my future career essay electrical engineer

Electrical Engineer Professional Goals

Getting started as a electrical engineer.

What is a Electrical Engineer
How to Become a Electrical Engineer
Certifications
Tools & Software
LinkedIn Guide
Interview Questions
Similar Job Titles
Work-Life Balance
Professional Goals
Electrical Engineer Resume Examples
Electrical Engineer Cover Letter Examples

Track Your Goals with Teal

Log your goals and career aspirations on an ongoing basis to keep career groth front of mind with Teal.

Why Every Electrical Engineer Should Have Goals

Different types of career goals for electrical engineers, technical proficiency goals, project management and leadership goals, networking and professional development goals, innovation and research goals, personal branding and thought leadership goals, what makes a good career goal for a electrical engineer , career goal criteria for electrical engineers, technical mastery and innovation.

Identify Key Technologies to Master
Engage in Continuous Learning
Contribute to Industry Innovations

Interdisciplinary Collaboration

Engage in Cross-Functional Projects
Develop Systems Integration Skills
Build a Diverse Professional Network

Sustainable and Ethical Engineering

Adopt Green Technologies
Ensure Ethical Standards
Promote Energy Efficiency

Leadership and Communication Skills

Hone Project Management Skills
Master Persuasive Technical Presenting
Enhance Team Collaboration Techniques

Log Your Wins Every Week with Teal

my future career essay electrical engineer

12 Professional Goal Examples for Electrical Engineers

Master advanced circuit design, obtain professional engineering (pe) licensure, specialize in renewable energy systems, enhance project management skills, develop expertise in embedded systems, lead a cross-disciplinary engineering project, improve technical writing and documentation, gain proficiency in power system analysis, contribute to industry standards development, mentor junior engineers, innovate with artificial intelligence in electrical systems, commit to continuous learning, career goals for electrical engineers at difference levels, setting career goals as an entry-level electrical engineer, setting career goals as a mid-level electrical engineer, setting career goals as a senior-level electrical engineer, leverage feedback to refine your professional goals, utilizing constructive criticism to sharpen technical expertise, integrating customer feedback to drive innovation, leveraging performance reviews to navigate career progression, goal faqs for electrical engineers, how frequently should electrical engineers revisit and adjust their professional goals, can professional goals for electrical engineers include soft skill development, how do electrical engineers balance long-term career goals with immediate project deadlines, how can electrical engineers ensure their goals align with their company's vision and objectives.

What is a Electrical Engineer?

More Professional Goals for Related Roles

Enhancing precision and streamlining processes with advanced automation tech

Shaping the future with innovative designs, turning abstract ideas into tangible products

Designing and optimizing hardware systems, turning technological concepts into reality

Designing control systems, ensuring optimal performance in industrial environments

Designing robust systems, ensuring seamless integration and optimal performance

My Career as an Electrical Engineer

The engineering discipline that holds the most interest for me is electrical engineering. I’ve always found electricity, and anyone who works with electricity, to be a fascinating topic, as it is a force that I consider the backbone of our new age culture and human civilization. Without it, our entire world would be a completely different place. Although I have no background working directly with electricity in an engineering capacity, I do have five years experience working for Consumers Energy, which included handling aspects of natural gas and, of course, electricity.

It is during this time, where I was able to see the inner workings and infrastructure on the electric side of the utility business, and how the wonders of electricity allow us to prosper, live in comfort, and assist engineers in making this a better world for all.

What is Electrical Engineering

Electrical engineering is a relatively new discipline in the engineering hierarchy, and its roots date back to the late 19th century, and some of the major, preeminent scholars of the field in the beginning included Thomas Edison and Nicola Tesla.

In general, electrical engineers “design, develop, test and supervise the manufacturing of electrical equipment, such as motors, radar and navigation systems, communication systems, and power generation equipment” (“Electrical and Electronics Engineers”). Electrical engineers use materials such as “conductors, coils, magnets, batteries, switches, resistors, capacitors, inductors, diodes and transistors,” (Lucas, Jim) to design and create electrical and electronics devices. These include things as simple as light bulbs, all the way to power generation stations.

