Let’s start touch on what is Electrical/Electronic Engineering. Electrical/Electronic Engineering deals with the design, construction, and use of electric circuits, electrical machines, and equipment. Electrical/ Electronic Engineers design, develop and test electrical switches, motors, and generators.

They can optimize a given system by changing its power consumption in electric systems such as homes or cars. Electrical/ Electronic Engineers can also design and construct new power sources such as solar panels and windmills.

The Bureau of Labor Statistics estimates a growth rate of 3% for Electrical/ Electronic Engineers from 2016-2026. The Bureau of Labor Statistics estimated a 3% electrical/electronic engineer growth rate from 2016-2026.

See more jobs in Electrical/ Electronic Engineering Electrical/ Electronic Engineering is an engineering discipline that deals with the design, construction, and use of electric circuits, electrical machines, and equipment.

Electrical/ Electronic Engineers design, develop and test electrical switches, motors, and generators. They can optimize a given system by changing its power consumption in electric systems such as homes or cars.

Diploma Course

After doing non-medical / medical, anyone can join capable for this course. However, with the rising demand for personalized electrical and electronic engineering colleges,

we need more curriculum subjects for going into this industry.

Bachelor’s degree in Electrical-Electronic Engineering is becoming increasingly important due to changing price of resources,

increased competition between business and technology-heavy sectors, and increased demand for high-skill workers.

And the need for trained specialists in computer science, robotics, nanotechnology, and engineering.

The Bachelor of Electrical-Electronic Engineering is a four-year undergraduate degree that covers all aspects of electrical-electronic engineering.

This curriculum usually involves mathematics and physics classes, electro physics, circuit theory, and analog circuits,

digital electronics with microprocessors, computer programming and data communications, circuit simulators and digital devices, and more.

This curriculum is offered by public institutions such as California State University, the University of California campuses, and the UC system, but also many private colleges offer this degree.

How to get admission in Electrical and Electronics Engineering?

Electrical/Electronic engineering is one of the most sought courses. Schools and colleges in India and abroad provide diverse options for admission in this field.

Presently, entry qualifications Are set high considering the highly competitive job market,

and the industry wants professionals varying from technical professionals (electronics, developing software) to managerial positions.

Entry criteria for admissions include completion of Board examinations (HSLC, SSLC) or Junior College with appropriate grade point averages.

The supply and demand of electrical/electronic engineering graduates have been low in the past five years.

However, entry qualifications are still high considering the highly competitive job market,

and the industry wants professionals varying from technical professionals (electronics, developing software) to managerial positions.

Entry criteria for admissions include completion of Board examinations (HSLC, SSLC) or Junior College with appropriate grade point averages.

Civil engineering is a course that’s popular in India and abroad. Schools and colleges offer diverse options to get admissions in this field.

The class has increased in popularity over the past five years due to the increasing demand for skilled graduates with problem-solving skills

and good knowledge of mathematics, materials science, structural analysis, and mechanics.

Future Scope of Electrical and Electronics Engineering

The future scope of electrical and electronics engineering makes electrical engineers have different career choices—future Scope: Electrical contract and design work on manufacturing new process technology while managing risk.

Electrical Designers generate and present technical concepts, provide engineering proposals, and create designs for projects or products. At the leading edge of engineering, you will find Curriculum Curricula focused on transportation systems design that integrates field simulation approaches to technologies such as renewable energy and automated driving in cold climate areas.

An electric vehicle charging and power electronics. The future scope of mechanical engineering makes mechanical engineers have different career choices. Future Scope: Manufacturing industrial and automotive products; designing and building prototype machines, equipment, tools, etc.

Mechanical Designers create concept designs for new products or improvements to existing ones using 3-D modeling software to visualize their structure.

There are many opportunities for electrical/electronic engineering graduates to pursue a career in other fields.
Some of the most common careers for these graduates include:
1. Electrical engineer – work in the field you studied in school, such as designing power plants or electrical grids.
2. Electronics engineer – work with computer hardware and software, including manufacturing and design of electronic devices like smartphones, tablets, computers, digital cameras, and more.
3. Computer engineer – work with software programming languages like C++ or Java to develop computer software applications on a variety of platforms, including desktops and mobile devices.
4. Industrial engineer – work in manufacturing and engineering companies, designing machinery that helps make products efficiently.
5. Computer programmer – develop software applications for various platforms like desktops, laptops, or mobile devices using programming languages like Java or C++.
6. Hardware engineer – design and manufacture various electronic devices like computers, smartphones, tablets, or digital cameras.

Popular job profiles for Electrical and Electronics Engineers

As more financial companies move toward automation, the demand for Electrical and Electronics Engineers (EEE) is expected to rise.

Electrical and Electronics Engineers are responsible for designing, installing, operating, and maintaining wiring systems or equipment dealing with electronics such as wire or conduit distribution systems.

Engineers design facilities where electricity or electronics are controlled by computers and naturally use circuit diagrams to ease understanding of systems that result in symbols whose logic can be understood without complex engineering training.

Demand for Electrical and Electronics Engineers is expected to grow as companies toward automation and high-tech industries become more prevalent.

A major driving force for the need for Electrical and Electronics Engineers is that many organizations are starting or expanding their automation processes. For example, companies like Amazon, Google, and Apple heavily rely on automation software to provide customers.