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Assuming you are asking the community at large, here are some reasons why someone should consider study in the electrical/electronics industry:
-The electrical and electronics industries offer interesting and widely diverse careers. The field is large and there are many areas of specialty.
-A large advantage is that one can combine electronics with a personal interest of another field. For instance, automotive electronics, audio electronics, automation electronics, control systems, robotics, aerospace, etc... .
-One can specialize in areas such as testing & evaluating, technical sales & support, circuit design, programming, people & project management, etc... .
-The employment opportunities are better that average and the industry is growing.
-The industry is progressive and there are always new products and methods to learn.
-It also provides a personal hobby
Study:
-A strong background and interest in mathematics and physics are required, and be prepared for many hours of study.
-There are optional areas of study: Engineering degree which takes about 4 to 5 years to complete, and Technologist level (may be named differently in your country such as "associate degree") which takes 2 to 3 years of study and often has the option of upgrading to a degree at a later time.
What else can I help you with?
What is the difference between electronics and electronic engineering?
Electronics Engineering falls roughly into the overall category of electrical engineering. Electrical engineering deals with ALL aspects of electrical things, from power generation & transmission, to superconductors. In a nutshell, electrical engineers work on power distribution, electrical controls in factories, motors & their control, transformers, and things like the electrical requirements for a new mall (just to mention a few of the many areas of EE). Electronics Engineers deal more with things at the component level, primarily Integrated circuits, signal processing, gadgets like your GPS, and iPOD. On board a cruise ship for example, an Electrical engineer would see over the motor generator sets, the power distribution, the computer controls at the 'control' level (steering & propulsion), while an Electronics Engineer would deal with this like troubleshooting an single circuit board and the communications equipment. Check out the link below to the IEEE, Institute of Electrical and Electronics Engineers
What should be my strength to become a Biomedical engineer after completing B.Sc. in Electrical and electronic Engineering?
Biomedical engineering involves a lot of medical instrumentation e.g pacemakers, ECG, active prosthetics, functional electrical stimulation and many more, so it is not uncommon to come from an electronics background into biomedical engineering. So you have an obvious advantage in this part of BME
What is the use of power electronics in biomedical engineering?
In biomedical engineering, power electronics can come in handy in running equipment such as x-ray machines and centrifuges. A centrifuge can be used to separate different specimen samples by spinning them at high revolution counts.
Which is the best engineering course electronics and communication engineering or electrical and electronics engineering for after four years?
I'd say E&C. Being an EC student myself and knowing the bounds of both branches, it has more scope E&T in industry as well as for higher studies. In terms of studying also EC will deal with wide variety of subjects that are required for any engineer. Moreover E&T is a branch that has come into existence recently. So go with history
Which two fields of study do the principles of biomechanics come from?
physics and engineering
Is IT better or electronics and communication engineering?
It is a subjective question meaning depends upon who you ask. I will try my best to answer it impartially as much as I can. The fundamental of both the branch is electronics. I mean foundation is the same for both the field. It starts to differ only in advance level courses. Electronics engineering has wide variety of application including Telecommunication. However, it is not only limited to one field rather applies to subsections of various field of electrical and electronics engineering. When it comes to profession, one will be better off specializing in one particular field like Digital, Analog, Microwave(RF), Mixed Signal, power electronics, Telecommunications etc. Now when it comes to electronics and telecommunication engineering, it will definitely have foundation electronics with more focus or specialized in Telecommunication. Telecomm is also rapidly growing field. So it all depends what you really want to do. As a matter of fact whichever field you study you may still be able to work in either field.
How many engineering colleges r there in lpu?