Proficient in: Electronic Engineering

“ KarrieWrites did such a phenomenal job on this assignment! He completed it prior to its deadline and was thorough and informative. ”

Electrical engineers also produce specifications for electrical projects, conduct testing to see how well something performs, and see to the durability and reliability of said project. All in all, if something has to worked on that deals with electricity, and requires design and analysis, an electrical engineer will be the go-to professional.

Skills to be an Electrical Engineer

To be an engineer, and more specifically an electrical engineer, you must have a core set of strengths, skills and talents. When it comes to electrical engineering, it is crucial that a person has great critical thinking skills, which is something I have. I’ve always been a problem solver and a logical thinker. If there is a problem, such as finding the strengths and weaknesses of an electrical system, I am someone who tries to think of multiple solutions, and tries to fix it efficiently and effectively. Electrical engineers are often required to think in this logical manner to solve issues, and so I believe this is a great skill to have. Another important strength/skill I have is the drive for learning new things, and being able to adapt to changes. I am someone who wants to learn as much as possible, and loves to learn new things. With electrical engineering being a field that is always changing, this skill is paramount to being successful, and keeping up with the ever evolving field of electricity. Lastly, another strength that I have is something that I believe to be one of the most important skills for any engineering discipline, including electrical, to have, which is the ability to work well with a team or employer. If, for example, I was assigned with a group to a project for a newer, more efficient power generation system, I would be someone who would have no problem getting along with the team, as I believe that for a project like that to be successful, we would have to work together. I’ve worked together as a team many times during my five years at Consumers Energy. For example, I worked with a group to develop and test a program to ensure that our billing system was accurate when someone cancels or starts new service. Our work as a group allowed that program to be successfully tested, and ultimately implemented by the company. Although I have other strengths, these are a few of what I consider to be the most important.

My Education

Once I have completed my associate degree at Delta College, I intend to transfer to Saginaw Valley State University. Finishing my education at SVSU will allow me to receive a bachelor degree in Electrical Engineering. In regards to what programs SVSU offers, at this time they only offer degrees in mechanical and electrical engineering. There are many courses involved, which include Measurement and Instrumentations, Circuits and Electromagnetic Fields. Some of the major and design electives that I need to take, and look the most forward to on my journey to be an engineer (and which lead into what I want to specialize in, which is power engineering) are the courses Electric Power Systems, Distributed Power Generation Systems, and Solar Voltaic Systems. SVSU describes Electric Power Systems as having to deal with the “generation and transmission of electric power, inductance and capacitance of transmission lines, and analysis of short, medium and long lines,” while Distributed Power Generation Systems and Solar Voltaic Systems both have to do with alternative energy technologies like micro turbines, small wind power systems, and photovoltaic/solar powered systems (“Electrical Engineering Major (B.S.S.E).” Of course, there are many more electives and major courses, but these are a few of the ones that I will personally be taking.

Electrical engineering has grown into a broad field, and has many sub specialties. I’ve made mention of this multiple times, but I would love to specialize in what is called power engineering. Power engineering is defined as a sub field having to deal with the generation, transmission, and distribution of electricity. Power engineers typically will work for a utility company, as they are the entities that generate and distribute electricity across their territory. I personally know the importance of having a fully functional, reliable and safe infrastructure, as I have been a part of having to deal with many power outages, so I understand the reliance that everyone, and also our environment, has on an electrical grid. The functions that most appeal to me are being a part of a team that is responsible for updating, maintaining and improving our electrical grid, to ensure reliability of services. This includes working with transmission lines to transformers, generators to substations. I would also love to be able to work with alternative energy sources to electricity generation, such as solar and wind power, and know for a fact that alternative energy is the future of electricity. In regards to wages, according to the Bureau of Labor Statistics, the average pay in 2017 is $97,970 per year, while the electrical engineering job outlook is growing at a rate of 7%, which translates to around 21,300 new jobs between 2016-2026 (“Electrical and Electronics Engineers.”). I wasn’t able to get in touch with an electrical engineer at Consumers Energy, unfortunately, so I was not able to get specific details of how they use their engineering background.

