Electrical and electronics engineering salary
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Electrical engineering
Branch of engineering
Not to be confused with Electronic engineering.
A long row of disconnectors | |
| Names | Electrical engineer |
|---|---|
Activity sectors | Electronics, electrical circuits, electromagnetics, power engineering, electrical machines, telecommunications, control systems, signal processing, optics, photonics, and electrical substations |
| Competencies | Technical knowledge, management skills, advanced mathematics, systems design, physics, abstract thinking, analytical thinking, philosophy of logic (see also Glossary of electrical and electronics engineering) |
Fields of | Technology, science, exploration, military, industry and society |
Electrical engineering is an engineering discipline concerned with the study, design, and application of equipment, devices, and systems that use electricity, electronics, and electromagnetism. It emerged as an identifiable occupation in the latter half of the 19th century after the commercialization of the electric telegraph, the telephone, and electrical power generation, distribution, and
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The History of Electrical Engineering
Electrical engineers are saddled with a lot of responsibility in today’s world of rapidly advancing technologies.They are tasked with designing, developing, and testing electrical equipment and systems. From smartphones to supercomputers, electrical engineers are deeply involved in every step of the engineering process. But what is electrical engineering?
The definition of electrical engineering is different depending on who you ask. Electrical engineers would agree that it is the branch of engineering that deals with the technology of electricity, of course, but it is so much more than that. On a fundamental level, electrical engineers combine the physics and mathematics of electricity, electromagnetism, and electronics and apply them to information processing and energy transmission.
The discipline of electrical engineering is young—less than 200 years old—but rapid advances have been made in such a short time. Developments are being made so quickly that what some considered to be years away have become reality, giving electrical engine
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Bio-Electrical Engineering
B2E2 aims to develop new hardware and computational tools to identify, characterize, and treat diseases. In the physical domain, electrical engineering approaches to integrated microsystems lead to new biological and medical sensors. These sensors consist of state-of-the-art ultrasonic, RF, optical, MRI, CT, electrical impedance transducers. The integration of sensors, electronics are used to develop implantable and wearable devices, with decreasing size, weight, and power and increased functionality. B2E2 microsystems can help create interfaces for sensing and actuation to help understand the physiological and pathological mechanisms of diseases, and enable advanced robotic interfaces in medicine. Medical devices can generate vast amounts of data, which require both real-time and post-acquisition processing. B2E2 faculty, sometimes in collaboration with medical researchers, develop advanced computational tools to learn from and exploit data and apply artificial intelligence approaches to impact medical practice by improving: early di
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