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How does a career in engineering work?

How does a career in engineering work?

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Elizabeth’s Answer

Adam's answer is very thorough, take a read! But I'd like to add in a few other points and possible career paths.

Some engineers (myself included) start in a manufacturing engineering role and find or develop a skill in quality. Quality engineers are vital to a process, as bad quality products lead to unhappy customers, lots of returns/escapes/reworks, and possibly even a loss of orders. Quality engineering can also span many roles, with titles such as Quality Engineer, Supplier Quality Engineer (focusing on the quality of products purchased), Lead Site Auditor, Quality Supervisor, etc.

Auditing is another Career Growth/Specialization area, as many engineers are either already familiar with or quite good at understanding and interpreting industry standards and reviewing if a company meets those standards as written in their internal documentation. This is likely something you would become more familiar with after being present during audits at your future company.

Completing a degree in engineering will open you up to a wide variety of career paths, partially due to how engineers are taught to think and problem solve. You may not know exactly what career path to start with but that's where internships or co-ops during your time in college/university can really help you figure out what you do and don't like in the engineering field.

If you haven't already done so and aren't yet in college, see if any local universities offer STEM events or engineering days to come in and talk to engineers who live and work in the area. This is another way to learn about the opportunities near you and hear about a variety of career paths!
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Adam’s Answer

A career in engineering can be both diverse and rewarding, offering many different paths based on the type of engineering you're interested in. Broadly speaking, engineering involves applying scientific principles to solve real-world problems, often by designing, building, or optimizing systems, structures, devices, and processes. Here's an overview of how a career in engineering typically works:

1. Education and Training:
Bachelor's Degree: Most engineers begin with a bachelor’s degree in engineering. Some of the common engineering disciplines include:
Mechanical Engineering
Electrical Engineering
Civil Engineering
Chemical Engineering
Computer Engineering
Aerospace Engineering
Biomedical Engineering
Environmental Engineering
Core Subjects: The curriculum usually includes courses in mathematics, physics, chemistry, programming, and engineering-specific topics. You'll also gain hands-on experience through labs and projects.
Internships and Co-ops: Many engineering students participate in internships or cooperative education (co-op) programs to gain practical, real-world experience. This is essential for networking and improving job prospects after graduation.
2. Professional Development:
Licensing: In many fields of engineering, particularly civil and structural engineering, professional licensing is required to work as a licensed professional engineer (PE). This often involves:
Completing a degree from an accredited engineering program.
Gaining work experience (typically 4 years under the supervision of a licensed engineer).
Passing exams (the Fundamentals of Engineering (FE) exam and the Principles and Practice of Engineering (PE) exam).
Certifications: Depending on your specialty, you may pursue certifications (e.g., in project management, software, or industry-specific technologies) to improve your qualifications.
Continuous Learning: Engineering is a rapidly evolving field. Engineers often pursue advanced degrees (master’s or doctorate) or professional development courses to stay current with new technologies, methodologies, and tools.
3. Entering the Workforce:
Job Roles: After earning a degree, you can apply for various entry-level engineering positions. These roles often include titles like:
Design Engineer
Process Engineer
Research & Development Engineer
Manufacturing Engineer
Software Engineer
Systems Engineer
Responsibilities: Depending on the field and position, your duties could involve designing products or systems, analyzing data, testing prototypes, managing projects, and solving technical challenges.
Industries: Engineers work in many sectors, such as technology, healthcare, automotive, aerospace, energy, construction, and environmental sustainability.
4. Career Growth and Specialization:
Advancement: Over time, engineers can advance in their careers by taking on more complex projects or leadership roles. Some may move into management or executive positions, such as Engineering Manager, Director of Engineering, or Chief Technology Officer (CTO).
Specialization: Engineers often choose to specialize in a particular sub-field, such as:
Robotics
Machine Learning or Artificial Intelligence (AI)
Renewable Energy
Nanotechnology
Data Science
Biotechnology
Entrepreneurship: Some engineers choose to start their own companies, especially those in tech, software, or product design. Engineering skills provide a solid foundation for launching tech startups or consulting businesses.
5. Work Environment and Culture:
Team-Based: Engineering projects are often collaborative, involving teams of professionals such as other engineers, technicians, designers, and business managers.
Workplaces: Engineers work in various environments:
Office: Many engineers, especially those in design and software engineering, work in office settings.
Lab/Field: Engineers in research, product testing, construction, or certain industrial sectors often spend time in labs, factories, or at construction sites.
Remote: With the rise of digital technology, many engineers, particularly in software and IT, have the option of remote work.
6. Salary and Job Outlook:
Earnings: Engineering is generally a well-compensated field. Entry-level engineers can expect to earn competitive salaries, which increase with experience, education, and specialization. Salaries vary by engineering discipline, industry, and location.
Job Demand: Engineering jobs are typically in high demand due to the constant need for innovation and problem-solving in industries ranging from tech to infrastructure. According to many labor forecasts, engineering will continue to have strong growth prospects, with emerging fields like renewable energy, AI, and cybersecurity driving additional demand.
7. Work-Life Balance:
Varied Hours: Engineers may work in standard office hours, but some roles, especially in manufacturing, construction, or research, may require longer hours or shift work, especially if deadlines are tight or there are field requirements.
Job Satisfaction: Many engineers report high job satisfaction because their work directly impacts the development of new technologies and the improvement of society. However, the workload can be demanding, and certain industries (like tech or aerospace) might have competitive or high-stress environments.
8. Transitioning or Changing Careers:
Engineering offers versatility. Many engineers can transition into different fields within engineering or even outside of engineering. For example:
Software engineers often move into data science, cybersecurity, or product management.
Mechanical engineers might transition to roles in operations, logistics, or industrial management.
Some engineers switch to teaching, consulting, or business development.
Final Thoughts:
A career in engineering is dynamic and offers many opportunities for growth, innovation, and impact. It's well-suited for individuals who are problem-solvers, analytical thinkers, and interested in improving or creating new systems and technologies. The pathway involves a combination of education, hands-on experience, and continuous learning to keep pace with the ever-evolving demands of the industry. Whether you are designing the next generation of smartphones, building bridges, or developing sustainable energy solutions, engineering offers a fulfilling and intellectually stimulating career.
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Jamie’s Answer

