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Proposed future career in electrical engineering
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I’ve always wanted to go into the engineering field in some way shape or form I’ve always been told to be an nurse or doctor when I get older, but growing up really showed me what I’m good at and what my talents are and so it seems that engineering might the thing that puts all my talents together. I love math and really enjoy working with others and creating relationships as well as solving different problems that come my way. I really love to solve different types of problems especially when I was a kid or even now, because I really like the feeling of getting stumped on something only to learn and find the answer to the problem a little while later, it gave me a feeling of accomplishment every time I would figure out the problem. I also love being in the …show more content…
Electrical engineers work with the power of electricity in order to create large-scale electrical systems such as motor control and power transmission. Electrical engineers may work on many ranges of projects, from the development of common household items, wiring and lighting of big towers and buildings, telegraphic systems, electrical power house stations, or even satellite transmitters. They plan their designs using computer software’s or sometimes they might even sketch their ideas by hand. To be an electrical engineer one must be good in math and science. The way how electricity runs and the basic laws of nature are required to be an engineer while math is needed to calculate and understand what and how things work with empirical functions and try to improve on the devices by way of math. Also, great reading and writing skills are necessary in becoming a successful electrical engineer. In the electrical engineering field, you are constantly communicating with your co-workers in order to convey information effectively, which is why reading and writing are essential to engineering for clear and direct communication to one another. You also need to be able to lead others, at some point
Do you remember what it felt like to be a teen and wonder what your future would become? That is right where I am at. As a freshman in high school, I have begun thinking about what my future in life will be. Which school, what career path, and where? All of these options are very overwhelming. At the moment, I would like to follow the path of engineering, manufacturing, and technology, and pursue college degrees in computer science and mechanical engineering. In order to achieve my dream, I can use background career knowledge, ACT test requirements, and habits designed to help you get to where you want to go.
My current area of interest is in the engineering and the biomedical field. After experiencing the rigorous AP Chemistry course, I was able to find my passion in the field of medicine. Furthermore, I had already developed an interest in engineering from my previous engineering courses and clubs, so a deeper understanding of what I wanted to do was discovered in a chemistry lab. Being involved with the Technology Student Association at our institution, I learned several different skills in a variety of technical fields. This led to my conclusion that I wanted to become a biomedical engineering. This field of engineering incorporates both the medical aspect and technical aspect of what I want to become in the future.
Electronic Applications has not got a Human Resources policy in place that goes accordingly to its position in the market and its actual growth. On the past years the Human Resources policies have only been reactive.
Engineers are people, just different kinds of people. Engineers are the thinkers of our modern culture. They are the ones who come up with solutions to problems. However, a common occurrence is that with all the education comes a slight downfall. Engineers are very good at details but often need someone to gather all those small yet very vital details, into one big picture.
The word engineer comes from the latin word ingeniare. ingeniare means construct or craftsmanship. Ever since the beginning of time we have had engineers. Engineering is the combination of math and science , solving world problems to help better the world around us. Being an engineer takes a lot of knowledge, creativity, and hard work. A typical engineer can clearly see a problem and is capable of fining a solution. A senior engineer or engineering manager usually doesnt do as much technical work, but usally lot of managing. Some of the first official engineers were military engineers. They were employed by the goverment to build such things as roads, bridges, and weapons. US mililary Academy at Westpoint was the first school to offer an education in enginnering. Engineering is a very broad field. Engineers are always at a high demand, we could never have enough brilliant minds making the world better. Engineers are needed everywhere. Engineering managers have to have a bachelor's degree or higher, they usually direct and seek solutions to problems and are sometimes called executi...
My decision to become an electrical engineer was not a decision I took too long ago. It is something that I decided to pursue when I entered a Science, Technology, Engineering, and Math (STEM) high school. It was then that I realized how much I enjoyed working with computers and building circuits, and the fact that this career involved many subjects. Doing a lot of research to understand better what it meant to be an Electrical Engineer, I found out that in order to succeed in this career one had to know a little bit of everything. In other words, subjects such as science and math are essential to know if someone wants to be successful electrical engineer. An electrical engineer is someone who finds practical solutions to everyday problems that involve electricity, such as computers, cell phones, among other electrical equipments. In order to create a useful device one must know where to start and this is where science comes in. An electrical engineer must be able to use the scientific method, which means; one must form a procedure, test it out, and write a conclusion. These parts of the scientific method must be written clearly, so that others can recreate and test out a device or project. Math also plays a key role in this area of study, because one must be precise when creating a new device that others are going to use. For example, if one were to create a new type of cell phone one must know a lot of math in order to be able to progr...
