Specializations in Electrical Engineering
Electrical engineering is a field of study in engineering. It focuses on the study, design, and applications of electrical engineering. This field utilizes the various forms of electricity, electronics, and electromagnetism. Among the many specializations of this field is electrical engineering design, which focuses on the creation of electrical equipment and systems. Electrical engineers design circuits, power plants, and other devices that use electricity. These electrical systems include power lines, power plants, and telecommunication systems.
When choosing a specialization in electrical engineering, make sure it is a good match for your interests. If you're interested in designing complex systems that involve human and non-human input, consider focusing on systems and control. This area of engineering provides a broad range of career opportunities in many industries, from automobiles to biological systems. Electrical engineers may also choose to specialize in environmental systems, transportation systems, or computer systems.
An electrical engineer who wants to specialize in power systems would choose the specialty of automotive mechanical engineering. This field combines science and mathematics to develop energy and mechanical systems. A mechanical engineer helps to design automobiles and other machinery. Among other duties, a mechanical engineer may design and manage semiconductor fabrication facilities. But if you're not interested in working in semiconductor fabrication, opt for another specialty, such as aerospace engineering. Listed below are some other electrical engineering specializations.
Electrical engineering has many branches and specializations, each with its own unique challenges and rewards. A control systems engineer, for example, organizes and regulates many aspects of production. This specialty involves learning computer programming, mathematical programming, and computer algorithms. The work of these engineers is often specialized and demanding, so choosing a specialization can help you develop unique skills. In addition, some programs require a master's thesis in application-related topics.
Electrical engineers work in many different industries, including the power and electronics industry. They can work as senior software engineers or in small offices. In today's world, the electrical industry is expanding at a rapid pace. With the right education and training, graduates can find jobs as an Electrical Engineer, Senior Software Engineer, or Data Engineer. They may also specialize in other areas of electrical engineering, such as computer hardware and software. So what are the advantages of an electrical engineering specialization?
The BLS projects a relatively slow increase in the number of jobs for electrical engineers in the next decade. Although the industry has been shrinking in recent decades, employment for engineers in this field is still expected to rise over that time period. The industry is expected to grow in several sectors, including manufacturing, telecommunications, and solar arrays. However, the career outlook for electrical engineers is not rosy. In addition to a degree in electrical engineering, a graduate can choose to become a professional engineer, which can further increase their chances of getting a job.
While electrical engineers typically act as designers and operators, there is a growing demand for their expertise. From the latest offshore vessels to huge cruise ships, electrical engineers play a pivotal role in generating and disseminating energy. In addition, electrical engineers in the materials and metals industry can expect to work on cutting-edge technology that powers everything from HVAC systems to electrically-driven fans. Depending on your area of specialty, you can expect to earn a competitive salary.
In the United States, there were 328,100 electrical engineers in 2010. The Bureau of Labor Statistics projects a 3 percent job growth between 2019 and 2029, with an expected creation of 10,800 new jobs. That's pretty good news, but it's still below average compared to the employment growth of many other fields. If you're interested in becoming an electrical engineer, then the time is now. The industry is expected to remain strong for the next decade, but there are a few factors to consider.
The U.S. Bureau of Labor Statistics projects the employment of electrical engineers to increase by seven percent over the next decade. In the meantime, nearly 23,000 new job opportunities are expected every year. In addition, new technologies like solar and wind energy are expected to increase by 25 percent and 52 percent, respectively. As of May 2020, the median annual salary of electrical engineers was $100,830, and the top ten percent made more than $159,520.
For students with specific career goals, the field of electrical engineering provides plenty of opportunities to specialize. The elective areas of concentration in this field include power, telecommunications/signal processing, and digital systems. Properly selected design courses can meet requirements for each of these areas of concentration. The curriculum of a BS in electrical engineering is broad enough to offer a wide range of electives and a flexible schedule. The program is accredited by the Engineering Accreditation Commission of ABET.
Undergraduates pursuing an education in electrical engineering are exposed to a diverse range of academic courses and practical experiences that help them advance their technical knowledge. Electives may include courses in computing, microelectronics, electromagnetics, power systems, communications systems, and control systems. Students often take foundation modules that provide the necessary knowledge and hands-on experience required to become successful in their career. After completing the foundation modules, they are able to explore elective areas and earn a Master's degree in electrical engineering.
A Bachelor of Science in electrical engineering is the first step for most students. Many of these students go on to earn a master's degree or PhD. Others choose to teach in universities or continue their education. For example, some engineers specialize in solid-state devices and integrated circuits, which are essential for entertainment technology. Other fields may focus on artificial intelligence and robotics, which may require them to manipulate hazardous materials. The options for a degree are endless, and it is up to the student to decide how to further their education.
Students begin their education in a three-week practical introduction to electronics. Short microcontroller-based problem-solving exercises are common throughout the semester. Emphasis is placed on learning by doing the task, with some assistance from others. The department also organises two field trips, one at the beginning of the semester and one at the end of the semester. This way, students have an opportunity to experience life as an engineer and get a taste for how it works.
A degree in electrical engineering can open many doors for future professionals. Electrical engineers can work in many industries, from utility companies to manufacturers of electrical equipment. They can develop small systems or large grid systems, troubleshoot power grids, and create design specifications for various electrical projects. They can also work in the business world, teaching courses on electrical engineering. However, these careers are often considered low-skilled. If you're interested in a career in electrical engineering, it's worth noting that a degree in electrical engineering is the minimum requirement for some teaching jobs.
Many people think that careers in electrical engineering are limited to electricity and energy. However, careers in this field can range from IT management to aviation power supply. Major hiring companies in India include TCS, ONGC, MTNL, and BSNL. Other government and private sector employers include BHEL (Bharat Heavy Electrical Limited).
Earning a bachelor's degree in electrical engineering is an excellent starting point for a career in this field. You can also take additional courses and obtain certifications through organizations such as the Institute of Electrical and Electronics Engineers. Continuing education and certifications are important because scientific knowledge grows and evolves. Having a bachelor's degree is a good start, but it's important to be aware of other opportunities to improve your credentials.
Depending on the state you live in, there are many job opportunities in electrical engineering. The Bureau of Labor Statistics (BLS) tracks employment trends and reports that some states have better job opportunities than others. So, before you decide to move to one of these high-growth states, you should first know where the best opportunities are. While living in a state with high employment rates doesn't guarantee a job, it helps you showcase your talents and qualifications.
Electrical engineers can also become entrepreneurs. If you're an independent student and have specialized skills in a growing industry, you may be able to secure short or long-term contract work with a higher hourly rate. Of course, you'll need to secure enough capital to start your own business. Then, you'll need to develop a business structure and apply for a patent to protect your intellectual property.