Exploring Electrical Engineering: Passion and Mathematics

Electrical engineering is a fascinating field that can be deeply rewarding for those with a strong interest in it. It is a field that combines theoretical knowledge with practical applications, where the passion for electronics can drive your learning and development. However, the initial challenge of mastering the required mathematical skills can be daunting. In this article, we will explore the journey of an individual who developed a deep interest in electrical engineering and how it influenced their academic performance and career path.

Developing an Interest in Electronics at a Young Age

My journey in electrical engineering began at the tender age of 11 when I became intrigued by electronics. My neighbor, who was a TV repairman and had received his training in the U.S. Army, initiated me into the world of electronics. Initially, we discussed the basics of radios, and then moved on to understanding how television worked.

He began loaning me books and manuals that he had accumulated over the years of his training. I faced a significant challenge as many of the books contained math concepts that I had not encountered before. However, I resolved to learn as much as I could.

The Power of Practical Application

The turning point came when I realized that math became much easier to learn once I needed it for specific practical applications. My initial math scores at school were around 7.5/10, but with practical application, these scores began to improve.

One of the significant ways I utilized this knowledge was by learning Morse code. At 13 years old, I received my Novice radio license. As my interests in electronics grew, so did my abilities in math. My passion for electronics continued to fuel my enthusiasm for mathematics, leading to improvements in my school performance.

Practical Experience and Professional Growth

At age 14, I started working in the TV shop where my neighbor worked on Saturdays. This hands-on experience further enhanced my skills and sparked a desire to know more. As my knowledge expanded, I was hired by a different TV shop when I turned 16 to work as an outside field technician, driving to clients' houses to repair their TVs.

This professional experience further emphasized the importance of both practical application and theoretical knowledge. I learned that digital design in electrical engineering typically requires less advanced math, whereas analog engineering demands a higher level of mathematical understanding.

Your Passion Should Guide Your Decision

The key takeaway is that your passion for a subject should be the driving force behind your decision to pursue a field. If you have a profound interest in electrical engineering, it is essential to develop and sharpen the related mathematical skills to support your journey.

While it is common to face difficulties in math, remember that these challenges can be surmounted through dedication and application. Your passion and dedication will help you navigate through the theoretical concepts and practical applications, making the learning process more fulfilling.

Follow Your Passion with Dedication

Follow your passion for electrical engineering. You will benefit from the experiences and knowledge gained. It is crucial to emphasize the importance of developing your math skills. The field of electrical engineering offers numerous opportunities for professional and personal growth.

In conclusion, while mathematics can be a challenge, your passion for electrical engineering can guide you through these difficulties. Keep pursuing your interests, and with dedication, you can achieve your goals in this field. Good luck!