Electrical Engineers Engineering is a very important occupation in our society. Many things (phones, computers, buildings, desks, chairs, toys etc.) that we have today had to be designed and innovated, and that's what engineers do, design and innovate. Electrical Engineers design electronic equipment, devices, or objects, like; “computers, robots, cell phones, cards, radars, navigation systems, wiring and lighting in buildings, and much, much more! They do many different things and design a lot of things. Some other (more specific) things they do include, “circuits such as resistors, capacitors, inductors, transistors and diodes,micro-fabrication of tiny electronic circuit components, signals, such as analog or digital signals, electricity …show more content…
It started to get interest in the 170ths and after time more and more electrical things came out which needed designers to design and innovate (change and improve) them so around the 190ths it was big pretty big and was considered a profession. In 1882 the first electric engineer course was established at Massachusetts Institute of Technology (MIT) by Professor Charles Cross. (Wildes, Karl L., and Nilo A. Lindgren. A Century of Electrical Engineering and Computer Science at MIT, 1882-1982. MIT Press, 1986.) According to Paul Penfield, professor emeritus of electrical engineering, “Technicians use existing technology, and they do interesting things with it, and they make inventions, and so on,” Penfield says. “And scientists advance science. But the link between those two is engineers, who not only use existing technology but develop new technology using known science. And that was more or less the vision of the founding of MIT.” In 1885 the first engineer course was established at Sibley College of Mechanical Engineering by Franklin …show more content…
Also electronics need to been being innovated a lot and it has been growing a lot, which means engineers won’t have to worry about getting a new job. Also, engineers get a really good, high paying jobs right after school which is nice because they will pay off school loans faster. Doctors and Professor have to do extra schooling to get a high paying job, but engineers don’t too. One benefit which isn’t true for all engineers, but they can easily be if wish, is opportunities to travel around the world. Engineering is all over the world and engineering companies have different parts in different parts of the world. Getting to travel also depends on what kind of engineer or kind of electrical engineer, but engineers can easily find a job where they can travel to different places if they want to. One huge benefit is the gaining of prestige, respect, admiration, and trust. When people think of an engineer or someone says they’re an engineer people will automatically think higher of that person and trust him more, because when they hear engineer they think of a super smart inverter, which is what they are. People who really know engineers even trust them more because they know that for a living they design complicated stuff and solve
Electrical engineers work on a variety of things as LiveScience states, “Electrical engineers work on a wide range of components, devices and systems, from tiny microchips to huge power station ge...
Electrical engineering industry is primarily concerned with the technology of electricity, specifically in the design and application of devices and circuitry for generation of electricity. The other major activities of electrical engineering industry comprises of controlling power generated equipments and communication devices of telephone, radio and satellite systems
Electrical engineering is a specific area of engineering that has to do with analyzing and applying what you know to electricity, electronics, and electromagnetism (Wikipedia, “Electrical”). This field of engineering has a large variety of subfields, including: electronics, digital computers, power engineering, telecommunications, control systems, and many more (Wikipedia, “Electrical”). One reason why I want to go into electrical engineering is that there are so many choices for a career path to branch to and everything comes to me so easily. I find that I enjoy the work that I do and it’s something that I am exceptionally good at. I can really see myself doing this as a lifelong career and not having to worry about getting stuck in a dead end job. The only thing I have to do to get started is decide what school I want to go to and which one will help me get to where I want to be, the best.
If I know I will enjoy this career choice, it will allow me to work harder towards it. As of right now all I know is that engineers use math and science to build systems that help the world become a better place. That description of the job is good for me, but I need to learn about the engineering career in more detail to know for sure that’s what I want to
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...
As a graduate student, I will undertake research and coursework in Electrical Engineering to enhance my competencies in this field. I intend to complete my master's degree in order to pursue my doctorate. The research that I am most interested in pursuing at Northeastern University surrounds the optical properties of MEMS devices, and the development of substrate-based fast electro-optical interfaces. My interest in this area stems from my undergraduate study in MEMs development for tri-axial accelerometers.
The use of the computer has had a positive impact on manufacturing engineering in many ways. Engineering is a term applied to the profession in which a knowledge of the mathematical and natural sciences, gained by study, experience and practice, is applied to the efficient use of the materials and forces of nature. The term engineer denotes a person who has received professional training in pure and applied sciences.
Everyone wants to be something from a doctor to a stylist, I want to be a mechanical engineer. This is something I have always wanted to do in my life, the opportunities that exist in this field can lead to anything. Mechanical engineers are able to do many tasks in the job environment from designing, to developing, and also building. In addition, as new companies are starting up they will need mechanical engineers to help them develop their product. All of the engineering fields have great pay, that is able to support my family and also my parents. In the work environment of a mechanical engineer, they usually are around an office and sometimes where their product is being used at. To be able to apply for a mechanical engineering job you
Engineer dates back to 1325 when an engine’er, someone who operates an engine, was referred to by a conductor as an engineer. (Ford)
The history of engineering goes back into the 19th century when Alexander Volta (1745-1827) made a remarkable discover regarding the nature of electricity (Cosgrove 749). He discovered that electrical current could be controlled and could flow from one point to another. By the time the mid-19th century came about the rules for electricity were being established. During this time electromagnetic induction was discovered by Michael Faraday who lived from 1791 to 1867 (749). Also during this time Samuel Morris invented the telegraph in 1837 which relies on the principles of electromagnetic induction (749). Alexander Graham Bell, who lived from 1847 to 1922, created the telephone which also uses electricity in order to operate (749). Through the success of the telephone, Bell Telephone Company was established. In 1878, the light bulb was finally invented by Thomas Edison who lived from 1847 to 1931 (749). Off the principles of Faraday’s electric motor from 1821, Nicholas Tesla invented a more efficient and powerful electric motor in 1888 (749). To make these inventions be more significant, effort was expended to make better motors and transformers and to enhance the power needed to make them function. Through these inventions during the middle 19th century, it led to the capability of lighting homes and cities through the use of electricity, and it also led to the creation of the telephone communication system (750).
Although there are a plethora of possible careers that I am capable of pursuing, I am particularly interested in a career as either an electrical engineer or a software developer. Electrical engineers fall within the Career Cluster of architecture and engineering. From 2012 to 2022, employment in the field of electrical engineering is projected to grow 4 percent, which is less than the average projected growth rate for all careers. There are no major geographic restrictions to becoming an electrical engineer, however most move to where the companies are located. Travel requirements vary from company to company, but overall the job does not demand much travel. Most electrical engineers work year round, and depending on the firm, there could be some specific peak work periods. Electrical engineers can work 40 hour weeks, or even up to 72 hour weeks, depending on their current projects. There are no major physical demands to the job. The average starting salary for electrical engineers in 2013 was $62,300 per year, and the median salary was $87,920 per year.
Most people thing that being an electrical engineer means that you spend your day going to people’s house and fixing their electrical problems. In reality there is more to this career than meets the eye. What they don’t know is that being an electrical engineering is a very advanced field that requires you to invent, design, and construct electrical and electronic devices as well as be able to adapt to different roles when the opportunity arises. For a career in this field you are required a minimum of a bachelors degree of science in engineering and a good computer skills.
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.
One career in the technological industry is a computer engineer. A computer engineer is a person who designs hardware or software for computers. Computer engineers do research to determine what people want and need to make their lives easier. Computer engineers sometimes work on a team to think of new ideas and concepts. Engineers generally should like activities of a technical nature, problem solving, and math. An engineer should probably like working with numbers and thinking logically.
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