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IEEE Member Mayra Yucely Beb Caal, ... to an engineering Ph.D. and a career using AI to improve cancer detection. ... Although she is just now starting her career as a tech professional, Mayra Yucely Beb Caal has already overcome towering obstacles. The IEEE member sees her life as an example for other ...
IEEE Member Mayra Yucely Beb Caal, raised in a rural Guatemalan village, broke barriers on her way to an engineering Ph.D. and a career using AI to improve cancer detection. ... Although she is just now starting her career as a tech professional, Mayra Yucely Beb Caal has already overcome towering obstacles. The IEEE member sees her life as an example for other young people, demonstrating that they can succeed despite disadvantages they face due to their gender, ethnicity, language, or economic background.The daughter of a single mother who was a schoolteacher, Caal says she spent her early years living with her aunts while her mother worked in distant towns for weeks at a time to provide for the family. In her community—mostly descendants of the indigenous Maya-Kekchi people—technology was rarely discussed. Pursuing a degree meant studying to become a physician, the most prestigious occupation anyone there was aware of. No one imagined that a girl from Cobán would one day hold a doctorate in engineering or conduct cancer research in France.She received a Gray scholarship, awarded by the IEEE Systems Council to students pursuing graduate studies in process control systems engineering, plant automation, or instrumentation measurement. The US $5,000 award supplemented other scholarships which helped her to study for her Ph.D. Caal was introduced to technology when, at age 14, she received a government scholarship to attend the Instituto Técnico de Capacitación y Productividad, a high school in Guatemala City. It was her first exposure to electronics, robotics, and mechatronics (an interdisciplinary field that combines mechanical engineering, electronics, computer science, and control systems)—subjects that weren’t taught in her local school.Caal decided to return to school in 2018 to pursue a master’s degree in mechatronics and micromechatronics engineering. She received a scholarship from the Mundus Joint Master program, part of a European Commission–sponsored initiative that provides funding for education, training, and youth in sports.
Electrical engineers design, develop, test, and supervise the manufacture of electrical equipment, such as electric motors, radar and navigation systems, communications systems, or power generation equipment.
Electrical engineers design, develop, test, and supervise the manufacture of electrical equipment, such as electric motors, radar and navigation systems, communications systems, or power generation equipment. Electrical engineers also design the electrical systems of automobiles and aircraft.Most electrical and electronics engineers work full time. ... Electrical and electronics engineers must have a bachelor’s degree.Courses in drafting are also helpful, because electrical and electronics engineers often are required to prepare technical drawings. Electrical and electronics engineers typically need a bachelor's degree in electrical engineering, electronics engineering, or a related engineering field.Programs in electrical engineering, electronics engineering, or electrical engineering technology should be accredited by ABET. Some colleges and universities offer cooperative programs in which students gain practical experience while completing their education.
Electrical engineering is the study and application of electricity, electronics, and electromagnetism. In simple terms, it is about understanding how electricity works in order to use the knowledge for engineering applications. Electrical engineers defined the 20th century with technologies ...
Electrical engineering is the study and application of electricity, electronics, and electromagnetism. In simple terms, it is about understanding how electricity works in order to use the knowledge for engineering applications. Electrical engineers defined the 20th century with technologies that transformed society.Electrical engineers work on a wide range of tasks including designing circuits for smartphones and computers, developing electric power systems for buildings and cities, connecting society with wireless communication networks, and maintaining modern civilization.Circuit design is a starting point of electrical engineering. Circuits are like highways that allow electricity to flow through electronic devices. Electrical engineers design circuits that amplify signals, convert power from one form to another, or control the operation of a device.Electrical engineering provides the foundational technology for modern society—electronics for aircrafts and automobiles, electric vehicular technology, medical diagnostic and surgical systems, wireless technology for a connected world (and universe), and semiconductor chips for computing and artificial intelligence.
Electronic and electrical (EC) engineering is an engineering discipline that involves researching, designing, building and testing electronic circuits and devices. There are a range of career options in this field if you are interested in constructing electrical equipment and electronic devices ...