To procure a degree, you of course have to attend courses, which cost money. As of right now, assuming that everything goes well, and I’m able to get into the classes I need, I should graduate with an associate degree at the end of 2019, but possibly the beginning of 2020 at the latest. To finish at Delta, the cost for the 46 credit hours I still need is going to be approximately $6500, which includes books and supplies (“You Can Save a Ton of Money.”). Once done, SVSU is going to cost roughly $25,000, which includes 51 credit hours, books, lab supplies, etc. (“Tuition and Fee Schedule.”). In regards to food and housing costs, my wife and I spend roughly $100-$150 a week on groceries and $1250 a month for housing. As of right now, we are paying out of pocket for my Delta tuition, and admittedly would be able to pay for SVSU out of pocket. Instead of doing that, I intend to take out student loans once I reach SVSU. If I have an average salary of $97,700/year, I would pay about $500 a month towards my student loans. With a $500 a month payment, it would take approximately four years to pay off the loan in its entirety. Of course, this is not taking into consideration that there would be times that more would be paid, if able.

Choosing an Engineering Discipline

If for some reason electrical engineering didn’t work out, and I had to choose a back up engineering discipline, I would have to say it would be chemical engineering. I’ve always had a love of chemistry, even when I was a child. Throughout high school, chemistry was one of my favorite subjects, and I took as many courses as I could. When I first attended Delta College after high school, I intended to major in chemical engineering. Being able to turn raw materials and chemicals into workable products is fascinating, and I know that chemical engineers are also an integral part of the alternative energy/fuel systems. Given the fact that I want to get back into the utility business, it would be almost, but not quite as, good as electrical engineering.

Cite this page

My Career as an Electrical Engineer. (2021, Dec 10). Retrieved from https://paperap.com/my-career-as-an-electrical-engineer/

"My Career as an Electrical Engineer." PaperAp.com , 10 Dec 2021, https://paperap.com/my-career-as-an-electrical-engineer/

PaperAp.com. (2021). My Career as an Electrical Engineer . [Online]. Available at: https://paperap.com/my-career-as-an-electrical-engineer/ [Accessed: 11 May. 2024]

"My Career as an Electrical Engineer." PaperAp.com, Dec 10, 2021. Accessed May 11, 2024. https://paperap.com/my-career-as-an-electrical-engineer/

"My Career as an Electrical Engineer," PaperAp.com , 10-Dec-2021. [Online]. Available: https://paperap.com/my-career-as-an-electrical-engineer/. [Accessed: 11-May-2024]

PaperAp.com. (2021). My Career as an Electrical Engineer . [Online]. Available at: https://paperap.com/my-career-as-an-electrical-engineer/ [Accessed: 11-May-2024]

Protection Devices For Electrical Machines & Control Pages: 2 (337 words)
Introduction To Electrical Circuits Lab Report Pages: 3 (647 words)
A Review Paper on “Electrical Vehicle” Pages: 4 (1037 words)
What Would the Globe Look Like Without Electrical Engineers Pages: 2 (589 words)
Superconductors and applications in electrical energy Pages: 8 (2385 words)
Electrical Hazards: Understanding the Dangers of Electricity and Safety Measures Pages: 1 (212 words)
IGCSE Coordinated Science: Electrical Energy Pages: 1 (85 words)
I Want To Be An Engineer Essay Pages: 3 (747 words)
The Role of the Engineer in a New FIDIC Contract Pages: 3 (612 words)
The Engineer’s Finger by Arthur Conan Doyle Pages: 11 (3020 words)

What Is the Future of Electrical Engineering?

