Electrical engineering is difficult and challenging by all standards. Not only is it difficult to study electrical engineering, but it is also difficult to practice electrical engineering in the real world.
Unlike other engineering disciplines, where you can see and design what you are working on, in electrical engineering, you will be working on things that you can't see or touch, and there is a lot of abstract thinking.
You can't see the current flowing in a circuit or the signal that transmits a message, but you have to develop systems and models to process the current in electrical equipment or the signal in communication equipment.
In addition, electrical engineering is one of the most mathematically intensive engineering disciplines. Electrical engineering courses involve a lot of calculus and trigonometry. For example, the Signals & Systems or Digital Signal Processing (DSP) courses are page after page of mathematical concepts and applications.
In my second year of electrical engineering, sometimes I had a hard time telling if I was studying engineering math or signals and systems, all in calculus and other math applications. If you're challenged with physics and math, you'll have a hard time understanding many electrical engineering concepts. However, if you have a talent for math and physics, you'll love electrical engineering, and you'll find it relatively easy.
Electrical engineering is considered one of the most difficult engineering disciplines by many standards. There are a lot of advanced mathematical and physical concepts to deal with. Also, it is difficult to visualize things that cannot be seen, such as currents, magnetic fields, electric fields, signals, etc.
The electrical engineering course is so demanding that you have to put in a lot of study and practice to become a successful electrical engineer, coupled with lab experiments and reports, you will start to see how much time you need to spend on your book.
When you choose to major in electrical engineering, you choose to study for a lifetime. You need to keep learning to stay in touch with electrical engineering, and you need to undergo lab experiments because nothing in the real world behaves exactly like the theory you're studying.
Electrical engineering jobs are also challenging, with electrical engineers designing, testing, and maintaining electrical installations and equipment, ranging from small objects like microchips and computers to large projects like satellites and power station generators.
In order to ensure the safe operation of the power station or the effective configuration of the satellites for communication, a lot of calculations and tests are required, all of which are not easy and require a lot of discipline, learning, and hard work.
The demand for good electrical engineers is huge, and according to statistics, the overall employment of electrical and electronics engineers is expected to grow by 7% from 2020 to 2030, about the same rate as the average for all occupations.
An average of about 22,700 electrical and electronics engineer job openings are expected each year over the next decade. This shows that electrical engineers are popular and that electrical engineers have a future.
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