How Long Does It Take to Become an Engineer? Accelerate Your Career Path with iLearn Engineering®
Embarking on a career in engineering is a strategic decision that combines passion for problem-solving with long-term job security and lucrative opportunities. A common question for prospective engineers is: how long does it take to become an engineer? The answer varies depending on your chosen path, but with the right provider, you can significantly shorten the journey. iLearn Engineering® offers accredited, flexible online online engineering courses that help you qualify faster and more affordably than traditional university routes.
Typical Engineering Career Pathways
The traditional path to becoming an engineer varies by country, but commonly includes formal academic study and workplace experience. Here is a general overview with international examples:
- UK Pathway: GCSEs and A-Levels in science and mathematics (2 years), followed by a BEng or MEng degree (3-5 years), and workplace experience leading to professional status.
- International Baccalaureate (IB): Students complete the IB Diploma with strong emphasis on higher-level maths and physics before applying to engineering degrees worldwide.
- United States and Canada: High school diploma (with focus on STEM subjects) followed by a 4-year Bachelor of Science in Engineering. Some pursue postgraduate study (1-2 years) and licensure via FE/PE exams (USA).
- Australia: Senior Secondary Certificate of Education (Year 12) followed by a 4-year Bachelor of Engineering degree and optional chartership through Engineers Australia.
- European Union: Varies by country but typically involves a secondary school leaving certificate followed by a 3- to 5-year engineering degree under the Bologna Process framework.
In all systems, students often spend 6 to 10+ years from secondary education to becoming a fully qualified or chartered engineer.

Despite the global differences in education systems, the underlying requirement remains similar: a blend of academic training and practical experience, often via internships, cooperative education, or graduate schemes.
Traditionally, becoming a professional engineer involves the following stages:
- GCSEs and A-Levels (or equivalent): Focused on science and maths (2 years)
- University Degree (BEng or MEng): Typically 3-5 years full-time
- Workplace Experience: Gaining practical experience (1-3 years)
- Chartership or Professional Status (optional): Through bodies like the Engineering Council or IMechE. It’s worth noting that while chartered status can enhance a career, the majority of professionally employed engineers in the UK and internationally do not hold chartered status and still enjoy successful, fulfilling careers.
Altogether, this can take anywhere from 6 to 10+ years to reach full professional engineer status.
Accelerated Alternative Routes with iLearn Engineering®
For those looking for a faster, more flexible route into engineering, iLearn Engineering® offers a suite of accredited qualifications that can be completed online and at your own pace. These qualifications are available across all major engineering disciplines, including:
- Mechanical Engineering
- Electrical & Electronic Engineering
- Civil Engineering
- Aerospace Engineering
- Industrial and Manufacturing Engineering
- General Engineering
These flexible learning options ensure learners can access quality education tailored to specific career paths in high-demand sectors. These include:
- Higher International Certificate (HIC) – Level 4 (approx. 6-9 months): Leads to entry-level positions such as Engineering Assistant or CAD Technician.
- Higher International Diploma (HID) – Level 5 (approx. 12-18 months): Suitable for mid-level roles including Junior Engineer or Design Technician.
- International Graduate Diploma (IGD) – Level 6 (approx. 24-30 months): Equips learners for senior engineering roles or progression to postgraduate study.
This means it is possible to achieve a degree-equivalent engineering qualification in as little as 2.5 years, all while studying flexibly around your current commitments.
How Learning Flexibility Saves You Time
iLearn Engineering®‘s fully online learning environment means you can progress as quickly or as steadily as your lifestyle allows. There are no fixed start dates or exam schedules, so motivated learners can complete their studies significantly faster than in traditional formats.
Our students include career changers, school leavers, and working professionals looking to retrain – all benefiting from our accelerated model of education.
Real Success: Student Testimonials
Take the example of a recent Aerospace Engineering student who completed his diploma with iLearn Engineering® and secured a job with British Airways, all while working full-time. His story illustrates how, with dedication and the right support, learners can transform their futures quickly and efficiently.
Engineering Specialisations Available
With iLearn Engineering®, you can choose from a wide range of high-demand disciplines, including:
- Aerospace Engineering
- Mechanical Engineering
- Electrical & Electronic Engineering
- Civil Engineering
- Manufacturing & Industrial Engineering
- Renewable & Environmental Engineering
Each course is designed to help you enter your chosen industry with confidence and competence.
Align Speed with Success
Engineering doesn’t have to be a 10-year journey. With iLearn Engineering®, you can take control of your career and accelerate your path to a rewarding future. Whether you’re starting fresh or upskilling, our online engineering courses give you the tools to succeed on your timeline.
Take the Fast Track to Your Engineering Career
Recent Posts
From Raw Material to Refined Component: The Role of Drilling and Turning
From Raw Material to Refined Component: The Role of Drilling and Turning Secondary processes are used in manufacturing to further modify the output of primary manufacturing processes in order to improve the material properties, surface quality, surface integrity, appearance and dimensional tolerance. In this blog, we will focus on drilling and turning as secondary manufacturing […]
Behind the Cutter: How Milling Shapes the Future of Manufacturing
Behind the Cutter: How Milling Shapes the Future of Manufacturing Secondary processes are used in manufacturing to further modify the output of primary manufacturing processes in order to improve the material properties, surface quality, surface integrity, appearance and dimensional tolerance. In this blog, we will focus on milling as a secondary manufacturing process. Machining refers […]
What is joining and why is it important in Engineering?
What is joining and why is it important in Engineering? Joining can be considered the third primary manufacturing process, it is an important step in the manufacture of parts with complex shapes, or unusual geometric features. Using the primary processes of casting and forming, it may not be technically or economically feasible to create parts […]