Possessing the basic knowledge in the field of physical sciences and the intuition in them made me to pick up Mathematics, Physics and Chemistry as my majors for the Higher Secondary Education. After the completion of my secondary education, I felt that engineering was the only field which can transform and transfer my dreams in the field of sciences into a real one and also it would give me an opportunity to learn and explore how the fundamentals of science are appl...
Engineers are valuable assets to any company because they think analytically. Engineers may advance to become technical specialists or to supervise a staff or team of engineers and technicians. Some eventually become engineering managers or enter other managerial or sales jobs.
Engineering has been a key interest of mine since childhood. While still in grade school I enjoyed listening to my father, an electrical engineer, teach me about advances in technology, and was always eager to hear more. I was introduced to my first computer at the age of five, and have loved interacting with them ever since. My decision to study engineering as a career was no surprise to those who knew me.
People travel miles in search of their true passion; some find them early in their life and I consider myself lucky enough to be one among them. I found my true calling at the age of 12 on a field trip to a milk factory. It seemed like the Disneyland of science with huge machineries, conveyer belts running all around, and instruments working about in their own rhythm with sheer intricacies and perfection. As a kid, I was eager to understand the mechanics behind this magical rhythm. The desire of gaining in-depth knowledge about Control System and Automation eventually led me to choose Electronics and Instrumentation Engineering as my undergraduate study.
It has taken a very long time for me to decide on the path that I wanted to take for my career. I have almost always known that I wanted to be an engineer. I was always more interested in applying my knowledge to solve problems rather than just research and understand the world. However, I had little to no inkling as to which field of engineering I wanted to go in to. I had always been a dabbler, involving myself in a large variety of activities with the interest of learning about how stuff works. I started out learning how to use the tools in the shed outback, making pinewood derby cars and model rockets. I would help my dad with home improvement and repair projects around the house. As time went on, my ability learns and apply
Electrical Engineers research, develop, design, and test electronic components, products, and systems for commercial, industrial, medical, military, and scientific applications (Cosgrove 749). They are concerned with devices that use small amounts of electricity that make up electronic components such as integrated circuits and microprocessors. By applying principles and techniques of electronic engineering they design, develop, and manufacture products such as computers, telephones, radios, and stereo systems (EGOE, 121). Electrical engineers touch everyone lives through the things they have designed or created. Electrical engineers have invented the lights in your house, the television, the stereo, the telephone, computers, and even your doctor’s blood pressure gauge (Stine 300).
As an engineering student, design, develop and test electrical equipments is the major purpose of all time. In other words, electrical engineer is concerned with using electricity to transmit electric power. In electrical engineering, there are extensive subfields such as power engineering, control system and signal processing. It is also worth to point out the difference between electrical engineering and electronic engineering. According to the research, electronic engineering is a major that deal with the electronic system such as computers and radar, to be more specific, electronic engineers are concerned with using electricity to process information.
Engineering System Design 2 is one of interesting module because it is have many benefits and experiences to do it every week. All reflective give to us lesson that we can use it in our life such us , one of reflective is dedicated on ethics so we need to know what are the ethics must be apply on our jobs . At others hands we studied about robotics. How to command robotic by using USB wire, Robots are machines in factories, play soccer, are in research labs, behave like animals.
In the most basic sense, engineering means “making things happen.” It is the practical application of science and math, the two subjects I am most passionate about, to solve everyday problems. It opens up a world of opportunity to create innovative technology that influences many aspects of people’s lives, this giving an individual the power to make a difference. While I am deeply interested in the subjects that are the foundation of engineering, in addition I have many other personal reasons for pursuing civil engineering in specific. I am motivated by my desire to fulfill my lifelong goal of creating purposeful infrastructure, to make all of my family proud, and to prove that not all engineers