Bachelor of Civil Engineering (Honours) / Bachelor of Mathematics

5 Years On Campus Bachelors Program

University of Newcastle

Program Overview

This combined honours degree brings together the practical application of civil engineering with the analytical strength of mathematics, giving students a unique skill set that is highly valued across engineering, infrastructure, and data-driven industries. It is ideal for students who enjoy solving complex problems and want to develop expertise in both engineering systems and advanced mathematical modelling.

Curriculum structure:

Year 1
In the first year, students build a strong foundation in mathematics, physics, and engineering through subjects such as Mathematics for Engineering, Science and Technology 1, Mathematics for Engineering, Science and Technology 2, Fundamentals of Engineering Physics, and Introduction to Engineering Programming with Python. This year focuses on developing analytical thinking, scientific understanding, and programming skills that support both disciplines.

Year 2
In the second year, students begin studying core civil engineering and mathematical concepts through courses such as Fundamentals of Engineering Mechanics, Earth Systems, Mathematical Modelling, and Calculus of Science and Engineering. They learn how mathematical techniques can be used to solve engineering and infrastructure challenges.

Year 3
In the third year, students strengthen their technical knowledge through subjects including Structural Analysis 1, Civil Engineering Materials, Transportation Engineering and Design, Linearity and Continuity 1, and Predictive Analytics. This stage focuses on analysing engineering systems while developing advanced quantitative and statistical skills.

Year 4
In the fourth year, students undertake advanced studies in both disciplines through courses such as Reinforced Concrete Design, Steel Design, Hydrology, Complex Analysis, and Ordinary Differential Equations and Applied Linear Algebra. Students learn to apply sophisticated mathematical methods to infrastructure design and engineering decision-making.

Year 5
In the final year, students complete honours-level studies through Geotechnical Engineering, Water Engineering, Engineering Work Integrated Learning, and major project courses such as Structural Engineering Project or Water Engineering Project. This year combines industry experience, research capability, and advanced engineering problem-solving to prepare graduates for professional practice.

Focus areas: Civil engineering, structural engineering, water engineering, geotechnical engineering, mathematical modelling, statistics, predictive analytics, applied mathematics, infrastructure design

Learning outcomes: Advanced engineering design capability, mathematical problem-solving, statistical analysis, predictive modelling, infrastructure planning, project management, research skills, professional communication, and teamwork

Professional alignment (accreditation): The civil engineering component is accredited by Engineers Australia, providing graduates with professional recognition and supporting engineering career opportunities in Australia and internationally.

Reputation (employability rankings): The University of Newcastle is recognised globally for civil and structural engineering and has strong graduate employment outcomes, with around 94.9% of engineering graduates employed within four months of graduation.

Experiential Learning (Research, Projects, Internships etc.)

At the University of Newcastle, students pursuing the Bachelor of Civil Engineering (Honours) and Bachelor of Mathematics programs are immersed in a rich environment that emphasizes experiential learning. This hands-on approach not only enhances theoretical knowledge but also equips students with practical skills that are essential for their future careers. With state-of-the-art facilities and cutting-edge tools, students can engage in real-world projects, collaborate with peers, and gain invaluable experience that sets them apart in the job market.

Here are some key aspects of the experiential learning opportunities available in these programs:

- Engineering Design Studio: A dedicated space where students can work on design projects, utilizing advanced software and tools to bring their ideas to life.
- Mathematics Learning Centre: A resource hub offering tutoring, workshops, and access to specialized software for mathematical modeling and analysis.
- Field Trips: Regular excursions to construction sites and engineering projects, providing students with firsthand experience of industry practices and challenges.
- Group Projects: Collaborative assignments that encourage teamwork and problem-solving, simulating real-world engineering and mathematical challenges.
- Internships: Opportunities to work with industry partners, gaining practical experience and networking within the engineering and mathematics sectors.
- Research Laboratories: Access to specialized labs for civil engineering research, including materials testing and structural analysis.
- Digital Tools: Proficiency in industry-standard software such as AutoCAD, MATLAB, and other engineering and mathematical modeling tools.
- Libraries and Study Spaces: Comprehensive resources, including access to engineering and mathematics journals, textbooks, and study areas designed for collaborative work.

These experiential learning opportunities not only enhance your academic journey but also prepare you for a successful career in civil engineering or mathematics.

Embarking on this educational path will not only enrich your knowledge but also empower you with the skills and experiences that employers are looking for. Consider applying today!

Progression & Future Opportunities

Graduating with a Bachelor of Civil Engineering (Honours) and a Bachelor of Mathematics from the University of Newcastle opens up a world of opportunities. You’ll be well-prepared for a variety of roles in the engineering and mathematics fields, such as:

- Civil Engineer
- Structural Engineer
- Data Analyst
- Project Manager

Here’s how the University of Newcastle supports your journey towards a successful career:

- Career Services: The university offers dedicated career support, including resume workshops, interview preparation, and networking events with industry professionals.
- Employment Statistics: Graduates from this program enjoy a high employment rate, with many securing jobs within six months of graduation. The average starting salary for engineering graduates is around $70,000, with potential for growth as you gain experience.
- University–Industry Partnerships: The University of Newcastle has strong connections with leading companies and organizations, providing students with opportunities for internships and real-world projects that enhance learning and employability.
- Accreditation: The program is accredited by Engineers Australia, ensuring that your degree meets the highest industry standards and is recognized globally.
- Graduation Outcomes: Graduates are equipped with both technical skills and critical thinking abilities, making them highly sought after in various sectors.

Further Academic Progression: After completing this dual degree, you can choose to further your studies by pursuing a Master’s degree in Civil Engineering, Mathematics, or even specialized fields such as Environmental Engineering or Data Science. This can enhance your expertise and open doors to advanced career opportunities, including research positions or leadership roles in engineering projects.

The University of Newcastle is committed to your success, providing you with the tools and connections you need to thrive in your future career.