Electronic and electrical (EC) engineering is an engineering discipline that involves researching, designing, building and testing electronic circuits and devices. There are a range of career options in this field if you are interested in constructing electrical equipment and electronic devices and you possess problem-solving skills and an engineering degree.If you hope to work in EC engineering, it may benefit you to learn more about your options. In this article, we list 15 EC engineer jobs and share information about their salaries and primary duties.Salary figures reflect data listed on Indeed Salaries at time of writing.National average salary: ₹ 2,34,179 per yearPrimary duties: Computer engineers design and test hardware components for computers, including motherboards, central processing units (CPUs), hard drives, graphics processing units and network interface cards (NICs). They work closely with hardware developers to ensure that each part fits the computer and functions properly.These engineers also integrate hardware and software into a unified system and update hardware components so they can work with newer software.Related: How To Become A Computer Hardware Engineer: A Complete Guide · National average salary: ₹ 2,54,148 per yearPrimary duties: Electronics engineers design a variety of electronic equipment, including Global Positioning System (GPS) devices, broadcast systems, mobile phones and music players.
Transform your product pages with ... user experiences for your customers. transim.com/Products/Engage ... A worldwide innovation hub servicing component manufacturers and distributors with unique marketing solutions aspencore.com · SiliconExpert provides engineers with the data ...
Transform your product pages with embeddable schematic, simulation, and 3D content modules while providing interactive user experiences for your customers. transim.com/Products/Engage ... A worldwide innovation hub servicing component manufacturers and distributors with unique marketing solutions aspencore.com · SiliconExpert provides engineers with the data and insight they need to remove risk from the supply chain.Transim powers many of the tools engineers use every day on manufacturers' websites and can develop solutions for any company.Where electronics engineers discover the latest toolsThe design site for hardware software, and firmware engineers eeweb.comEE Times offers reliable electronics news, electrical engineering resources, podcasts, and industry events from Award-winning journalists. Visit to learn more.
In computer engineering students mostly go to software or computer hardware. I also feel like many ppl want to study this field but just for the money. Share ... There are many many different fields you can go into and different specialization which I will name just at few: embedded systems, ...
In computer engineering students mostly go to software or computer hardware. I also feel like many ppl want to study this field but just for the money. Share ... There are many many different fields you can go into and different specialization which I will name just at few: embedded systems, circuit and PCB design, power systems, etc.Software creates the interface that people see. That helps sell the product. All the EEs do is spend a lot of money to make a small box that looks similar to the last one they built. ... Also supply and demand. Freaking huge demand for software engineers in the tech space.A few years ago many many graduates went into computer and electrical engineering, more applicants than positions results in lower pay. Perceived value as mentioned by someone else is that software is more valuable. Presently, I have seen a huge switch where it is really difficult to find people too bud the hardware, specifically EEs.At the top level it splits into electrical and electronic engineering. One is to do with power systems and high voltages, the other to do with low voltages and using electricity to perform some taks. Electronics is then split into analogue and digital systems.
Electronic engineering is a sub-discipline of electrical engineering that emerged in the early 20th century and is distinguished by the additional use of active components such as semiconductor devices to amplify and control electric current flow. Previously electrical engineering only used ...
Electronic engineering is a sub-discipline of electrical engineering that emerged in the early 20th century and is distinguished by the additional use of active components such as semiconductor devices to amplify and control electric current flow. Previously electrical engineering only used ...It is also involved in many related fields, for example solid-state physics, radio engineering, telecommunications, control systems, signal processing, systems engineering, computer engineering, instrumentation engineering, electric power control, photonics and robotics.The Institute of Electrical and Electronics Engineers (IEEE) is one of the most important professional bodies for electronics engineers in the US; the equivalent body in the UK is the Institution of Engineering and Technology (IET).Electronics engineering as a profession emerged following Karl Ferdinand Braun´s development of the crystal detector, the first semiconductor device, in 1874 and the identification of the electron in 1897 and the subsequent invention of the vacuum tube which could amplify and rectify small electrical signals, that inaugurated the field of electronics.For digital signals, signal processing may involve compression, error checking and error detection, and correction. Telecommunications engineering deals with the transmission of information across a medium such as a co-axial cable, an optical fiber, or free space.
An engineer conducts tests from their work table, which holds a laptop, tools and diagnostic equipment.Electronics engineering is a branch of electrical engineering that centers on the design and development of products using electronic technology. As a profession, it comprises multiple specialist ...
