Why we study digital electronics

That is how difficult studying electrical engineering is

What makes studying electrical engineering difficult?

Depending on the specialization, an electrical engineer can later work in the following industries, for example:

  • microelectronics
  • mechanical engineering
  • power supply
  • telecommunications

However, you have to be aware that studying electrical engineering can be very demanding and difficult.

  1. Content
  2. Specializations
  3. Failure rates
  4. Math stress
  5. Experience report
  6. Conclusion

1. Course content

The course content already shows that. Of course, you can expect courses in which you will learn everything about electric machines and electric drives learn. However, you will only be able to take these subjects in later semesters. Before that you can expect most of all a lot of theory in math and physics. There are only minor differences between the practical share at universities and technical colleges.

In addition, you will learn more about electrical engineering Computer science have to do than in other courses. This can already be seen, for example, in the timetable, in which you could find the following courses:

  • Computer science
  • Digital systems
  • Microcontroller systems
  • Software engineering
  • Automation technology

In addition to the ability to understand the interrelationships of computer science, it is also an advantage if you have good computer skills because many computer calculations and simulations are now carried out in electrical engineering.

Recommended courses of study

Regardless of computer science, the following subjects await you in your studies:

  • Measurement and Control Technology
  • Energy Technology
  • Power electronics
  • Electrical Power Engineering
  • technical Physics
  • Electronic components and circuit
  • microelectronics

As mentioned earlier, you will mathematical and physical basics of the subjects, especially in the first semesters, as well as a little mechanics and chemistry. After all, without knowing the basics, you can't get started practically right away. This poses a problem for some students, as one is overwhelmed with information.

A part of your studies that should not be neglected will also be yours English proficiency and be the extension of this. Last but not least, you need technical English to read and write specialist literature, but you should also be able to understand and give lectures in English. The internationality and global importance of the course should not be underestimated.

2. Specializations

After you have completed your bachelor's degree in electrical engineering despite all the difficulties with physics, math and computer science, you can Finally specialize in practice in the master’s program. It is important to remember that you now have to be able to apply what you have learned theoretically in practice - some students have a problem with that.

Possible specializations are:

  • Energy Technology
  • Automation technology
  • robotics
  • Information and communication technology

However, these are not all possibilities - it is best to keep a close eye on what is good for you in the undergraduate degree and what opportunities there are to develop your affinities in the Master's.

3. Failure rates

Also in Electrical engineering degree Many students have to struggle with the material from the first semester, so the failure rates in the math and physics exams are particularly high.

After all, even today a relatively large number of students decide to drop out of their electrical engineering studies - not least because they may have been disaffected by the first semesters. That's how it lies The drop-out rate at universities was 53 percent. At universities of applied sciences it is 36 percent a little less, which may be due to the different learning atmosphere. At universities of applied sciences there is demonstrably more proximity to the lecturer and the courses are also smaller.

In order to get more students through their studies successfully, some universities are now taking initiatives. So stretch it out Osnabrück University of Applied Sciences For example, the content of the first semester in such a way that it no longer has to be completed in such a short time. So it is possible to learn the basics more slowly and thoroughly.

4. Math stress

As already mentioned, the first semesters in particular are very involved theoretical mathematics and physics afflicted. However, if you took the Math LK at school, your grade is not necessarily decisive for how you get along with the mathematics in the electrical engineering degree. It differs significantly from what you learn in school.

How much math is the electrical engineering course exactly? You expect among other things the following mathematical relationships during your studies, which you will also have to deal with in your later professional life:

  • Complex numbers
  • Linear Algebra
  • Differential calculus
  • Integral calculus
  • Series development
  • Differential equations
  • Multiple integrals
  • Laplace

Through diligence and working with study groups, you should be able to work through these topics and understand them. However, if the mere thought of math makes you panic to this extent, you might want to reconsider your choice of study.


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5. Experience report

Bastian, 27, electrical engineering student:

"After graduating from high school, I was initially haphazard in terms of my professional future. During my civilian time, I attended various job fairs and thought about what I enjoyed most at school. I discovered math and physics pretty quickly. Finding out I found it exciting how electronic devices that you use every day work and so I decided to go for electrical engineering. My subject also includes the basics of programming, the subject of component theory and of course a lot of math. For my master's thesis, I made experiments with attention detectors. With their help, the car recognizes that the driver is getting tired and warns him. The beginning of the course is tough, you really have to bite through it. In the first few semesters you are flooded with information.

You learn a lot of the basics, only later does the wow factor come and you notice how the individual subjects flow together. You certainly have to learn a lot, but the most important thing is to understand things and relationships and to be able to apply them under new circumstances. At first it is difficult to see what is really essential, but after a semester or two you get a look at it. To test what we learned during our studies, my fellow students and I did a practical semester. Afterwards, I stayed with my employer, a company for heating technology, as a working student and not only gained professional experience, but also earned money. If everything goes well, I will be able to start there after my master’s degree. "

6. Conclusion

A degree in electrical engineering is right for you if:

  • You tech-savvy and you are fascinated by electrical devices
  • You hardworking and math doesn't scare you off
  • physics is one of your favorite subjects
  • You like Learn new things
  • The idea always excites you growing industry to work

Are you wondering whether mechanical engineering, civil engineering and mechatronics might be more suitable for you?
 
Here you can find out how difficult the other courses in this subject are:

 

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