Bachelor of Engineering Honours(Civil Engineering) and Bachelor of Science

5 Years On Campus Bachelors Program

University of Sydney

Program Overview

The Bachelor of Engineering Honours (Civil Engineering) and Bachelor of Science at the University of Sydney is a versatile double degree that combines advanced engineering design with scientific depth, ideal for students who want to solve complex infrastructure challenges using strong analytical and research skills. It suits those interested in blending practical engineering with disciplines like mathematics, physics, or environmental science to create innovative, evidence-based solutions.

Curriculum Structure:

Year 1

You’ll build a solid foundation with core units such as Introduction to Civil Engineering, Engineering Mechanics, and Calculus of One Variable, alongside Science subjects like Physics 1 or Chemistry 1A. This year develops your quantitative and scientific thinking essential for engineering problem-solving.

Year 2

Your engineering studies expand into Structural Analysis and Fluid Mechanics, while your Science major begins to take shape with intermediate units such as Linear Algebra or Environmental Systems. You’ll start linking scientific principles with engineering applications.

Year 3

You’ll dive deeper into civil engineering with Geotechnical Engineering, Transport Engineering, and Hydrology and Environmental Engineering. In Science, you’ll engage in higher-level coursework and laboratory work, strengthening your research and analytical capabilities.

Year 4

Advanced engineering topics like Reinforced Concrete Design and Construction Management prepare you for complex infrastructure challenges. Your Science studies will include specialised subjects aligned with your chosen major, enhancing your technical depth.

Year 5

In your final year, you’ll complete an Engineering Honours Project and a Capstone Design Project, applying both engineering and scientific knowledge to real-world problems. You’ll graduate with a strong combination of technical expertise and scientific insight.

Focus areas (in a string):

Structural engineering, environmental engineering, transport systems, applied mathematics, physics, environmental science

Learning outcomes (in a string):

Advanced engineering design and analytical skills, strong scientific reasoning, problem-solving using data and research, interdisciplinary thinking, effective technical communication

Professional alignment (accreditation):

Accredited by Engineers Australia (EA), supporting pathways to Chartered Professional Engineer status

Reputation (employability rankings):

The University of Sydney is consistently ranked among the top universities globally (QS World University Rankings) with strong graduate employability outcomes

Experiential Learning (Research, Projects, Internships etc.)

At the University of Sydney, this double degree is designed to immerse you in real-world engineering and scientific practice from the start. You’ll gain hands-on experience through advanced civil engineering labs, scientific research facilities, and digital tools that reflect industry and research environments—helping you connect theory with practical application across both disciplines.

Here’s how your learning becomes truly practical and research-driven:

Immersive Learning Laboratory: Experience virtual reality simulations of construction sites and infrastructure systems, allowing you to practise engineering decision-making in realistic environments
Fluids Laboratory & Wind Tunnel: Use water flumes and airflow testing systems to investigate fluid behaviour, environmental impacts, and structural responses
MTS 20 Meganewton Materials Testing Facility: Work with one of the Southern Hemisphere’s largest testing machines to analyse the strength and durability of construction materials
Sydney Centre in Geomechanics and Mining Materials (SciGEM): Access specialised labs for soil mechanics, particle analysis, and environmental geotechnics, supporting both engineering and science research
Science Laboratories & Research Facilities: Conduct experiments in physics, chemistry, or environmental science labs, gaining hands-on research skills aligned with your Science major
Engineering Capstone & Research Projects: Complete a final-year honours project and collaborative design projects, applying both engineering and scientific knowledge to real-world challenges
Industry Placements & Fieldwork: Gain exposure through internships, site visits, and field studies, helping you understand how engineering and science are applied in real settings
Specialised Software & Digital Tools: Use tools such as MATLAB, AutoCAD, and scientific data analysis software for modelling, simulation, and research
Access to Libraries & Institutes: Benefit from the University of Sydney’s extensive library system and research institutes, supporting innovation across engineering and science disciplines

Progression & Future Opportunities

Graduating from the Bachelor of Engineering Honours (Civil Engineering) and Bachelor of Science at the University of Sydney gives you a powerful combination of engineering expertise and scientific depth, opening doors to both industry and research-focused careers. You’ll be well-prepared to tackle complex infrastructure and environmental challenges using data-driven and analytical approaches. Typical career paths include Civil Engineer, Environmental Engineer, Structural Engineer, and Engineering Research Analyst:

Sydney Careers Centre Support: Access personalised career advice, resume and interview workshops, internship programs, and employer networking events tailored to engineering and science students
Strong Graduate Employability: The University of Sydney is consistently ranked among the top institutions globally for graduate employability (QS rankings), helping graduates secure roles in competitive industries
Competitive Salary Potential: Civil engineering and science graduates in Australia benefit from strong starting salaries, with significant growth in specialised technical and research roles
Industry & Research Partnerships: Engage with leading organisations such as Arup, Aurecon, and government research bodies, along with opportunities to work within university-led research institutes
Professional Accreditation Advantage: Accredited by Engineers Australia, enabling a clear pathway toward Chartered Professional Engineer status and global recognition
Global Career Opportunities: Your combined engineering and science skillset is highly valued worldwide, particularly in sustainability, infrastructure development, and research-driven industries
Strong Graduate Outcomes: Graduates move into roles across engineering firms, environmental consultancies, research organisations, and government agencies shortly after completing the program

Further Academic Progression:
After completing this degree, you can continue into advanced study such as a Master of Engineering (with specialisations like structural, environmental, or transport engineering) or pursue a Master of Science in your chosen discipline. If you’re interested in innovation or academia, you can also undertake a Master by Research or PhD, leading to careers in research, development, and leadership in complex engineering and scientific projects.