Bachelor of Civil Engineering (Honours) / Bachelor of Mathematics

5 Years On Campus Bachelors Program

University of Newcastle

Program Overview

The Bachelor of Civil Engineering (Honours) / Bachelor of Mathematics at the University of Newcastle is a unique dual degree that combines hands-on engineering with advanced mathematical problem solving. It’s perfect for students who enjoy designing real-world infrastructure while also exploring the analytical and abstract thinking that mathematics provides, giving you a strong foundation to tackle complex challenges in engineering and beyond.

Curriculum structure

Year 1
In your first year, you’ll build the essential foundations for both engineering and mathematics. You’ll study units like Engineering Mathematics and Engineering Design, alongside mathematics courses such as Calculus and Linear Algebra. This year is all about developing your problem-solving skills and learning to think critically in both technical and theoretical contexts.

Year 2
The second year takes your skills further with civil engineering units like Structural Mechanics and Water Engineering, where you explore how materials and systems behave in real-world infrastructure. At the same time, your mathematics studies will cover Complex Analysis and Mathematical Modelling, helping you apply theory to practical situations and real-world data.

Year 3
By the third year, you’ll move into more specialised engineering areas such as Geomechanics and Transportation Engineering, focusing on how structures and systems perform under different conditions. Your mathematics courses may include Statistics and Mathematical Discovery, strengthening your ability to analyse patterns, test ideas, and tackle complex problems. This year blends practical engineering design with deeper theoretical thinking.

Year 4
In your fourth year, you’ll face advanced engineering challenges with units like Civil Engineering Materials and Engineering Management, preparing you for professional practice and leadership. On the mathematics side, you may study higher-level topics that continue to develop your analytical and modelling skills. This stage bridges the gap between theory and real-world engineering practice.

Year 5
In your final year, you’ll complete honours projects and advanced design work that showcase your abilities as a future civil engineer. Mathematics units will provide opportunities for further exploration of complex problems and modelling. By the end of this year, you’ll graduate ready to step confidently into professional engineering roles or further study.

Focus areas (in a string):

Structural engineering, water systems, geomechanics, transportation engineering, calculus, complex analysis, mathematical modelling, statistics

Learning outcomes (in a string):

Apply civil engineering principles, solve complex engineering problems, conduct mathematical analysis, model systems, communicate technical concepts effectively, integrate engineering and mathematical skills

Professional alignment (accreditation):

Accredited by Engineers Australia and recognised internationally under the Washington Accord

Reputation (employability rankings):

The University of Newcastle is recognised globally for engineering and mathematics, with strong graduate employment outcomes for engineering students

Experiential Learning (Research, Projects, Internships etc.)

The Bachelor of Civil Engineering (Honours) / Bachelor of Mathematics at the University of Newcastle is designed so that you’re not just learning theory — you’re doing engineering and mathematics in action. From day one, you’ll have opportunities to apply your skills in real-world projects, work with industry-standard tools, and gain hands-on experience that prepares you for professional life. The program combines practical labs, fieldwork, and team-based projects to make sure you graduate with confidence and experience:

Professional practice placements: Civil engineering students complete at least 12 weeks of industrial experience, giving you real workplace exposure and the chance to build professional connections before you graduate.
Hands-on engineering labs: You’ll use state-of-the-art laboratories for structural testing, geotechnical assessments, and materials analysis, helping you understand how infrastructure behaves in the real world.
Mathematics and computing resources: Modern computer labs and software tools allow you to model, analyse, and solve complex problems across both mathematics and engineering subjects.
Collaborative projects: You’ll work in teams on engineering and mathematical challenges, developing both technical skills and the teamwork abilities expected in professional environments.
Fieldwork and site experience: You’ll get out of the classroom for site visits, surveying exercises, and environmental monitoring, giving you first-hand insight into infrastructure and environmental systems.
Research facilities: The university’s research centres and purpose-built facilities support advanced projects and allow you to explore specialised areas of interest alongside your core studies.

Progression & Future Opportunities

Graduating from the University of Newcastle with a Bachelor of Civil Engineering (Honours) / Bachelor of Mathematics gives you the skills and experience to step straight into meaningful and rewarding careers. You’ll be equipped to work on real-world infrastructure projects while applying advanced analytical skills, and typical roles for graduates include civil engineer, structural engineer, transport systems planner, or data-modelling specialist:

Career support services: The university’s Career Development Centre helps you every step of the way, offering guidance on resumes, interview preparation, networking events, and work placement opportunities to connect you with employers.
Employment outcomes: Newcastle engineering graduates enjoy strong career prospects, with the majority finding work soon after graduation, reflecting the high demand for engineers with practical and analytical skills.
Industry experience built in: Through mandatory industrial experience placements, you gain hands-on exposure to engineering workplaces, build professional connections, and apply what you’ve learned in real projects.
Accreditation and recognition: Your civil engineering degree is accredited by Engineers Australia and recognised internationally under the Washington Accord, giving your qualification long-term value both in Australia and abroad.
Graduate opportunities: With training in both civil engineering and mathematics, you’ll be well prepared for a variety of roles, from infrastructure design and project management to data analysis and systems modelling, making your skill set highly versatile.

Further Academic Progression:

If you wish to take your studies further, there are plenty of options. Many graduates pursue a Master of Professional Engineering or other specialised master’s programs to deepen their technical knowledge or focus on areas like structural design, water resources, or environmental engineering. Research-focused pathways, including a PhD, are also available, opening doors to careers in advanced technical leadership, innovation, or academia, giving you even more opportunities to shape your future.