View all blog posts under Articles | View all blog posts under Electrical Engineering

When somebody drives an electric car, uses a smartwatch to track their steps, or controls their lights and heat from a smartphone app, they’re benefiting from the work of electrical engineers. Electrical engineering plays a key role in technological innovations that advance society in countless ways.

An electrical engineer makes a note on a tablet while looking up at a transmission tower.

Innovation-driven industries have enormous growth potential and offer tremendous opportunities for electrical engineers. Electric vehicles, smart grids, robotics, and consumer electronics are some examples of emerging sectors in which sales are projected to grow 10% or more a year over the coming decade.

For today’s engineering students, then, it’s crucial to explore the future of electrical engineering and understand where opportunity lies. Knowing more about cutting-edge technologies and the kinds of jobs they offer can help students in an engineering degree program decide where to focus their studies and their ambitions for electrical engineering careers.

What Is the Job Outlook for Electrical Engineering?

The U.S. Bureau of Labor Statistics (BLS) projects electrical engineering employment will grow 2% from 2021 to 2031, while the average profession will grow 5%. But other employment trends are more encouraging, suggesting the future of electrical engineering may include robust demand in a variety of industries.

Electronics engineering jobs are projected to grow 6% from 2021 to 2031, according to the BLS, reflecting surges in demand for everything from smartphones to autonomous vehicles.
Many older workers will retire, the BLS projects, resulting in an average of 20,100 job openings a year for electrical and electronics engineers.
A 2022 survey by the publication Electronic Design found that 76% of employers had trouble finding engineers for open positions due to declining numbers of electrical engineering students.

In addition, two recent federal laws could boost demand for electrical engineers over the next decade.

The Infrastructure Investment and Jobs (IIJ) Act of 2021 will invest $1.2 trillion in America’s infrastructure, including electric generation and transmission, transportation, and the internet.
The Creating Helpful Incentives to Produce Semiconductors and Science (CHIPS) Act of 2022 will spend $280 billion to boost domestic production of microchips.

Top Industries for Electrical Engineering Jobs

According to the BLS, a diverse group of industries and sectors employed the highest percentages of electrical engineers in 2021.

Engineering services, such as designers, contractors, and consultants: 21%
Electric power generation, transmission, and distribution: 9%
Medical, navigational, measurement, and control devices: 7%
Scientific research and development: 5%
Semiconductor manufacturing: 4%

Top Employment Sectors for Electronics Engineering Jobs

The top employers of electronics engineers in 2021 were also a varied group of industries, the BLS reports.

Telecommunications: 18%
Federal government: 15%
Semiconductor manufacturing: 10%
Engineering services, such as designers, contractors, and consultants: 8%
Medical, navigational, measurement, and control devices: 6%

What Are Common Electrical Engineering Careers?

Engineering students who want to be part of the future of electrical engineering should know the types of roles they can pursue in the job market, which are many and varied. For a student studying to become an electrical engineer , some common electrical engineering careers illustrate the broad range of professional options.

Broadcast Engineer

At television and radio stations and networks, broadcast engineers maintain equipment used for broadcasting. They also monitor and troubleshoot equipment while a station is on the air. Broadcast equipment can range from consoles in studios and control rooms to transmission towers.

The median annual salary for broadcast engineers was around $65,600 as of February 2023, according to data from the compensation website Payscale.

Substation Technician

Substation technicians are crucial to the functioning of the electric grid. They work on the design and maintenance of electric substations which distribute power to homes and businesses. The job requires knowledge of equipment such as circuit breakers and transformers and an understanding of schematic diagrams as well as strict attention to safety.

The median annual salary for substation technicians was around $77,700 as of January 2023, according to Payscale.

Controls Engineer

Controls engineers design devices that regulate the operations of machines and manufacturing processes in the safest and most efficient manner. The systems can range from electrical grids, to motor vehicles, to aerospace components. Control engineers also maintain, test, and update existing control systems.

The median annual salary for controls engineers was around $81,300 in February 2023, according to Payscale.

