Electrical engineering
Electrical engineering is usually very present in anything with a screen or a switch. From the computers you are using right now to cell phones, industrial and manufacturing processes, the Internet of Things (IoT), defense, power systems, energy and energy efficiency, home appliances, robotics, and automobiles (both electric and those with internal combustion engines), electrical engineering has been a key enabler of our modern civilization.
Students can learn all the fundamentals of this field through our program, which combines classroom instruction with practical experience.
What will they learn in electronic engineering?
- Graduates gain a firm understanding of mathematics, physics, chemistry, and fundamental engineering concepts as well as problem-solving, design, communication, teamwork, lifelong learning, computer, professionalism, and ethics skills.
- Students who enroll in an electrical engineering program gain a thorough understanding of the fundamentals of electrical engineering as well as those underlying computer systems, robotics, electronics applications, communications, electronics, and electromagnetic fields (including cell phone technology and microwave systems).
- The rigorous instruction provided by the electrical engineering program gives students the necessary background for graduate school or career success.
- Additionally, a variety of opportunities for experiential learning are available to students, such as co-ops, internships, and undergraduate research projects.
Details of the Electrical Engineering Program
The goal of the Electrical Engineering Technology Program is to give students academic and technical education along with sequential and practical training in order to help them become mature, responsible electrical technicians. Basic and advanced courses in electricity, electronics, and electrical machinery are included in the curriculum. Additionally, students are required to take technical electives in areas of particular interest to them.
Course format
Electrical engineering coursework in the first two years is restricted to those topics that are crucial to know in order to prepare for more technical courses in the third and fourth years. In the second year, students are introduced to the foundational courses in electrical engineering.
The curriculum offers advanced instruction in the third and fourth years through required courses and electives. These electives are part of the curriculum so that students can gain more knowledge in their chosen area of electrical engineering.
Electrical Engineering Master’s
The master’s program in Electric Power Engineering equips students with the knowledge and expertise necessary to help develop more sustainable energy solutions. In areas like electric energy conversion, electrotechnical design, power system control, and electricity markets, it provides exceptional flexibility. Graduates can find employment opportunities at the cutting edge of developments in power systems and components.
Best Electrical Engineering Schools in West Virginia
Institution | Category | Location | website |
---|---|---|---|
West Virginia University - Lane Department of Computer Science and Electrical Engineering | University department | 1220 Evansdale Dr | https://lcsee.statler.wvu.edu/ |
Benjamin M. Statler College of Engineering and Mineral Resources | University department | 1306 Evansdale Dr | http://statler.wvu.edu/ |
Mining Engineering Department | University | 401 Evansdale Dr | https://mine.statler.wvu.edu/ |
Office of the University Registrar | University | 62 Morrill Way | https://registrar.wvu.edu/ |
College of Engineering | University department | 5000 Forbes Ave | http://engineering.cmu.edu/ |
School of Electrical Engineering and Computer Science | University | 209D Electrical Engineering West | http://www.eecs.psu.edu/ |
Penn State College of Engineering | Engineering school | 101 Hammond Bldg | http://www.engr.psu.edu/ |
NJIT Electrical & Computer Engineering Building | Engineering school | http://ece.njit.edu/ | |
College of Engineering at Temple University | University | 1947 N 12th St | http://engineering.temple.edu/ |
Department of Electrical and Computer Engineering - University of Rochester | University department | 500 Wilson Blvd | http://www.ece.rochester.edu/ |
College of Engineering | University department | Engineering Building | http://www.ltu.edu/engineering/ |
University of Kentucky College of Engineering | Engineering school | Ralph G Anderson Building (Mechanical Engineering), 351 Administration Dr | http://www.engr.uky.edu/ |
New York University Tandon School of Engineering | Engineering school | 6 MetroTech Center | http://engineering.nyu.edu/ |
Yale School of Engineering & Applied Science | Engineering school | 17 Hillhouse Ave | https://seas.yale.edu/ |
Ruth Ann Musick Library | Library | 1201 Locust Ave | https://library.fairmontstate.edu/ |
Milwaukee School of Engineering | Private university | 1025 N Broadway | http://www.msoe.edu/ |
Walmart Supercenter | Department store | 5605 University Town Centre Dr | https://www.walmart.com/store/3215-morgantown-wv |
School of Electrical Engineering & Computer Science | Engineering school | 355 NE Spokane St | https://school.eecs.wsu.edu/ |
NUST College of Electrical and Mechanical Engineering | University | Main Peshawar Rd، adjacent Daewoo Terminal |
Opportunities for Graduates in Electrical and Computer
- Graduate students studying Electrical will have the chance to learn from a committed faculty with knowledge in a variety of areas, including data and communication networks and power system operation.
- Students pursuing master’s degrees in electrical and computer engineering are exposed to a variety of industrial engineering internship opportunities that allow them to collaborate with and learn from electrical engineers while also putting the tools they have learned about in class to use.
- At the moment, graduate engineering students are researching a variety of subjects, including modeling wireless channel behavior and using blockchain technology to trade energy for networked microgrids.
Why pursue an electrical engineering bachelor’s degree?
Electrical engineers play a key role in the development of the elements that power our world. It’s a fulfilling career with a wide range of specialty options, excellent pay, and exceptional opportunity.
You’ll gain from a curriculum that offers a solid foundation in both traditional and modern areas of electrical engineering with a degree in electrical engineering. There will be chances for you to:
- Amplify your knowledge of electrical engineering by gaining practical experience that will help you recognize, formulate, and resolve problems.
- Learn the entrepreneurial, lifelong learning, leadership, communication, multidisciplinary teamwork, and other skills necessary for success in a global marketplace.
- Learn the technical knowledge needed to practice electrical engineering, as well as how to solve problems.
Student Results
- Students show that they can work well both as team leaders and members on technical teams.
- Students exhibit the ability to use written, oral, and visual communication in environments that are both technically and non-technically defined, as well as the ability to recognize and use the right technical literature.
- Students exhibit the ability to develop systems, parts, or procedures that satisfy particular requirements for broadly outlined engineering issues that are pertinent to the field.
- Students demonstrate the ability to solve broadly-defined engineering problems that are appropriate to the discipline using knowledge, techniques, skills, and modern tools from mathematics, science, engineering, and technology.
- Students show that they can carry out regular experiments, tests, and measurements and then analyze and interpret the results to enhance procedures.
A career in electrical engineering
Design, testing, manufacturing, service, and maintenance for manufacturers, energy producers, government contractors, government defense agencies, and utility companies are just a few of the many career options available to electrical engineers.
Graduates can pursue careers with starting salaries that are in line with the national average. The FBI, the National Security Agency, the Joint Warfare Analysis Center, Navair, the Naval Surface Weapons Center, American Electric Power, Dominion Power, Siemens, Square-D, Baltimore Gas and Electric, Hamilton-Bose, Consol Energy, and Allegheny Energy are just a few of the organizations that have hired our graduates.
Many graduates have continued their education by getting their master’s in engineering or business.