What is electrical engineering?
Electrical engineering is the application of engineering principles and technology to the design, development, manufacture, and operation of electrical and electronic systems. These systems include power generation, transmission, and distribution; telecommunications; control systems; and electronic equipment, including computers.
What do electrical engineers do?
They design and oversee the construction of electrical systems.
What is the difference between electrical engineering and electrical engineering technology?
The main difference between electrical engineering and electrical engineering technology is the level of education and the types of jobs the two disciplines lead to. Electrical engineers typically have a four-year degree in electrical engineering, while electrical engineering technology majors typically have a two-year degree in electrical engineering technology. Electrical engineers typically work in research and development or in management positions in industry, while electrical engineering technology majors typically work as technicians or in entry-level engineering positions.
What is electrical engineering used for?
Electrical engineering is used to design, build, and maintain electrical systems. These systems can be used for anything from powering a light bulb to controlling a robot.
What are the educational requirements for electrical engineering?
In the United States, there is no specific educational requirement for electrical engineering, but most employers prefer to hire candidates who have a degree in electrical engineering from an accredited engineering program.
What are the skills necessary to be successful as an electrical engineer?
The skills necessary to be successful as an electrical engineer include: math and physics skills, creativity, problem-solving skills, communication and teamwork skills, and engineering and technology skills.
What are some of the challenges that electrical engineers face?
Some of the challenges that electrical engineers face include working with new and innovative technologies, ensuring safety and compliance with regulations, and finding efficient and effective ways to solve problems. Additionally, electrical engineers must be able to work well in a team environment and be able to communicate effectively with other professionals.
What is the job outlook for electrical engineers?
The job outlook for electrical engineers is good. The Bureau of Labor Statistics projects that electrical engineer jobs will grow by 6 percent from 2014 to 2024. This is about as fast as the average for all occupations.
What are some common electrical engineering jobs?
Some common electrical engineering jobs are power engineer, control engineer, electrical engineer, and systems engineer.
How much does an electrical engineer earn?
The median annual wage for electrical engineers was $96,640 in May 2017.
What are some of the challenges that electrical engineering students face?
One of the challenges that electrical engineering students face is completing the required coursework. In addition, many students must also complete internships or research projects in order to graduate.
What is the difference between a Bachelor of Science in Electrical Engineering and a Bachelor of Science in Electrical Engineering Technology?
The Bachelor of Science in Electrical Engineering is a more theoretical degree, while the Bachelor of Science in Electrical Engineering Technology is more hands-on.
What is the difference between a Master of Science in Electrical Engineering and a Master of Science in Electrical Engineering Technology?
The degree of Master of Science in Electrical Engineering typically requires more coursework and research than the degree of Master of Science in Electrical Engineering Technology. The latter degree is more focused on applied engineering and may have less coursework in theoretical subjects.
What is the difference between a Master of Science in Electrical Engineering and a Master of Science in Electrical and Computer Engineering?
The Master of Science in Electrical Engineering typically focuses on the theory and design of electrical circuits, systems, and devices. The Master of Science in Electrical and Computer Engineering typically focuses on the theory, design, and application of electrical and computer systems.
What is the difference between a Master of Science in Electrical Engineering and a Master of Science in Electrical and Computer Engineering Technology?
The Master of Science in Electrical Engineering is a more theoretical degree, while the Master of Science in Electrical and Computer Engineering Technology is a more practical degree.
What is the difference between a Master of Science in Electrical Engineering and a Master of Science in Electrical and Computer Engineering with a concentration in Power Systems?
The main difference is that the concentration in Power Systems would focus more on the power engineering side of things, while the Electrical Engineering degree would have a more general focus on electrical engineering topics.
What is the difference between a Master of Science in Electrical Engineering and a Master of Science in Electrical and Computer Engineering with a concentration in Signal Processing?
The concentration in Signal Processing would give students more coursework in signal processing techniques and algorithms.
What is the difference between a Master of Science in Electrical Engineering and a Master of Science in Electrical and Computer Engineering with a concentration in Control Systems?
The concentration in Control Systems would give you more coursework in control theory and design, as well as more experience with MATLAB and Simulink.
What is the difference between a Master of Science in Electrical Engineering and a Master of Science in Electrical and Computer Engineering with a concentration in Robotics?
The concentration in Robotics would give you more focus in the area of Robotics.
What is the difference between a Master of Science in Electrical Engineering and a Master of Science in Electrical and Computer Engineering with a concentration in Telecommunications?
The two degrees are very similar, but a concentration in Telecommunications may focus more on telecommunications systems, networks, and protocols.
What is the difference between a Master of Science in Electrical Engineering and a Master of Science in Electrical and Computer Engineering with a concentration in Computer Architecture?
The main difference between these two degrees is that the concentration in Computer Architecture will teach you more about the design and implementation of computer systems.
What is the difference between a Master of Science in Electrical Engineering and a Master of Science in Electrical and Computer Engineering with a concentration in Digital Systems?
The focus of a Master of Science in Electrical Engineering is more general, while the focus of a Master of Science in Electrical and Computer Engineering with a concentration in Digital Systems is more specific.
What is the difference between a Master of Science in Electrical Engineering and a Master of Science in Electrical and Computer Engineering with a concentration in VLSI Design?
A Master of Science in Electrical Engineering typically covers a broader range of topics in electrical engineering than a Master of Science in Electrical and Computer Engineering with a concentration in VLSI Design. The latter program is specifically focused on preparing students to design and create very large-scale integrated circuits.
What is the difference between a Master of Science in Electrical Engineering and a Master of Science in Electrical and Computer Engineering with a concentration in Embedded Systems?
The main difference between these two degrees is that the Electrical and Computer Engineering degree with a concentration in Embedded Systems focuses more on the software side of embedded systems, while the Electrical Engineering degree focuses more on the hardware side of embedded systems.
What is the difference between a Master of Science in Electrical Engineering and a Master of Science in Electrical and Computer Engineering with a concentration in Microelectronics?
The concentration in microelectronics would give you more focus on that particular area within electrical engineering.
What is the difference between a Master of Science in Electrical Engineering and a Master of Science in Electrical and Computer Engineering with a concentration in Photonics?
The main difference between these two degrees is that the Electrical and Computer Engineering degree with a concentration in Photonics includes more coursework in optical engineering and photonics.
What is the difference between a Master of Science in Electrical Engineering and a Master of Science in Electrical and Computer Engineering with a concentration in Power Systems?
The concentration in Power Systems would prepare one for a career in the electric power industry. It would cover topics such as generation, transmission, and distribution of electric power, as well as the operation and management of power systems.
What is the difference between a Master of Science in Electrical Engineering and a Master of Science in Electrical and Computer Engineering with a concentration in Signal Processing?
A Master of Science in Electrical Engineering is a degree that covers a wide range of topics in electrical engineering. A Master of Science in Electrical and Computer Engineering with a concentration in Signal Processing is a degree that focuses specifically on signal processing, which is a field of electrical engineering that deals with the manipulation of signals.
What is the difference between a Master of Science in Electrical Engineering and a Master of Science in Electrical and Computer Engineering with a concentration in Control Systems?
The concentration in Control Systems is designed to give students a more in-depth knowledge of the control systems field.
What is the difference between a Master of Science in Electrical Engineering and a Master of Science in Electrical and Computer Engineering with a concentration in Robotics?
The concentration in Robotics would give you more education and experience in the design and operation of robotic systems.