Systems Engineer

Systems engineers design and set up power systems. These can range from systems within a building or complex, to an entire power grid. Systems engineers may also design computer systems, computer chips, or robotics. For such work, an engineer may need a background in other areas of science and technology, such as computer science or programming, as well as electrical engineering.

The median annual salary for systems engineers was around $84,200 as of February 2023, according to Payscale.

Electrical Project Manager

Electrical project managers oversee the design, building, and installation of electrical systems. Those systems can be in homes, commercial or industrial buildings, or electric power construction, such as substations. The work combines electrical engineering knowledge with managerial skills for overseeing staff, budgets, and schedules.

The median annual salary for electrical project managers was approximately $87,500 in February 2023, according to Payscale.

Hardware Engineer

In today’s high-performance computer world, designs are being constantly upgraded. Hardware engineers do the design work, both for computer systems and for their components. They assess user needs, set specifications, test prototypes, and work with software developers to create more powerful machines.

The median annual salary for hardware engineers was $91,300 in February 2023, according to Payscale.

Computer Network Architect

In large companies, communications depend on elaborate and reliable computer networks, such as local area networks (LANs) and intranets. Network engineers design, maintain, and secure those networks. Their duties combine knowledge of electrical engineering and computer science, as well as attention to details such as equipment compatibility.

The median salary for computer network architects was $124,300 a year as of February 2023, according to Payscale.

What Are Some Electrical Engineering Innovations of the Future?

Because electrical engineering’s future is so closely tied to innovation, the outlook for electrical engineering careers is strongest in innovation-driven industries: ones that are developing new technologies to improve quality of life, energy efficiency, global business success, and environmental sustainability.

A number of cutting-edge industries and products that show strong growth prospects will depend on electrical engineering innovations.

Electric Vehicles

The market for electric vehicles (EVs) has been surging in the U.S., as the motor vehicle industry attempts to cut climate-warming tailpipe emissions. Sales of plug-in vehicles were up 47% in January 2023 compared to a year earlier, according to Argonne National Laboratory. EVs accounted for almost 8% of all light duty vehicles sold.

Those numbers could increase substantially over the coming decade, as automakers ramp up production. S&P Global Mobility projects that EVs will make up 40% of new vehicle sales by 2030.

Electrical engineers are needed for several aspects of designing and developing EVs, including their engines, batteries, and electrical systems.

Electrical engineers are also involved in creating networks of charging stations for EVs to make long-distance travel practical. The IIJ act will invest $7.5 billion of federal money into constructing 500,000 charging stations, up from 147,000 at the end of 2022.

But that figure may be just a start. S&P Global Mobility projects that by 2030, the U.S. will need 2.3 million public charging stations to service a fleet of 28 million EVs.

Wearable Technology

Wearable technology has come a long way since 2000, when the first Bluetooth headset hit the market. Global sales of all types of wearable technology are growing 12.8% per year, according to Allied Market Research, which projects they’ll hit $184 billion by 2031.

The top categories of wearable technology relate to lifestyle, according to Allied Market Research, and all of them involve electronics engineering in their designs.

Health and fitness devices can monitor health indicators, like heart rate, while tracking physical activity like steps.
Smartwatches do much more than just tell time. They can communicate via voice, text, and email; keep track of vital signs; and make electronic payments.
Smart glasses offer voice-controlled access to the internet, with services like search, communications, video streaming, and augmented reality.
Smart clothing incorporates sensors that can measure biometric data and share it with apps. Smart clothing, for example, can track heartbeat and respiration to adjust personal workout plans.

Smart Grids

Homes and buildings use 75% of U.S. electricity. By communicating with the electric grid, users can consume more power when demand is low and less when demand is high, cutting both costs and the need for new power plants. For example, a community in Hoover, Alabama that uses smart electric meters uses 44% less energy than all-electric communities with conventional meters, according to Oak Ridge National Laboratory.

Since 2007, the federal Smart Grid Investment Grant program has led to $8 billion in combined public and private investments in smart grids, much of it to utilities for installing smart meters.