Lovely Professional University (LPU) has a strong presence of engineering colleges within its campus. Here are some of the engineering colleges in LPU: LPU School of Mechanical Engineering: Offers programs in mechanical engineering, mechatronics, and aerospace engineering. LPU School of Computer Science and Engineering: Offers programs in computer science and engineering, information technology, and software engineering. LPU School of Electrical Engineering: Offers programs in electrical engineering, electronics and communication engineering, and electrical and electronics engineering. LPU School of Civil Engineering: Offers programs in civil engineering, construction management, and urban planning. LPU School of Chemical Engineering: Offers programs in chemical engineering, petroleum engineering, and pharmaceutical engineering. LPU School of Aerospace Engineering: Offers programs in aerospace engineering, aeronautical engineering, and astronautical engineering. LPU School of Biotechnology and Bioinformatics: Offers programs in biotechnology, bioinformatics, and biomedical engineering. LPU School of Electronics and Communication Engineering: Offers programs in electronics and communication engineering, electronics and electrical engineering, and communication engineering. These engineering colleges in LPU offer a wide range of undergraduate, postgraduate, and doctoral programs in various fields of engineering.
Career for the Future - Electronics Engineer?
The engineering of electronic devices is a crucial component of the modern world economy. Virtually every consumer product purchased has an electronic component somewhere in its design. From the diagnostic systems in automobiles to consumer electronics like netbooks and MP3 players, somewhere in the design and production process an electronics engineer was involved. Electronics engineering is traditionally considered a sub specialty of electrical engineering, although computer science graduates also work as electronics engineers when there is subsystem programming to be done. They work in a wide variety of industries, from up and coming green companies who focus on finding more efficient and environmentally friendly means of producing energy to traditional consumer products oriented companies. Electronics engineers do a great deal of work designing circuits, which are critical components of any electrical device. Virtually every engineering field requires a bachelors degree in a relevant engineering discipline. Many universities offer four year degrees in electrical engineering, and a few even offer specialties specifically in electronics engineering. A good number incorporate design classes in the first year, allowing students hands-on experience in the design and construction of electronics. Internships are widely available to upper division students, and many come with a stipend. After university, electronics engineers need to pass an accredited skill examination in order to offer engineering services to the general public. In addition, they can obtain professional certification after working as engineers for several years. These certifications are helpful in securing the best employment in the field. According to BLS.gov, The average salary for electronics engineers was 88,670 USD as of May 2008, which is higher than the average salary for electrical engineers as a whole, whose average salary ran around 85,350 USD at the same time. Starting salaries are also quite lucrative for electronics engineers, with the lowest ten percent of engineers in the specialty earning at least 55,000 USD annually. These numbers will vary depending on the economy and region of employment, but are far better than the national average for full time work. An electronic engineer is valued and prospects for employment are good. Electronic engineering is a vital discipline, and a solid career choice.
Which engineering branch will have best scope by 2015?
Electrical engineering because so much of reforms and technologies have to be come into this field and so many power plants are opening till 2015
How you come to know that if diploma in electrical engineering three year correspondence course of c v raman institute of engineering technology hoshangabad m p is approved by aicte?
through google.com
Why did you choose electrical engineering as career?
I chose Electrical Engineering as a career because of my deep interest in understanding how electricity, circuits, and electronic systems power the modern world. From a young age, I was fascinated by how electrical systems and devices operate, and I wanted to be at the forefront of shaping innovations that drive industries, technology, and society forward. Electrical Engineering offers a unique blend of theoretical knowledge and practical application that allows me to solve complex problems and design systems that have a real-world impact. Dr. D. Y. Patil Institution of Technology stood out to me because of its excellent curriculum, state-of-the-art laboratories, and strong industry connections. The program provides a solid foundation in electrical concepts while offering opportunities to specialize in areas like power systems, electronics, control systems, and renewable energy. This aligns perfectly with my passion for both sustainable energy solutions and technological advancement. Learn more here: Electrical Engineering at DYPVP.
Where does the symbol for current in ohms law come from?
In Ohm's Law, the symbol for current, denoted as "I," originates from the French word "intensité" which means intensity. This term was adopted by André-Marie Ampère, a key figure in the study of electricity, to represent electric current. The use of "I" has been standardized in scientific literature and is widely recognized in electrical engineering and physics.