An engineer conducts tests from their work table, which holds a laptop, tools and diagnostic equipment.Electronics engineering is a branch of electrical engineering that centers on the design and development of products using electronic technology. As a profession, it comprises multiple specialist areas that each require specific education and training to enter.Understanding more about electronics engineering and what it entails can help you make an informed decision about pursuing a career in the field.In this article, we define electronics engineering, list the common duties of an electrical engineer and share the steps to take to secure roles in this field.Electronics engineering is a modern engineering discipline focused on the development of products and systems using electronic technology. It emerged as a discipline in the late-19th century as electronic broadcasting methods, including radio and television, became more widespread.The use of electronic technologies in World War II — such as sonar, radar and advanced weaponry — helped to further develop the field of electronics engineering.Today, electronics engineering is the key force driving the growth of information technology, and many of the devices we use every day are the work of electronics engineers, such as smartphones, personal computers and Wi-Fi networks.
Electrical engineering is divided into a wide range of different fields, including computer engineering, systems engineering, power engineering, telecommunications, radio-frequency engineering, signal processing, instrumentation, photovoltaic cells, electronics, and optics and photonics.
Many of these disciplines overlap with other engineering branches, spanning a huge number of specializations including hardware engineering, power electronics, electromagnetics and waves, microwave engineering, nanotechnology, electrochemistry, renewable energies, mechatronics/control, and electrical materials science.Electrical engineers typically hold a degree in electrical engineering, electronic or electrical and electronic engineering. Practicing engineers may have professional certification and be members of a professional body or an international standards organization.These include the International Electrotechnical Commission (IEC), the National Society of Professional Engineers (NSPE), the Institute of Electrical and Electronics Engineers (IEEE) and the Institution of Engineering and Technology (IET, formerly the IEE).The first course in electrical engineering was taught in 1883 in Cornell's Sibley College of Mechanical Engineering and Mechanic Arts. In about 1885, Cornell President Andrew Dickson White established the first Department of Electrical Engineering in the United States.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 ...
NASA Systems Engineer Daniel Eng serves his second year as a judge for the Aerospace Valley Robotics Competition at the Palmdale Aerospace Academy in Palmdale, California, in 2019. ... As a child in the 1960s, Daniel Eng spent his weekends in New York City’s garment district in Manhattan’s Lower East ...
NASA Systems Engineer Daniel Eng serves his second year as a judge for the Aerospace Valley Robotics Competition at the Palmdale Aerospace Academy in Palmdale, California, in 2019. ... As a child in the 1960s, Daniel Eng spent his weekends in New York City’s garment district in Manhattan’s Lower East Side, clipping loose threads off finished clothing.He worked alongside his mother, a seamstress, and his father, a steam press operator, where he developed an eye for detail and a passion for learning. Now, he applies these capabilities at NASA, where he works as an engineer for the Air Mobility Pathfinders project.His route to NASA was not straightforward. Eng dropped out of high school to join the U.S. Army during the Vietnam War. He earned a GED certificate while on active duty and after his service earned a bachelor’s degree in electrical engineering from the University of Pennsylvania.“Engineers can virtually test computer models of designs, concepts, and operations before they are in place or even built, providing a safe and cost-effective way to verify the processes work the way they should,” Eng said.
Dive into the world of engineering with TryEngineering's vibrant e-books, perfect for young minds eager to learn about technology and innovation.
TryEngineering’s 5 New E-Books Provide Onramp to Engineering. They turn technical topics, including AI and semiconductors, into kid-friendly adventures.Our articles, podcasts, and infographics inform our readers about developments in technology, engineering, and science. ... About IEEEContact & SupportAccessibilityNondiscrimination PolicyTermsIEEE Privacy PolicyCookie PreferencesAd Privacy Options · © Copyright 2025 IEEE — All rights reserved. A public charity, IEEE is the world's largest technical professional organization dedicated to advancing technology for the benefit of humanity. ... As the home for IEEE’s preuniversity resources, activities, and hands-on experiences, TryEngineering serves as a hub for educators, parents, and IEEE volunteers to teach school-age children about engineering.With support from IEEE partners, TryEngineering has launched a series of e-books. Bolstered by input from IEEE members who are experts in their field, the e-books use open-source, free materials written to teach complex engineering topics in an age-appropriate way.Engineers Make the World a Better Place was created with funding from the IEEE New Initiatives Committee. The book introduces students to engineering disciplines and explains how engineers improve society by solving challenging problems, such as improving access for children with limited physical mobility.
Engineering is a broad field that comprises many specializations, and prospective engineers typically take the Fundamentals of Engineering (FE) exam to demonstrate their skill level to employers and receive licensure in their chosen field. The Engineer in Training (EIT) certification is a ...