The IIJ Act will invest another $3 billion in smart grids and smart buildings, and in developing a wider range of technologies. This will include technologies such as solar photovoltaic cells, electric battery storage, and advanced control measures for adding and removing load to and from grids. Electrical engineers will be key to designing the equipment and computer systems to make these technologies function.

Robotics, Automation, and Artificial Intelligence (AI)

Automakers have long used robots to help assemble cars. In recent years, automation has expanded into other areas of manufacturing, such as pharmaceuticals, food, plastics and rubber, and semiconductors. Grand View Research reports that the worldwide market for industrial automation and control systems was $172 billion in 2022 and is growing 10.5% annually.

The incorporation of AI is making automation more powerful and efficient. It enables robots to learn from experience, performing ever more precise and complicated tasks. Electrical engineers help design both the algorithms that make AI possible and the electrical systems and sensors that make automation possible.

The combination of automation and AI can also enhance safety. By interpreting data from sensors in machinery, smart manufacturing systems can spot malfunctions and shut down production lines. Remotely operated drones can survey hazardous situations, like downed power lines, before workers go in.

Internet of Things (IoT) Devices

The Internet of Things (IoT) embeds computer chips and sensors in equipment, allowing them to communicate and be controlled over the internet. Such devices can also be programmed to take independent actions, such as changing temperatures, without human direction.

IoT equipment can range from household devices like refrigerators and thermostats, to industrial tools. Electrical engineers are involved in many aspects of their design, including the circuits inside them and the networks that connect them.

Fortune Business Insights expects the global IoT market to grow from $478 billion in 2022 to $2.5 trillion by 2029. On the industrial side, the biggest users will be health care, manufacturing, telecommunications, and financial services.

Explore the Diverse World of Electrical Engineering

The future of innovation is the future of electrical engineering, as electrical engineers play crucial roles in designing and improving new technologies that drive our world forward. Earning an advanced degree — like the online Master of Science in Engineering at the University of California, Riverside — can help students position themselves for success in this field. With its electrical engineering concentration , the program can prepare you for a range of electrical engineering careers in a variety of industries.

The coursework covers an array of high-level and advanced technologies, such as smart grids, power semiconductor devices, and robotic and industrial automation systems. Find out how the University of California, Riverside can help you create the electrical engineering innovations of today and tomorrow.

Take charge of your future with an online Master of Science in Engineering

Electrical Engineering Career Development

Introduction.

In every career, there are distinct factors that guide the decision-making on the career that best fits an individual. However, most of the intellectuals have difficulties in determining their career due to poor introduction at the primary level of career development. Lecturers, parents, and guardians play an important role in career development positively or negatively. Some parents forcefully choose the best career for their children, but this is not advisable (Freitag, 1986).

In my case, curiosity played a huge role in my personal career development since childhood. I was wondering how a wire could produce energy that can produce light to the house and act as the aerial for the small radio receiver at home. My father wondered about such kinds of questions. However, my father never talked much about engineering, but instead, he continued supplying the play materials, which are related to the engineering of which I had a lot of interest in it.

After elementary education, I opted to study sciences due to my earlier interest. On other hand, the lecturers too kept encouraging me, following the exemplary performance which continued to the end. At the University level, the long-awaited career dream of becoming an engineer had come to a reality. However, after the completion of the course, I informed my parents that I would be graduating with a first-class honors degree in electrical engineering.

When I look back at my life and see how far I have come, I cannot help but remember the words of my father when he told me studying electrical engineering will change my life. This career has allowed me to interact with people outside of my race, culture, and religion and now all the stereotypes that I had before are gone. Some say that life is a rollercoaster ride, but what I have come to know is that life is about opportunities and grabbing them with both hands because you just cannot tell which opportunity will change your life permanently. I have tremendous respect for my father who saw my career as an opportunity while I did not seem to see it that way. Hitherto, my father remembered how he supported my ambition to become an engineer at a tender age. Surprisingly, I managed to be the best in our class without wishful thoughts on career choice.

