The Electronic Electrical Engineering Engineering Essay [Internet].
Internet of Things (IoT) is an emerging technology that provides innovative solutions and changes to the electrical engineering field. With IoT, electrical engineering students or professionals can evaluate data in new ways and automate electrical systems with minimal human intervention. IoT is a system of interrelated computing devices, mechanical and digital machines, objects, animals or people that are provided with unique identifiers and the ability to transfer data over a network without requiring human-to-human or human-to-computer interaction. The idea of this would be embedded sensors in the devices of electrical systems, that could capture data, pass it to the other devices for some action. This allows for increased efficiency, improved decision making, and provides innovative services. An example of this in electrical engineering can be seen when looking at power systems. Existing energy systems are under increasing pressure to be both cost-effective and meet strict regulatory conditions. IoT can be used as a way to offload intelligence to edge devices and the ability for advanced data analysis on a smaller budget. Smart tools can monitor devices for current conditions and possess the capability of turning devices on and off in response to modeling results. These models can evaluate vast sets of different parameters that affect the device operation, and an IoT-based system could collect data on these parameters from devices across the world. This can lead to better and more consistent results when compared to human decision making and biased sampling. This is just one example of how IoT can improve a specific system in electrical engineering through automation and data evaluation. With a growing demand for professionals in this area, implementing these systems would require students to be learning IoT technologies as a way to stay current with the industry. Capturing data is invaluable if real-world data is available, and IoT is the way of the future in ensuring data is available for all systems.
Electric power is an indispensable resource for modern society. The generation of electric power by people dates back more than 2000 years. With an increasing population and the development of manufacturing and transportation, the methods for generating electric power have continuously evolved. In the early 1800s, an electromagnetic generator commonly known as a dynamo was invented by Michael Faraday and William Sturgeon. Several decades later, the first electric power project was established by Thomas Edison when he built a direct current power plant in New York. During the first decade of the 20th century, direct current-alternating current (DC-AC) power converters were invented by Tesla and became the center of a battle between Edison and Westinghouse. The battle involved several DC-AC power projects in different cities, with the goal of attracting customers and public acceptance. In the end, AC generation became the major way of producing electric power because it can be increased, decreased, and transmitted over long distances, and it is considered the better option for converting mechanical power to electric power. In the last century, AC power grids have been established in every larger city in the world to provide electric power for nearly every application in modern society. In most cases, electric power emerges as the most convenient energy carrier for both static and mobile applications. What is the current situation of electric power generation? It is clear that combustion engines are a necessity for every form of contemporary transportation. At the same time, the energy crisis and environmental issues are forcing our society to search for alternative fuels including coal, oil shale, crude oil, tar sand, natural gas, and other renewable sources such as tides, winds, and sunlight. Crude oil, which has been the major energy reserve of the 20th century, is becoming both expensive and rare. Data estimates that global petroleum reserves will last for several decades. As a consequence of these available energy reserves, combustion power plants are constructed to convert liquid, gaseous, and solid fuels into electricity. According to today's primary fuel reserve, solid power plants burning coal are the most common means of consuming natural resources to create electric power. In the modern community, people appreciate many benefits that are provided by electric power stations. Apart from lighting up streets, offices, and homes, electric power also makes it possible to operate electromechanical devices such as washing machines, air conditioners, and elevators. In addition, industrial heating processes like melting, smelting, and automatic manufacturing are all driven by electric power.
So, the professions of Electrical Engineering and Computer Support appeared to be of great importance for economical development. Their contribution to this sphere is considered to be of great value. I stick to the point that the era of globalization made Computer technologies and electronic mechanisms to play a significant role in social activities. My choice of career making is also dependent on the demand of Shelton localization; taking into account this fact Electricity and all its aspect are of great importance that is why there is a great need of high skilled specialists of this sphere. Nevertheless, it should be underlined that the professions of electrical engineering and computer support are very similar and close to my professional choice in life.
Why I Love Electrical Engineering
My mother says the first time she asked me what I wanted to be when I grow up, I replied "a scientist." I would disassemble my toys and put them together in different ways, including electronics and electric engines.
It should be stressed that in this local area electrical circuits and electricity touches people’s every day life intimately influencing the economy directly. So, it proves that electrical engineering and world economy are closely interconnected with each other being completely interdependent and beneficial for each other. Thus, specialists of this area will be always in demand and contribute a lot to the development of global and local economy (Shelton, Washington Economy and Business Data, 2008).
