ll be learning from top faculty looking to make the next big breakthrough in their field. Department of Electrical and Computer Engineering faculty are readily accessible both inside and outside the classroom and students have every opportunity necessary to grow personally and professionally. Courses cover all the essentials: circuits, power and energy, semiconductors, embedded systems, computer architecture and others. The undergraduate degree culminates in the capstone design courses where seniors work in teams to handle real-world problems outside the classroom and get a taste of real world engineering work. Undergraduate certificates are also available in power and energy as well as nanoscale engineering. Industries Looking for You Aerospace Automotive Electronics Communications Public utilities Medical technology Career Prospects in Electrical Engineering Electrical engineers learn to understand and use electrical energy: make it, control it, transmit it and tame it to design and run all kinds of traditional and advanced technologies. Electrical engineers also understand how to design and make the hardware that helps our newest intelligent tools, machines, houses and cars get smarter, smaller, cheaper, faster and safer. Electrical engineers work in every industry you can think of: film and television, aerospace, automotive, business machines, professional and scientific equipment, computers and electronics, communications and medical technology to name a few. They work in public utilities, for NASA, at the National Institutes of Health, at the Department of Defense, for consumer electronics companies, and much, much more. As researchers, they study everything from fuel cells to nanotechnology. If it’s got an on/off switch, these engineers have studied it, designed it or produced it.