Engineering is a broad field that comprises many specializations, and prospective engineers typically take the Fundamentals of Engineering (FE) exam to demonstrate their skill level to employers and receive licensure in their chosen field. The Engineer in Training (EIT) certification is a credential that engineers can earn after completing the FE exam.Learning how to get your EIT certification can be beneficial if you plan to pursue this career.In this article, we explain what the EIT certification is, including the steps you can take to obtain it, tips to help you prepare for the exam and frequently asked questions about this credential. The Engineer in Training (EIT) certification is a credential prospective engineers earn after completing an educational program in engineering and earning a passing score on the FE exam.While this certification is typically optional and may not be necessary to apply for a license, it can help prospective engineers demonstrate their mastery of engineering principles and better appeal to entry-level engineering employers.The EIT certification is also part of the regular progression of certification for engineers.While completing your degree, consider meeting with your professors and attending networking opportunities at your educational institution to learn more about the engineering profession.Related: 8 Types of Engineer College Courses You Can Take (Plus Tips) Not every state requires the EIT certification to start an engineering career.
That light switch you flick, that flashlight you shine, even that smartphone you swipe — an electrical engineer played a role in bringing those products to market. The field of electrical engineering is truly fascinating and one that’s crucial to modern technology.
Electrical engineers play a critical role in the development, design, and manufacturing of the electrical systems and electronic devices people use every day. It’s safe to say that the world wouldn’t be quite the same without electrical engineers.Individuals who want to learn how to become an electrical engineer should know it begins with a formal education. Earning an online Master of Science in Engineering degree, with a specialization in electrical engineering, can allow you to enter the field with confidence and chart a bright future.The University of California, Riverside — and the Marlan and Rosemary Bourns College of Engineering, in particular — has helped numerous graduates rediscover their occupational callings and find work in many different professions, including power system design, substation integration, resource management, and supply applications architecture. The robust curriculum can provide students with the tools they need to thrive in this vocation. All this raises a key question: What are the steps to becoming an electrical engineer?Electrical engineers are employed in a host of different work environments and industries, including engineering services, telecommunications, and research and development, as well as the federal government, according to the U.S.
The work of electrical engineers ... specialize in a specific area of electrical or electronics engineering, such as electric power, radio communications, or control systems. · Engineers who focus primarily on computers or computer-related equipment are covered in the profile ...
The work of electrical engineers and electronics engineers is often similar, and they frequently work together and with other types of engineers on projects. Some may specialize in a specific area of electrical or electronics engineering, such as electric power, radio communications, or control systems. · Engineers who focus primarily on computers or computer-related equipment are covered in the profile forElectrical and electronic engineers work in various industries, including engineering services, research and development, and manufacturing. Electrical engineers held about 189,100 jobs in 2023.The largest employers of electrical engineers were as follows: Electronics engineers, except computer held about 98,700 jobs in 2023.Most electrical and electronics engineers work full time. Becoming an electrical or electronics engineer involves the study of math and engineering.
Electronic engineers are making more efficient, powerful and universal electronics. They do this by combining design creativity with scientific concepts to d...
An engineer is a professional who designs, creates and tests structures, machines, systems or processes. A variety of industries employ engineers, meaning that engineers use these skills to complete a wide range of projects.
As an engineer, you have the opportunity to apply your skills to a number of fields, such as electrical or petroleum engineering. While some industries may require engineers to obtain additional education or training, you can use your fundamental engineering knowledge to prepare you for a variety of roles.The average salary for an engineer is $61,052 per year, although this amount can vary depending on the industry in which you work, your location and your level of experience. Typically, engineers gain additional experience or education to increase the income they earn.Since engineers work on projects in various fields, you may be able to apply your skills and ideas to unexpected areas and new technologies. This can allow you to apply your education and training to a variety of projects, which can make work as an engineer interesting.Engineers often learn skills that they can apply to various tasks and activities. For example, an engineer could use their experience working on construction projects to help them remodel a home, or their creative problem solving to lead a club or activity.
Each type of engineer works on similar systems, but electrical engineers are often more concerned with larger electrical systems while electronics engineers focus on the components of electronic equipment. If you're considering becoming an engineer and aren't sure which path is right for you, ...
