What is electrical engineering? 

Electrical engineers work with electricity, electronics, and electromagnetic energy to create gadgets and systems. Electronic engineering is a relatively modern discipline compared to many other engineering professions that date back to antiquity. They also require strong computer skills, with coding experience being an enormous plus. For testing and research, electrical engineers are increasingly turning to computer-aided design (CAD) systems.

Magnetic fields are used to generate voltage and electric current in a closed circuit through electromagnetism. Electric motors, generators, and a variety of other equipment and gadgets are all powered by it. This game-changing discovery paved the way for new innovations and developments that profoundly altered how people lived. In reality, the introduction of electricity to households, businesses, and industries marks the start of the modern age.’ Without electrical engineers, none of this would have been feasible. Consider what life would be like if there were no light bulbs, television, microchips, telecommunications systems, or computers.

Electrical Engineer: What do they do?

Electrical engineers, in a nutshell, keep our world going. Electrical engineers design and maintain a wide range of devices and navigation systems, from tiny microchips inside our phones to enormous aircraft electrical systems. With the advancement of electricity and technology, a variety of degree programs, career routes, and possibilities in the area of electrical engineering have emerged, all of which have an impact on what electrical engineers perform on a daily basis.

Here are some job duties that an electrical engineer does which are as follow:

  • Examine electrical products, systems, components, and applications.
  • Ensure that electrical equipment is manufactured, installed, and tested according to specifications and codes.
  • Create innovative ways to use electricity to improve or develop existing products and systems.
  • Investigate consumer or public complaints, assess problems, and make professional electronic engineering recommendations.
  • Collaborate with project managers to ensure that projects are executed satisfactorily, on time, and within budget.
  • Keep up with the most recent research and technology.

Why consider electrical engineer as a profession in 2022? 

Career opportunities from around the world: With a B.Tech in Electrical Engineering, you can work almost anywhere in the globe. Your degree will be acknowledged by the majority of top worldwide firms because the guiding principles of electrical applications, mathematics, and physics are constant. Countries all around the world are in desperate need of competent and experienced electrical engineers.

Lucrative Salaries: Electrical engineers are well compensated not only in the later years of their careers, but even in the early phases of their careers as new graduates with little job experience. Fresher’s can be recruited by international firms easily and trained on the job according to their demands and specifications because this is such a hands-on field. This allows you to obtain valuable work experience while still being a fresher in a well-paying job, as well as expand your skill set, which will help you earn a higher income later on in your career.

Career Growth: Many organizations provide some amount of skill-oriented training to newly hired electrical engineers, so you’ll always have opportunities to improve your skills, which will help you advance in your career. You can pursue a M Tech in Electrical Engineering after earning a few years of work experience to gain a higher qualification and more polished abilities that will help you advance your career.

Professionals are always in high demand: Electrical engineers have been in high demand in worldwide markets over the last few years, and this trend is expected to continue in the coming years. You will never be unemployed if you have this qualification and the necessary skill. Besides just an engineer, you can study for FE exam and get EIT certification to improve your chances of success in your career.

Hands-On Job for you: Electrical engineering is a very hands-on profession that will not allow for boredom or a desk job. On the job, there will always be room for innovation, which will necessitate the development of analytical and problem-solving abilities in order to function effectively in the business. Electrical engineering is a difficult job, and if you don’t appreciate sitting at a desk, this is the career for you.

A Job That Is Recession-Proof: Regardless of the situation, electrical engineers will always be in need. Even when the COVID-19 pandemic put the world on lockdown, electrical engineers had to work overtime to ensure that people had electricity in their homes, uninterrupted Wi-Fi service so they could work from home, and the smooth operation of healthcare facilities so that adequate medical care could be deployed. As a result, it’s reasonable to say that electrical engineering is a recession-proof career choice.

Opportunity to travel: Electrical engineers are in high demand all over the world, which is a great plus. With such a broad qualification, you’ll have plenty of options to travel. Many electrical engineering positions also allow you to travel to other locations a few times a year.

A sense of DIY techniques: “Do It Yourself” is one of the more intriguing reasons to study Electrical Engineering. If you understand how power generation, control panels, and electrical systems function, how energy is transmitted, what frequently fails, and what the basic laws of Electrical and Computer Engineering are, you can build your own systems and devices instead of searching for and acquiring them.

What lies in the future of electrical engineering? 

Despite the worldwide economic uncertainties caused by the COVID-19 pandemic, electronic engineers have a bright future as not for once they have stopped even in between the pandemic.  They will, in reality, play a key part in the development and testing of smart technologies and infrastructure that will drive the global recovery. Electrical engineer demand is expected to expand by over 5% in the next 12 months, and exponentially over the following decade, according to the US Bureau of Labor Statistics (BLS). According to the Bureau of Labor Statistics, “the rapid pace of technological innovation and development will likely drive demand for electrical and electronics engineers in research and development, an area in which engineering expertise will be required to develop distribution systems related to new technologies.”