Electrical Engineering Electrical Engineering is “ The branch of engineering concerned with the generation, transmission, distribution, and use of electricity. Its two main branches are power engineering and electronics (including telecommunications). Electrical engineering emerged in the late 19th century with the mathematical formulation of the basic laws of electricity by James Clark Maxwell, followed by the development of such practical applications as the Bell telephone, Edison’s incandescent lamp, and the first central generating plants. Electrical power engineers design generators, power stations, and electricity supply systems as well as electric motors and transport and traction systems. Electrical engineering is an applied science involving mathematical skills and a knowledge of physics, in addition to the basic engineering subjects” (The Macmillan Encyclopedia). Electrical systems have always fascinated me since childhood, and figuring out the engineering behind everything I could get my hands on was another passion I have always had. When getting out of the military and deciding to go to college electrical engineering was the only major that really stood out to me as a way to combine both my childhood interests. My third year at college and I still stand firm with my decision as I continue to excel in my classes directed toward my major while the classes further ignite my passion for the field of study. The education level typically required to obtain a job
Electrical- The study and application of electricity, electronics, and electromagnetism. These engineers will face problems such as making
The inclusion of lithium in Reynolds X100 makes sure to block any dislocations within the alloys crystal structure, giving it an outstanding fatigue resistance.
Working as an electrician you encounter many dangers some that can cause injure or kill you and or others such as a electrical fire after wiring a building, that is why working in the field of electricians requires a lot of skill and attention to detail. When first starting you have little pay on difficult jobs, however after you become skillful enough to earn the rank of master you are presented with multiple fields such as the two I covered in this paper that will present you with your kind of work environment and pay that will be more than enough to make you
For the purposes of this assignment, a female advisor in the USC Viterbi School of Engineering, who has chosen to remain anonymous, was interviewed about her role as an academic advisor and in working with high-ability students. A female undergraduate student in the USC Viterbi School of Engineering was also interviewed about her experiences with her academic advisor and as a Trustee Scholar. The student provided her first name as “Vincy” but not her last name. It is important to note the advisor interviewed is not the advisor of the student interviewed. For better understanding, the student is a Trustee Scholar at USC; she received a full tuition scholarship for academic achievement in high school. Vincy is also an honors program student at the USC Viterbi School of Engineering.
Ever since I was little I always wanted to know machinery in small objects only worked the way they were design but didn't work in a different form from original manufacturing. What attracts me about Copper Union is that this school has everything available to answer my question. A very competivative working environmnet like that at Cooper Union is the type of environment that strive in to become a better person, someone who achieves what they original thoughout was not possible. By studying mechanical engineering at Cooper Union, I feel that I have a chance to become someone who is able to design new technology that can be easily be manipulated by anyone who desires the machinary to do something
Of course, there is the question of what is electrical engineering or what is an electrical engineer? Later on I will go over the differences between a marine engineer and a civilian engineer, but
I as an electrical engineer pursuing my master in electrical and electronic engineering developed a skill to solve the problem. During my bachelors, I studied natural and physical science and basic fundamentals that are required in the engineering field and also gained vast knowledge how to identify and tackle new problem in the practical world.
Electrical engineers are in a very important career with what they do and how much stuff that electrical engineers have worked on like
Personal Statement: Twenty years of education have brought me a deep appreciation for the study of the Power systems, Controls systems and Telecommunication. When the time came to specialize, my decision to major in Electrical Power Engineering was motivated by the hope of achieving a strong opportunity of creativity, research, and development. Electrical Engineering, with its myriad sub-domains and multi-faceted nature is a natural amalgamation that allows me to express my creativity and innovative power to bring about works that offer benefits to society. The tools and aims may be different, but designing and developing software/hardware or devising a novel mathematical proof is relatable to the work of artists in their shared spirit of creating. I view my decision to study Electrical Engineering as a natural means of fulfilling my need to create since it equips me with tools for the job: the ability to devise, test and evaluate Power systems and the programming knowledge required to implement them.
The human race has advanced a great deal over the course of recent history, particularly so since the 18th century. Countless of these developments in society can be attributed to the achievements of engineers - however, despite this, many do not realise their contribution and importance. One of the fundamental bases behind these engineering feats is the harnessing of energy sources, such as electrical and heat energy. This has allowed for many innovations, for example power stations, transportation, communications and computers, which have all become critical to society and the modern world in which we live.
First things first, I chose electrical engineering as my career, mostly in my interest of computers and physics. As an electrical engineer I’ll design, develop, test, and maintain electrical and electronic devices; use computers and engineering software to
The report focuses on two main career choices: Electrical Engineer and Computer Engineer. The report is broken down to main section and the following sub-sections:
Classes that I will need to take in order to achieve my goal of being an electric engineer are courses in mathematics and physics. Math classes that I will need to take are calculus, algebra, and trigonometry (summary). My main interest is electrical engineering and all of these things do sounds quiet good, except the drop in employment rate in 2014, but my interest also lies in mechanical engineering which is not all too different.
Electrical components of equipment provide power. Electronic components of equipment provide power. Electronic components control the equipment, although many types of equipment still controlled with electrical devices.(Career Information Center) Electrical and electronic engineers may supervise crews of electrical workers who do routine work in the generating station. They often use their knowledge of electrical engineering technology to diagnose electrical workers to do them. Some electrical and electronic engineering technicians work for industrial plants that use electricity.(Career Information Center) Electrical engineers apply their knowledge of the science to working with equipment that produces and distributes electricity, such as generators, transmission lines, and transformers. They also design, develop, and manufacture electric motors, electrical machinery, and ignition systems for automobiles, aircraft, and other engines.(Careers In Focus: Engineering pg.55) Electrical engineers focus on high-power generation of electricity and how it is transmitted for use in lighting homes and powering factories. They are also concerned with how equipment is designed and maintained and how communications are transmitted via wire and airwaves. Engineers use basic knowledge collected by scientist to solve a
The potential to create exceptional, innovative products through the use of electrical engineering and embedded systems have always fascinated me. From the miniaturized circuit boards in smartphones and tablet PCs to the large-scale embedded electronics used in aerospace systems (Bozzano, Cimatti, Katoen, et. al., 2011) electrical engineering has long fascinated me. One of the most significant factors that led to my passion for this subject is the revolution that is occurring in the areas of mobile processors, avionics and aerospace systems, where embedded systems are critical to the navigational integrity of the vehicle. This revolution in embedded systems is also leading to an entirely new era of performance in avionics and deep space exploration, which promises to deliver insights never learned before from previous technologies (Kadayif, Kandemir, 2005). Due to all of these factors I am extremely interested in electrical engineering and pursing it a graduate degree in this academic discipline .