Adam's response is impressively comprehensive. However, I can only speak from my own journey, which began within the telecommunications sector, focusing on the data aspects. My role involved configuring orders that would initiate the necessary tasks, such as modifying switches or adjusting bandwidth allocation whenever a customer altered their order, and so on. The company generously offered a complimentary technical course in electrical and telecommunications engineering, which I seized and transformed into college credit. This opened up the path for me to advance into construction and engineering, where I started building facilities and collaborating with contractors to establish our landline facilities and wireless infrastructure. For me, engineering was less of a predetermined goal and more of an exciting opportunity.
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Cody’s Answer

Let's begin by figuring out which field of engineering sparks your interest. Remember, the journey to each specialty can be quite unique. Don't worry, it's a fun process!
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Glenn’s Answer

Your journey is unique and that's what makes it special, so I'll take the time to provide a tailored response.

The foundation of engineering begins with aptitude and education. Essentially, engineering is the practical application of physics, which means it requires a strong grasp of math and science. During your high school years, aim to take the most advanced math and physics classes available to you. Additionally, participating in activities like robotics clubs or other hands-on science projects can be incredibly beneficial. Having a natural curiosity about how things work is also a great advantage. Don't be afraid to experiment and tinker with any electro-mechanical products you come across - disassemble them before discarding them.

Embarking on an engineering degree can be tough. It's a whirlwind of new information, homework, projects, and lab work. But remember, perseverance is key. Don't let challenges discourage you. While at university, consider taking project-based or advanced courses that can make you stand out when applying for jobs.

I was lucky enough to start my career in design, and I've been there ever since. I've had the opportunity to work on a wide array of products, ranging from consumer electronics to medical devices. I've been able to apply concepts from the consumer sector to the medical device industry, solving problems in unique ways compared to my colleagues who only worked on medical device product development.

In product development, the cycles can range from 6 months to 5 years, depending on the complexity of the project. Our work involves everything from gathering requirements and selecting components, to designing parts. We also collaborate with other engineering teams, factories for assembly, suppliers for manufacturing components, and quality control teams. I've had the chance to work with suppliers all over the globe and have visited suppliers in more than 10 different countries.
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