The field of electrical engineering has greatly changed in the last 100 years with the invention and introduction of electrical machines and equipment that uses integrated circuits, programmable and logic control circuits as well are remote control and assistance (Wildes & Lindgren, 1985). A century ago, electrical machines and equipment were very heavy and bulky while the performance was 20 times slower than the present speed (Hambley, 2010).

However, only a few people were able to understand the idea behind the profession. Switching on an electric machine would take an hour just for the transistors to generate heat to warm the system to be switched on. However, the few who were in the profession when gamma and x-rays were invented suffered due to the effects of working on the destructive rays with the naked eye. They gradually lost their eyesight, though this did not hinder the professionalism in electrical engineering (Wildes & Lindgren, 1985).

With the changing technology in electrical engineering, the problems that were faced by the engineers decades ago are no longer there due to the invention of more advanced mechanisms that corrects the failures. The gradual development in the profession has led to the introduction of more advanced systems that allows quick production and processing of domestic and industrial products. This has positively impacted development globally with the production of relatively large goods that ease the business growth and development.

With the advancement in the technological level, in the next century, it is evident that casual workers will no longer have jobs within the companies instead robots will be programmed to perform the duties that ought to have been done by man. However, this will be a possibility due to the size of equipment and machines that reduce with the increase in technology (Freitag, 1986). Human beings will no longer drive the automotive, such as vehicles, and others, but instead, robots will take control with minimal cases of accidents (McMahon, 1984).

The career will elevate me to another level in technology with more understanding and professionalism in engineering. Considering the far that technology has come, there is still a possibility of more advanced changes in the current system.

Freitag, H. (1986). Electrical Engineering: The Second Century Begins. London: Institute of Electrical and Electronics Engineers Publishers.

Hambley, Allan, R. (2010). Electrical Engineering: Principles and Applications . London: Sage Press.

McMahon, A. M. (1984). The Making of a Profession: A Century of Electrical Engineering in America . New York: University of California Press.

Wildes, Karl, L. & Lindgren, Nilo, A. (1985). A Century of Electrical Engineering and Computer Science at MIT: 1882-1982 . Washington: MIT Press.

Chicago (A-D)
Chicago (N-B)

IvyPanda. (2023, November 24). Electrical Engineering Career Development. https://ivypanda.com/essays/electrical-engineering-career-development/

"Electrical Engineering Career Development." IvyPanda , 24 Nov. 2023, ivypanda.com/essays/electrical-engineering-career-development/.

IvyPanda . (2023) 'Electrical Engineering Career Development'. 24 November.

IvyPanda . 2023. "Electrical Engineering Career Development." November 24, 2023. https://ivypanda.com/essays/electrical-engineering-career-development/.

1. IvyPanda . "Electrical Engineering Career Development." November 24, 2023. https://ivypanda.com/essays/electrical-engineering-career-development/.

Bibliography

IvyPanda . "Electrical Engineering Career Development." November 24, 2023. https://ivypanda.com/essays/electrical-engineering-career-development/.

Electric Circuits: the Effect of Individual Resistors
Electrical and Civil Engineering Analysis
Electrical Circuit Theory: Rectification Process
Experience of Aging in Indiana: Interviews Study
Most Satisfying Experience Related to Community Service
Decision-Making Process in Nursing Practice
Work Experience at Masiya
Personal Finance Concepts

How to Find a Job
Building a Career Network
Internships
Volunteer Work
Creating Your Résumé
Résumé Examples
Creating Your Cover Letter
Job Interview Tips
Planning for College
College Planning Timeline
Taking College Entrance Exams
Testing Tips
Choosing a College
The College Application Process
Campus Visit Tips
Writing a College Essay
College Interview Tips
Paying for College
Paying for Two-year Colleges & Trade Schools
Financial Aid Application
What to Bring to College
Campus Life: What to Expect
Types of Military Service
Enlisting in the Military
Becoming an Officer
College Assistance
Common Military Questions
Preparing for Basic Training
Military Benefits
Military Life
Glossary: Military Jargon

Electrical Engineers

General information, description.