1. Introduction Applications of electrical engineering are found in a wide range of subjects and technological innovations now that electrical energy seems to have become a necessity and chosen type of power. The prime objectives of electrical engineers are to develop, improve, and maintain electrical systems throughout development and to perform more and more advanced activities throughout the design. These activities can take place on an industrial scale where the recent zero-cost technological rate allows extensive electronics to be used in many systems. 2. Applications of Electrical Engineering The applications of electrical engineering are too many; electrical engineers are required everywhere a device needs a portion of electricity in order to work. Electrical engineers design, build, produce, control, preserve, and enhance such devices and systems. In fact, all the high-tech architecture, including education, computer-based method control, and telecommunication controlled by the Internet and computer configuration-based instruments, have electrical and electronic elements. The value of human health and the attitude of energy delivery and use are also affected. The issues actually vary from installation to city security. For local development systems, renewable energy power sources, energy performance, or electric and electronic devices, some present technological ontologies that will certainly make a difference in the view of the automation of the electrical devices.
The analysis of two different professions has shown that they have very much in common. Both of them deal with the sphere of electronic mechanization. Nevertheless considering the economical side of specialization I stick to the benefits provided by Electrical Engineering. Economical sectors, for example in Shelton, Washington, building the sphere of electrical engineering are the following:
Why did you choose to study electrical engineering only
Three electrical engineering students placed second in the 2024 Borneo Physics Fair international essay competition. The competition was part of a series of events held at the fourth annual International Webinar on Physics and Students Networking in October.
Why Become An Electrical Engineer Essay
Electrical engineering is a highly dynamic field. Engineering specialists have created countless applications and improved human life in numerous ways. There are a few key innovations to mention under the electrical engineering umbrella that have had a huge impact on our world. 2.1. The Generator During the time of Ruben, early in A.D., it was known that a particular mineral called tourmaline, because of the development of electrostatic charges, could attract small particles of certain materials after being heated or subjected to some amount of mechanical pressure. Using the same concept but with significantly less detail in it, Otto von Guericke produced some sparks by rubbing sulfur spheres with his hands. Francis Hauksbee and Stephen Gray multiplied the experiments. In 1729, Du Fay suggested the existence of two different kinds of electrical fluids, one of which he called vitreous and the other resinous, after which Hauksbee conducted some more experiments with Du Fay's ideas. 2.2. The Capacitor Leyden jar, which is known as a capacitor, is a phial that consists of water and a thin membrane or metallic inlays sealed except a conductive connection reaching into the inner and the outer parts of the phial. The inner and outer surfaces of the Leyden jar are charged with opposite signs to a significant electromagnetic difference. The family of capacitors that derive from the invention has been of significant importance concerning almost all of the fields of electrical engineering. 2.3. The Regulator In 1873, Siemens patented the self-exciting voltage regulator that allowed high constants of electromotive forces. Two Swedish engineers, Strömberg and Esping, developed the first effective self-acting constant-potential speed governor in 1885. After these important steps, Brush and Thomson produced similar voltage regulators and served the laboratories of American universities with lighting. The modern state-of-the-art alternators and synchronous motors are only a few of the final versions of electrical machinery using techniques based on these three historical works.
An Essay On Electrical Engineering | 123 Help Me
Smart grid can be defined as a digital network of intelligent electrical devices designed to more effectively monitor, control, and manage the supply of electrical energy in order to optimize the efficiency, reliability, and sustainability of the process. It will make use of two-way communication and computer processing in order to achieve this optimization. Smart grids are being implemented in several developed countries in order to reduce the environmental impact of electrical power and to increase overall energy efficiency. This is important to the future of electrical engineering as the traditional power grid is fast becoming outdated and unfit for modern purpose. Additionally, the world climate and economic factors indicate a strong need to engage in research and development that will modernize the power system. Smart grid technology utilizes computing capabilities, control, and automation in order to change the fundamentals of electricity and enables new technologies. An example of this is the enabling of distributed power generation such as renewable energy, which can be an unreliable form of electricity supply. By making use of energy storage and providing real-time information on the availability of energy at any given time, supply and demand on electricity can be matched more effectively than it is today. High-power electronics are an essential component to smart grid technology, providing efficient conversion of electrical energy. This includes renewable energy and energy storage, which are vital parts of smart grid technology and traditional power systems. With these and other advancements, the future of power systems will see more reliable energy, increased availability of energy, and consume less energy in the process.