The Path of an Electrical Engineer
In this world of rapid expansion of technology, there has been a strong need for people to keep up with the challenging requirements of the world of electronics. The present and future demands have increased at an exponential rate where it has become challenging to keep up with the demands of the world. According to an article by Kristina Fiore, “The final frontier has long driven people to pursue careers in electrical engineering, most famously during the Space Race and the Cold War, which sparked a major influx of inspired people into the profession” (51). Electrical engineers play a vital role in fulfilling these needs that the world is in need of today and in the future. Electrical engineers design, develop,
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Electrical engineering has a lot to do with math, so those seeking to become an electrical engineer must love math and lots of it. Although there are lots of different types of engineering fields to get into, a degree in electrical engineering is designed for those who want to utilize their skills in the world of electronics. Not all colleges offer engineering programs, but the few colleges that do offer electrical engineering in the United States need to be ABET accredited. This just means that the engineering program offered by the college follows a structure that meets the same standards across other colleges offering the same degree. This helps keep those who graduate with a bachelors in electrical engineering with the same standardized education to be able to be ready for the workforce in the states in a unified manner. A lot of companies out there, looking for electrical engineers, look to see what college an individual attended. Even though with the ABET accreditation in place, employers are very particular about where most of their employees will be coming from. From here, a person choosing a profession in electrical engineering, one can choose to better their education by getting a masters or doctrine in this field depending on what level of work they want to utilize their proficiency of their …show more content…
Well, this is the time when one can actually say that they will need that algebra they learned in school now. Since the world is ever evolving and new technological advances are becoming in great demand, it is time to apply what was learned in college, and the experiences gained while in college, to use in the real world. There are all kinds of new and innovated electronics, this world could use for everyday consumption. From the article that Fiore wrote, she states “The latest generation of engineers has a range of innovative fields, like alternative energy, green engineering, and nanotechnology, to motivate them” (51). With so many avenues to take to in the world of electrical engineering, no one is bound by limits of what’s known but only limited by their own imagination. Even if an engineer is not coming up with some mind blowing idea to take us into the future, some engineers are going to make our current technology even better and more efficient. Take for example the large cathode ray tube televisions of the past to the present day lightweight flat screens. Electronics have come a long ways from what they started out as to what they are now because of electrical engineers. Computers that use to take up an entire room can now fit in the palm of one’s hand. The possibilities of improving current technology are limitless within the mind of well educated, analytical, and motivated
It is 2018 and the world is moving faster and faster every day. Clicking, typing, swiping and texting; with more to come. Every year there is a new iPhone, and every model has more storage, clearer cameras, and more accessibility overall. Young adults are interested in majoring in a technology-based field. Not necessarily because they are so interested in learning it, but because the technology industry is booming. There is nothing anyone can do to alter the speed of technological advancement. Chuck Klosterman elaborates on this idea in his short essay, “Electric Funeral.” His viewpoint is that no matter how much people miss the old world, it does not matter because “the future makes the
Lincoln Electric Company has a very distinguished culture, after my readings over the case study it is clear that the strong culture they have prominently reflects their success.
If you're reading this article, you've decided you want a guide to find out how to get on your way to becoming an electrician, of course, the first step is to actually become an electrician apprentice. This is a very promising field to go into, as a survey done by the government has said that there will be a viable need for electricians in a large amount for at least the next ten years. We have to remember that everything in our world has become electronic. Robots are making cars, everything is focused around electricity. The demand for electricians will only become greater as time goes on.
Electrolysis is the only permanent hair removal methods that can help you achieve and maintain a smooth, hair-free beautiful aspects. This is a convenient, low-Charge strategy to refresh your image, increase your confidence and enhance Your enjoyment of life everyday.
Talking about the book value per share it is important to know that market value is a forward looking measure and reflects what investors believe shares are worth while the book value is an accounting measure. Also, if a market value is much higher then there is a bull market, though if book value and market value are close to each other, then financial markets are likely experiencing bear market.
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.
It’s 2AM and you’re driving home after a long day, the gas light comes on, a lot of gas stations are closed and you’re exhausted, you don’t want to go searching for gas in the middle of the night, you probably have enough to get home, but getting to work in a few hours is going to be tricky. Vehicles that run on gas can leave you in a pickle if you don’t pay attention to the tiny needle in your instrument panel, and unless you’re extremely wealthy, you don’t have a gas station at home. Electric cars are the future and are here now, with an electric car you could bring a depleted battery home, charge it up, and be ready to go in a few hours. If you presented the idea of mass market electric cars to the people of yesteryear they would have thought you were science fiction author.
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.
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).
In the past few decades, one field of engineering in particular has stood out in terms of development and commercialisation; and that is electronics and computation. In 1965, when Moore’s Law was first established (Gordon E. Moore, 1965: "Cramming more components onto integrated circuits"), it was stated that the number of transistors (an electronic component according to which the processing and memory capabilities of a microchip is measured) would double every 2 years. This prediction held true even when man ushered in the new millennium. We have gone from computers that could perform one calculation in one second to a super-computer (the one at Oak Ridge National Lab) that can perform 1 quadrillion (1015) mathematical calculations per second. Thus, it is only obvious that this field would also have s...
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...
... of matters confronting engineers. I believe that an electrical engineer must choose how to advance when the impact of new machinery is not completely predictable or understood. As an engineer, you have a pressing desire to extend our biological capabilities and address the burgeoning needs for energy, water, housing, transportation, etc. This desire, I believe, could result in a flawed sense of security about the functionality of a machine. This could further result in ignoring possible repercussions and side effects. Overtime, we have seen a myriad of engineering catastrophes like Hurricane Katrina and the New Orleans Levee system and the Fukushima Reactor Meltdown. These examples enlighten me to the fact that I must pay critical attention to how my work as an engineer must be done without producing environmental alterations or harm to the society and environment.
There are hundreds of occupation around the world, few of which anyone would want to do. Being an electrician is one of them. Electrician keep lighting, electrical system around a building and generator working. Being an electrician can also be dangerous. You can die if you get Electrocuted by touching cables that have running current through them.
An electrical engineer is someone who designs and develops new electrical equipment, solves problems and tests equipment. They work with all kinds of electronic devices, from the smallest pocket devices to large supercomputers.
From my perspective, excellent electronic engineers are a group of gifted and imaginative talents who bravely explore and innovate, change the world with passion and innovation. I have always dreamed of becoming one of them. For realizing this dream, I started from China 's Jilin University and then joined The University of Manchester for BEng (Hons) Electronic Engineering to take more advanced professional courses. In UoM, I managed to gain GPA of 4.0. Yet, my pursuit of the dream does not end there, since I plan to apply for M.S. program in Electrical and Computer Engineering in the Carnegie Mellon University, where I can receive the best education among the world.