electrical and electronics engineers
Engineering Continuing Education – What Is the Future of Engineering?
With the current down turn in the economy many engineers have loss their jobs or worried that they maybe losing their job soon. Budget constraints both in the public and private sector are forcing to think about how secure the jobs really are. But as we all know this recession will not last forever. Sooner or later the promised recovery will begin. The question is what engineering will benefit from the renewed economy and which ones will not fair so well? There is no real crystal ball, but there are clear indicators that every engineer should be aware of and make preparations accordingly.
Engineers will need to continue their education to stay up with the latest technologies to offer their clients the best solutions. Most of the State Licensing Boards require Professional Engineers to renew their professional licenses periodically with a minimum number of continuing education units. These units are usually Professional Development Hours (PDH) or Continuing Education Units (CEU). One PDH is equivalent to one hour of course education, and one CEU is equivalent to ten PDH or ten hours of course education. Some may find that their profession is not growing or trailing behind may need to change careers or strength their technical knowledge.
One of the best indicators of upcoming markets is to know what the baby boomer generation needs and wants. The baby boomers, the individuals born between 1945 and 1964, are now approaching retirement age. Many will be retiring and will require some medical and health assistance. They will also want medication to appear young as long as possible. Obviously fields that support this industry will do very well. The most likely profession to benefit is Biomedical Engineers. They are necessary to improve new medical devices and equipment. In addition, new facilities will be required for the aging population. Independent Living Facilities and senior communities will rise in demand. This will definitely improve prospects for Civil and Mechanical Engineers.
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Electrical Engineer Training and Courses
An electrical engineer is an engineer that deals with and develops electrical systems. An electrical engineer has the ability to work in various areas that involve electricity; cities powers grids, computer technology, and even car repair. If you want to become an electrical engineer you will need a college degree. You must also be predisposition to creative and inventive thought processes. The average starting salary for an electrical engineer is around forty thousand dollars a year.
To begin your electrical engineer training you must enroll in an electrical engineer training program at an accredited university or trade school. Most colleges have a list of things you have to complete before enrolling in an engineering program. Some of these things might include learning assessments, remedial courses to refresh any subjects you may be having difficulty with, or courses that are pre requisites to the beginning engineering courses. Pre requisites are course materials that must be completed to a certain degree of satisfaction before being accepted into a degree program. For engineering these will probably include several math and science courses.
When accepted you will then be required to take course work relating to and only to electrical engineer training. The course work includes but is not limited to, computer programming, electrical circuits, engine/machinery technologies, calculus, integrated circuits, and maybe robotics or power systems and communication systems. It is very important to know that any electrical engineer training will be based heavily on math and physics.
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Electronics Engineer
Electronics affects many parts of our lives and an electronic engineer can work in a large number of sectors from radio and satellite production, to the field of acoustics, robotics, mobile phones, telecommunications, signals processing, nanotechnology and others.
The job of an electronics engineer is to research, design and test electrical components in order that electricity is effectively and efficiently utilised in equipment. They may work with engineers from other disciplines as part of a project, and may see projects through from start to finish, beginning with the research and design, and ending in the actual implementation of the product and processes.
Typical duties associated with this job include
o Discussing proposals and coming up with new systems and circuits in order to develop their ideas
o Create prototypes and test them
o Altering the design of products in order to make them work more efficiently
o Check that the product’s specification allows it to be consistently produced and fit for purpose – oversee quality control
o Produce detailed technical specifications which can be utilised by appropriate people
o Adhere to all safety aspects
o Manage budgets and make decisions based on cost analysis
o Manage teams of technicians and make sure plans are being followed