Charging Ahead: The Role of Electrical Engineers in Sustainable Energy Solutions

Engineering degrees have been one of the most coveted credentials, with recent graduates earning more than 7,50,000/- per year. Petroleum engineers make the most money, but they’ll soon be surpassed by electrical engineers, who are creating the digital and ecological innovations that will characterize the next few decades. All of the products and devices we use on a regular basis, such as cellphones, computers, and microwaves, are built by these engineers. Electrical engineers also build and maintain infrastructures such as power plants and military defense systems, which are essential to any highly modern civilization. 

So, what are the requirements for becoming an electrical engineer? What are your immediate and long-term job chances following graduation? And where should you go to school if you want to be a member of the next-generation electric engineers working to make the world a better place?  Let’s look at why you should pursue electrical engineering and where you should study it.

What exactly does electrical engineering entail?

Electrical engineers work with electricity, electronics, and electromagnetic to create gadgets and systems. Electrical engineering is a multidisciplinary modern field compared to many other engineering topics that stretch back to antiquity. When researchers like Hans Christian Orsted and Michael Faraday started exploring electromagnetic induction in the nineteenth century, it became popular.

Magnetic fields generate voltage and electrical currents in a closed circuit using electromagnetic induction. Electric motors, turbines, and a variety of other equipment and gadgets are all powered by it. This momentous discovery paved the door for a slew of new innovations and advances that dramatically altered how people lived. In reality, the advent of light to households, companies, 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 lightbulbs, television, computer chips, telephone networks, or computers.

What are the benefits of studying electrical engineering?

Electrical engineering is a practical field with a variety of rewarding job options. Electrical engineers can operate in a variety of settings, including research and innovation, engineering services, manufacturing, government, and technology. Automotive manufacturing, aircraft, defense, consumer electronics, construction management, computers, and telecommunications are all relevant industries.

It implies you may wind up constructing reusable space rockets or testing microchips for supercomputers. Elon Musk’s multibillion-dollar space exploration business, SpaceX, recently offered an Electric Test Engineer position. This thrilling position entails developing test systems for missiles and satellites, assisting SpaceX in achieving its primary aim of enabling humanity to conquer the stars. On a Monday morning, that’s a fairly excellent incentive to wake up!

Salary Prospects- Some Unbelievable Numbers!

• Engineers at prominent businesses like SpaceX earn roughly INR 62,595,200 per year, with top engineers commanding six-figure wages.
• A recently educated electrical engineer may expect to earn roughly INR 4,010,260 on average.
• With a master’s degree and five years of experience, a mid-level engineer may make INR 5,416,260.
• Senior engineers with a master’s or doctoral degree might earn as much as INR 10,126,800.

What qualifications do you need to work as an electrical engineer?

Electrical engineers must have a strong grasp of electrical and electronic theory, mathematics, and materials. They also require extensive computer abilities, including coding expertise. For testing and research, electrical engineers are increasingly turning to computer-aided design (CAD) systems. Computer simulations can be used to simulate massive national power systems, evaluate the processing speed of microchips, or perform war games against a new radar or defensive system.

Electrical engineers are essentially problem solvers and inventors. They’re continuously searching for methods to boost productivity and efficiency. As a result, they are methodical thinkers who use analytic thinking. In electrical engineering, however, there is still plenty of potential for creativity and flair. Those who are able to mix a practical approach with innovative ways of thinking are the most successful.

They can also accomplish some very incredible things that change the way we perceive ourselves and the world. Nikola Tesla, widely recognized as the finest electronic engineer of all time, though that building was much more than ‘science.’ He regarded it as a humanist undertaking that may help to create a more equitable and sustainable society. In 1900, Tesla wrote, “All people worldwide should have free sources of energy.” “Electric power exists in infinite numbers everywhere and can power the world’s largest machinery without the use of coal, oil, or gas.”

Electrical Engineering’s future

Despite the worldwide economic instability induced by COVID-19, the future for electronic engineers appears bright. They will, in reality, play a key role in the development and testing of the smart technologies and infrastructure that will drive global recovery. According to the US Bureau of Labor Statistics (BLS), demand for electrical engineers will increase by over 5% in the next year and dramatically over the following decade. Electrical engineers are also at the vanguard of some of science’s most fascinating innovations, such as wireless neuro-links that might help stroke sufferers restore motor function.

SRMUH – A Stimulating Curriculum For Future Engineers

SRM University, Sonepat is recognized for concentrating on its students’ brilliance and well-being, offering several student dorms and campus housing, and giving many scholarship choices. It is located about half an hour from Delhi, nestled away within a tangle of ancient alleyways in the lovely city of Sonepat. Dr. Ranjit Roy is the Professor & Dean(Engineering & Technology), Department of Electrical & Electronics Engineering, SRMUH.

Electrical engineering will confront several hurdles in the future, according to SRM University, Delhi-NCR. That’s why the school’s 4 years Programme in Electrical Engineering is tailored to meet the demands of the twenty-first century in terms of technology, energy, and communication. This unique course teaches students how to manage energy resources rationally, equipping them with the skills and information to comprehend and implement alternative and sustainable energy and transportation options such as solar, wind, hydro, and geothermal power.

Students will be able to design electrical installations, implement automated power grid systems, analyse electromagnetic compatibility issues in industrial settings, and design energy systems in the industrial, civil, and service sectors after graduation.

Some Other Important Information About The Programme At SRMUH

Value Added Facilities

• MATLAB
• PSpice
• LabVIEW
• OrCAD
• Multisim
• Personality Development
• Value Education

B.Tech. – Electrical & Electronics Engineering (EEE)

Course Duration- 4 years

Course Fee- 1,75,000/-

Eligibility

Passed 10+2 examination with Physics and Mathematics as compulsory subjects along with one of the Chemistry/ Biotechnology/ Biology/ Technical Vocational subjects/ Computer Science/ Information Technology/ Informatics Practices/ Agriculture/ Engineering Graphics/ Business Studies. Obtained at least 50% marks in the above subjects taken together.