Each type of engineer works on similar systems, but electrical engineers are often more concerned with larger electrical systems while electronics engineers focus on the components of electronic equipment. If you're considering becoming an engineer and aren't sure which path is right for you, it could depend on what you're interested in working on.An electronics engineer is an engineer who focuses on designing electronic components and systems, such as circuit boards in computers. Electronics engineers work in fields like telecommunications, electronic component manufacturing and instruments manufacturing.As an electronics engineer, you generally need some knowledge of electrical engineering and how electrical systems work, however your focus is more on electronic systems specifically and not broader electrical systems.An electronics engineer has, at minimum, a bachelor's degree in electronic engineering, although since there is some crossover with electrical engineering, some schools offer a degree that combines the two.For instance, an electrical engineer might design the electricity systems in your home while an electronics engineer might design the computer you power with that electricity.Related: What Is Electronics Engineering? Becoming an electronics engineer requires knowledge of complex systems and how electronic components work together.
CAD, FEA, CFD, DEM, innovative mechanical engineering design office | We are experts in the use of CFD, FEA & FSI tools for modelling industrial devices and processes. e-engineer is a multidisciplinary consulting company with strong cost effective skills and dynamic reacting for client needs.
e-engineer | 245 followers on LinkedIn. CAD, FEA, CFD, DEM, innovative mechanical engineering design office | We are experts in the use of CFD, FEA & FSI tools for modelling industrial devices and processes. e-engineer is a multidisciplinary consulting company with strong cost effective skills and dynamic reacting for client needs.We are experts in the use of CFD, FEA & FSI tools for modelling industrial devices and processes. e-engineer is a multidisciplinary consulting company with strong cost effective skills and dynamic reacting for client needs. Since its creation, e-engineer successfully solved many engineering and R&D problems in many different industries.Concluding, our service is: - cost effective for our customers, - short time reacting, - competitive price, - best quality, ... CAD, FEA, CFD, DEM, engineering, mechanical, heat transfer, energy conversion, pressure vessels, LNG, hydrogen, piping, chemical reactors, machine design, stress caclulations, flow multhiphase, virtual prototyping, and green solutions
E-Engineer Computer Simulations is Innovative Engineering R&D Consulting, highly specialised in Virtual Prototyping, as a future of high technology engineering in end-to-end Product&Service Development. E-engineer was established in 2010 as innovative engineering design office, based on up ...
E-Engineer Computer Simulations is Innovative Engineering R&D Consulting, highly specialised in Virtual Prototyping, as a future of high technology engineering in end-to-end Product&Service Development. E-engineer was established in 2010 as innovative engineering design office, based on up to date computer-aided technology (CAE), expert knowledge and experience and team of proffesionals.We operate in all areas of industry supporting by our knowledge, experience and technological base customers at each R&D level of products and/or services. Main areas of competence of e-engineer in engineering design & optimisation:Discrete element Method provides numerical visualistion of bulk materials physical process behaviour; dry, cohesive, nonhomogeneous, with mixing and crushing particles. DEM +SPH, Mixing, Milling, Crushing, Conveyors, Silos, Bottle Necks Optimisation, Process Scaling, CPU, GPU, MBD, Customisation · Compuer Aided Design is widely accepted very innovative tool for engineering effective design process.Safety Engineering using CAE techniques for simulate crisis occures phenomenon is best tool to help design products and buildings in safest way. HAZOP, HAZID, LOPA, SIL. Fire&Smoke Simulations, Temperature, Visibility, Gases Concentration&Dispersion, Flamable&Explisive Iso, EX, Evac, LNG, CNG, H2
Electrical engineering is one facet of engineering that focuses specifically on electricity and how it functions within devices, systems and tools. Electrical engineers often undergo schooling and training to be successful in this field.
If you're interested in becoming an electrical engineer, there are a few different degree options to choose from.In this article, we define electrical engineering degrees, provide a detailed explanation of each degree and list a few job opportunities for people with these degrees.An electrical engineering degree is an education qualification for electrical engineers. Electrical engineering is one aspect of engineering that focuses specifically on the study, design and creation of equipment, devices, tools and systems that use electricity to function.People studying electrical engineering may learn about the generation and transmission of power, the way motors and batteries function and the theories behind electrical engineering.Some electrical engineers focus primarily on electronic devices, which is a rapidly growing field.Earning an electrical engineering degree helps students learn theories and practices necessary for the design, repair and implementation of various types of electrical technology.Related: 7 Career Paths for Electrical Engineering · There are different types of EE degrees that aspiring engineers can pursue.