Research, design, develop, test, or supervise the manufacturing and installation of electrical equipment, components, or systems for commercial, industrial, military, or scientific use.

Workplace at a Glance

What you can expect to experience while on the job

Responsibility
Exposure to job hazards
Physical activity
Decision making
Repetitiveness
Level of competition
Time pressure

Industry areas

Science, Technology, Engineering & Mathematics

Job Outlook

Overall employment of electrical and electronics engineers is projected to grow 5 percent from 2022 to 2032, faster than the average for all occupations. About 17,800 openings for electrical and electronics engineers are projected each year, on average, over the decade. Many of those openings are expected to result from the need to replace workers who transfer to different occupations or exit the labor force, such as to retire.

Similar Careers

Electronics Engineers, Except Computer
Mechanical Engineers
Electrical and Electronic Engineering Technologists and Technicians
Electrical and Electronics Repairers, Commercial and Industrial Equipment
Mechatronics Engineers

Related Military Careers

Salary information.

Median Salary This is the median, or the midpoint, of the salary range for this career.

Median Military Salary Military pay may be higher based on specialty pays or bonuses. Learn more about Military benefits.

State-by-state Salary

Gray states indicate no data available

Salary Range Salary varies based on years of experience, degree level and location.

Education & Interests

Most common education levels.

People in this career achieve this level of education.

Bachelor's degree 81%
Associate's degree 11%
Master's degree 7%
High school 0%
Some college 0%
Doctoral degree 0%
Post baccalaureate 0%
Less than high school 0%
Post-doctoral training 0%
Post-master's certificate 0%
First professional degree 0%
Post-secondary certificate 0%

Related College Majors

Select major to see colleges that offer it

Electrical and Electronics Engineering
Electrical and Computer Engineering
Electrical, Electronics, and Communications Engineering, Other
Electromechanical Engineering

PERSONALITY CHARACTERISTICS

You may find this career fulfilling if you consider yourself to be:

Investigative — You have an interest in studying and researching objects, organisms, and other things.
Realistic — You have an interest in physically working with equipment, materials or structures.

Not sure what characteristics best describe you? Take the RIASEC Test.

Skills at a Glance

Skills helpful in this career

Verbal skills
Critical thinking & problem solving
Equipment operation & maintenance
Math & science skills
Technology design & control
Engineering and Technology
Computers and Electronics
Mathematics

Gain insights into your knowledge by using the ASVAB Career Exploration Program

Data supplied by Bureau of Labor Statistics , National Center of Education Statistics , Defense Manpower Data Center (View our update schedule) . Contact any business, college or military service branch to answer additional questions.

Home / Essay Samples / Profession / Engineer / Why Engineering: My Path to a Fulfilling Future Career

Why Engineering: My Path to a Fulfilling Future Career

Category: Business , Profession
Topic: Dream Career , Engineer

Pages: 1 (682 words)

Downloads: -->

A Love for Problem Solving

A desire to innovate and create, the interdisciplinary nature of engineering, the impact on society, lifelong learning and adaptability.

--> ⚠️ Remember: This essay was written and uploaded by an--> click here.

Found a great essay sample but want a unique one?

are ready to help you with your essay

You won’t be charged yet!

Walt Disney Essays

Facebook Essays

Firefighter Essays

Pediatrician Essays

Amazon Essays

Related Essays

We are glad that you like it, but you cannot copy from our website. Just insert your email and this sample will be sent to you.

By clicking “Send”, you agree to our Terms of service and Privacy statement . We will occasionally send you account related emails.

Your essay sample has been sent.

In fact, there is a way to get an original essay! Turn to our writers and order a plagiarism-free paper.

samplius.com uses cookies to offer you the best service possible.By continuing we’ll assume you board with our cookie policy .--> -->