Quiz: Which engineering discipline should you study?
Study International Staff
17 May 2019
Engineering is a popular path for many who excel in STEM subjects.
Engineering is a broad subject that encompasses many specific fields, some which overlap and some which are drastically different.
An Engineering degree can set you up for a bright and rewarding career as engineers are highly sought-after by employers. These are the people who design new processes and come up with innovative solutions that impact our daily lives.
It offers great job prospects as engineers are highly paid professionals, valued for their skill and technical knowledge.
While some students find it easy to decide which field to head into, others struggle to settle on the best route for them.
The programme can be challenging and rigorous no matter the chosen discipline, so it’s wise to determine which field you would be most keen pursue long before starting college.
Take this quiz to find out this type of engineer you are – based on six of the most popular engineering degrees: computer engineering, civil engineering, mechanical engineering, biomedical engineering, electrical engineering and chemical engineering.
Which of the following would you consider an interesting class?
What's your ideal working environment?
Are you interested in medical sciences or healthcare?
Do you like designing and working with machines and mechanical systems?
What about buildings - can you see yourself designing them and working on-site?
Are you comfortable handling electrical wiring and circuits?
Are you interested in fixing and designing computer hardware?
Would you be keen on doing research and writing reports during your academic career and future job?
Quiz: What type of Engineer should you be?
It looks like you will do well in the field of biomedical engineering, given your interest in medical sciences. Biomedical engineering is basically the application of engineering principles and design concepts to medicine and biology for healthcare and medical-related purposes. It's a rewarding career, as biomedical engineers typically design devices that potentially save lives, driving medical breakthroughs.
It looks like the field of chemical engineering is the right fit for you. Chemical engineers are highly sought-after in many industries. They typically apply the principles of chemistry, biology, physics, and maths to solve problems involving chemicals, drugs, food, and the like. Many engineers do research to develop new processes and chemicals. The job outlook is promising, as chemical engineers are in demand worldwide.
Computer engineers are typically tasked with designing computer hardware/software and creating innovative solutions in the rapidly growing field of computers. Therefore, an interest in computers and how they work is a must. It's a specialised degree, differing from Computer Science (which mainly focuses on software). It's commonly known as an integration of computer science and electrical engineering, so if you're keen on both, you'll be suited to study computer engineering.
An electrical engineer is typically responsible for designing and developing electrical equipment, as well as testing them and solving problems related to wiring and electrical devices. With today's world being heavily dependent on electronics and electricity, this job is always in demand and electrical engineers often enjoy successful careers. It's also good for those who like to be on-the-go and work outside a traditional lab or office environment.
Looks like you'll enjoy being a mechanical engineer! Mechanical engineering is one of the broadest and most popular engineering disciplines. Mechanical engineers design mechanical systems and work with machines to come up with innovative solutions that work across many industries. It's closely linked to aerospace engineering and many schools offer dual programmes to accommodate the overlapping subjects.
Seems like you have a thing for buildings! Civil engineers design and apply their knowledge towards the construction and safety of buildings, as well as public works like dams, train systems, pipelines and more. It often requires engineers to be on-site, and they tend to work closely with environmental engineers to design buildings that don't do further damage to the environment.