Electrical Engineering Profession #1

Electrical Engineering Profession

#1

Being trained as an electrical engineer is a rigorous exercise thatinvolves dissemination of volumes and volumes of knowledge. Potentialelectrical engineers or students who intend to become professionalsin the named field are required to be aware of the sub disciplines,which they wish to pursue as engineers. For instance, students mightchoose communication as their sub discipline that would involve beingequipped with high computer skills for effective grasping of therequired skills in the discipline. Given the complexity of theengineering career, students should show high levels ofconcentration, right from the beginning of their training. Everypiece of information in the field is vital and can be appliedsomewhere, either directly or indirectly. Therefore, this is not thetype of training where one can miss classes and still catch up withothers. In essence, students are drilled and given lots ofinformation concerning the dynamics of the engineering course. Suchknowledge becomes handy in designing and developing complextechnologies, and coping to the ever changing technologies. It is arequirement for an electrical engineer to keep up with fast changingtechnologies or risk being washed up.

#2

The most important skills that are required of an electric engineerare the technical skills in the field. A student should master a gooddeal of the technical knowledge that is involved in the entire courseto ensure success in the future career. Besides mastering thetechnical knowledge, electrical engineers work in company of otherpeople, especially when complex systems are being developed. Theability to maintain a harmonious relationship with other people iscrucial. In this respect, electrical engineers should manage anadmirable levels of interpersonal skills, which would facilitate themwork with other people with little friction, if any. Further most ofelectrical engineering activities require giving instructions by thechief engineer to the people working with him. An activity likeinstalling a major electrical system might involve working withindividuals who require clear instructions on how to go about theinstallation. Similarly, designing of such a complex electricalsystem might require giving of precise instructions to the juniors,without the slightest chance for error. In this respect, a successfulelectrical engineers should display high level communication skills,which come in handy in giving precise instructions. Any instructionsshould be relayed clearly and with precision to avoid confusion.

The final, and perhaps the most important skill is ability tomultitask or perform different tasks almost simultaneously.Electrical engineering tasks are, more often than not, connected inone way or the other. The situations require an engineer to performone task while checking the outcome in another related task.Therefore, multitasking skills are of vital importance to anelectrical engineer.

The most vital objective that is sought in electrical engineering ismasterly of the technical skills, and the ability to apply thetechnical knowledge in diverse situations. Most of all, theelectrical engineer should seek to remain relevant in his entirecareer, by mastering and keeping up with new innovations andtechnologies that emerge day in day out. Every engineer seeks toavoid being washed up by new technologies, which can prove to a bitchallenging to a person who fails to update his skills accordingly.

#3

An ideal professional describes an engineer who can adapt to anysituation, however difficult, and still deliver to the expectationsof the client. The professionals should always keep in mind theprofessional codes of conduct in their entire undertakings to upholdthe values of the engineering profession. All in all, on must be ableto deliver exceptional quality work in the quest for ensuring humansafety, as well as improve the human living standards in theirinnovation and inventions. The most recognized electrical engineershave had vital contributions in their respective fields, most ofwhich make life more comfortable for people. For instance,development of transistors that are used in eve household is anadmirable invention, and its inventor is an ideal engineer.

#4

When creating something, one is supposed to proceed with a couple ofelements and considerations in mind. Most importantly, the builttechnology or created device should be of great help to the creatorand other people in the universe. A creation is not relevant unlessit facilitates people in living comfortable lives or adapt to lifechallenges. It would be pointless spending lots of time, money andother resources on a creation that would not be beneficial to people.For instance, the electrical engineer who created the transistor hadusefulness as the major objective of his creation, if not the onlyobjective.

The second element that is vital in creating something is that thebuilder of a technology or invention should consider his chance oflearning from his creation. Imperatively, one creation leads tosubsequent creations, which surpass the initial creations in bothefficiency and quality. The ability to learn from one creation andproduce better things by avoiding initial mistakes is vital inengineering. Further, the element of good and positive intentions inpracticing an art. This implies that one should not create,intentionally, something that would cause harm to other people. Theknowledge behind creating something should be shared amongprofessionals in the same field to give room for critique andimprovements.

#5

Incase a creation was achieved through participation andcorroboration of other people, everyone should be treated as anequal. Similarly, the contribution of other people should beacknowledged in all published materials with clear indications oftheir respective contributions. Any benefits that are realized from acreation should trickle to the very last person who was involved inthe creation of something like a technology. The rule of equalbenefits to the people who contributed in building or creatingsomething should govern electrical engineers and their creations, aswell.

#5

Although it depends on the sub discipline of electrical engineeringthat a person is working, there are a couple of typical workplacedynamics for electrical engineers. Places where softwares and otherappliances are normally quite. However, these conditions can changeif the engineer moves out in the field for installations ormaintenance services. In the same note, most tasks in the workplacerequire a slow tempo and keen concentration. Creating an electricalsoftware or complex electrical machine, or even sophisticatedelectric wirings require a slow speed and careful considerationsbefore taking the next step. The slow tempo is dictated by the factthat a slight error can result to catastrophic consequences. Forinstance, a couple of fire incidences have been blamed on electricfailure or misconnections. Machines worth billions of shilling can bedestroyed by a power surge. Therefore, the stakes involved areextremely high, and they require everything else except hastyconnections.

Except for cases where engineers move to the field to inspect,install or maintain equipment that are associated with the field ofengineering, the rest of their tasks are static with little or nomovement at all. Most importantly, electrical engineers work inextremely harmonious environments that facilitate high levels ofconcentration and creativity. Innovative minds cannot work in chaoticenvironments, although some are forced by circumstances to work inharsh surroundings.

#6

The products of electrical engineering range from electricalappliances, electronics, production and distribution of power andeverything that pertains to the engineering department. Any issuethat comes up in relation to electricity and any equipment that useselectricity falls in the hands of electric engineers. The number ofbenefits to mankind associated with electric engineering and theproducts created by the same are simply unspeakable. The worldwithout electric engineering would be unimaginable. Imagine the worldwithout electricity, what would light the streets at night? Whatwould drive motors in industries? What would drive elevators to thetop of tallest buildings? Machines like computer would not be there,leave alone having nothing to power them. In simple, electricalengineering and specifically renowned electrical engineers have hadlots of contributions in the world, and their effect will continue tofelt in the lives of people forever. Imperatively, the efforts ofthese great professionals might go unnoticed because people are usedto stating with electricity, and maybe they can only appreciate thesignificance of the invention if they stayed for a decade ofelectricity blackout.