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6 Years On Campus Bachelors Program
University of New South WalesThe Bachelor of Science (Advanced Mathematics) (Honours) / Bachelor of Engineering (Honours) at UNSW Sydney combines advanced mathematics with professional engineering training in a highly analytical and hands-on degree. It is designed for students who enjoy problem-solving, innovation and quantitative thinking, and want to apply mathematics to real-world engineering, technology and scientific challenges.
Curriculum structure
Year 1
In your first year, you build strong foundations in mathematics, physics, computing and engineering design. Subjects such as Higher Mathematics 1A, Higher Mathematics 1B and Introduction to Engineering Design and Innovation help you develop logical thinking, quantitative reasoning and engineering problem-solving skills.
Year 2
In second year, you continue with advanced mathematics while beginning more focused engineering studies. Students strengthen their understanding through subjects such as Discrete Mathematics, Linear Algebra and core engineering courses that build technical analysis and practical engineering knowledge.
Year 3
In third year, learning becomes more specialised and application-focused. Advanced mathematics subjects develop skills in modelling, statistics and analytical methods, while engineering studies focus on solving complex technical and design problems within your chosen engineering discipline.
Year 4
Fourth year focuses on advanced engineering applications and honours-level mathematics. Students work on research, technical design and interdisciplinary projects that combine advanced mathematical methods with engineering innovation and practical problem-solving.
Year 5
In fifth year, you deepen your engineering expertise through specialised electives, industry projects and advanced technical learning. This stage strengthens professional practice, leadership and applied analytical skills relevant to engineering and technology industries.
Year 6
The final year includes honours-level research, advanced engineering projects and independent analytical work. Students graduate with strong technical, mathematical and research capabilities that prepare them for specialised careers or postgraduate study.
Focus areas (in a string):
Advanced mathematics, applied mathematics, engineering design, statistics, modelling, data analysis, computational methods, problem-solving, engineering systems, research and innovation
Learning outcomes (in a string):
Apply advanced mathematical methods to engineering problems, design innovative engineering solutions, analyse complex systems, conduct research and technical investigations, solve quantitative challenges, communicate technical information effectively, manage interdisciplinary projects, demonstrate professional engineering practice
Professional alignment (accreditation):
The Engineering (Honours) component is fully accredited by Engineers Australia at the Professional Engineer level, with international recognition through the Washington Accord.
Reputation (employability rankings):
UNSW Sydney is globally recognised for excellence in Engineering, Mathematics and Technology-related disciplines and is known for strong graduate employability, research excellence and industry engagement.
At the University of New South Wales (UNSW), students pursuing the Bachelor of Science (Advanced Mathematics) (Honours) / Bachelor of Engineering (Honours) 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 in today’s job market. With access to state-of-the-art facilities and cutting-edge tools, students can engage in real-world projects, collaborate with peers, and gain invaluable experience that prepares them for their future careers.
Here are some key aspects of the experiential learning opportunities available in these programs:
- Group Projects: Collaborate with fellow students on complex engineering and mathematics problems, fostering teamwork and communication skills.
- Internships: Gain industry experience through structured internships with leading companies, allowing you to apply your knowledge in a professional setting.
- Software Tools: Utilize industry-standard software such as MATLAB, Python, and AutoCAD, which are essential for engineering design and mathematical modeling.
- Laboratories: Access specialized laboratories, including the Engineering Design Studio and Mathematics Research Labs, where you can conduct experiments and research.
- Field Trips: Participate in field trips to engineering sites and research institutions, providing insights into real-world applications of your studies.
- Research Institutes: Engage with research initiatives at UNSW, such as the Centre for Quantum Computation & Communication Technology, where you can contribute to groundbreaking projects.
- Libraries and Resources: Benefit from extensive library resources, including access to academic journals, databases, and study spaces tailored for engineering and mathematics students.
These experiential learning opportunities not only enhance your academic experience but also significantly boost your employability upon graduation. If you’re ready to take the next step in your education and career, consider applying to UNSW’s Bachelor of Science (Advanced Mathematics) (Honours) / Bachelor of Engineering (Honours) programs.
Graduating with a Bachelor of Science (Advanced Mathematics) (Honours) / Bachelor of Engineering (Honours) from the University of New South Wales (UNSW) opens up a world of opportunities. You’ll be well-prepared for a variety of roles in high-demand fields, such as data analyst, software engineer, and systems engineer. The combination of advanced mathematics and engineering principles equips you with the skills to tackle complex problems and innovate in technology-driven industries.
Here’s what you can expect in terms of progression and future opportunities:
- University Services: UNSW offers dedicated career services, including resume workshops, interview preparation, and networking events with industry leaders. The UNSW Careers and Employment team also provides personalized career advice and job placement assistance.
- Employment Stats and Salary Figures: Graduates from this program enjoy impressive employment rates, with around 90% securing jobs within four months of graduation. The average starting salary for graduates in engineering and mathematics fields is approximately AUD 70,000 to AUD 80,000 per year, depending on the specific role and industry.
- University–Industry Partnerships: UNSW has strong connections with leading companies such as Google, Microsoft, and various engineering firms, providing students with internship opportunities and real-world project experience that enhances employability.
- Long-term Accreditation Value: The program is accredited by Engineers Australia, ensuring that your degree meets the highest professional standards and is recognized globally, which is crucial for a successful career in engineering.
- Graduation Outcomes: Graduates are well-equipped to pursue careers in diverse sectors, including finance, technology, and research, with many alumni going on to hold leadership positions in their fields.
Further Academic Progression: After completing this program, you have several options for further studies. You could pursue a Master’s degree in fields such as Data Science, Applied Mathematics, or Engineering Management. Additionally, if you’re interested in research, you might consider enrolling in a PhD program, which can lead to advanced research opportunities and academic careers. This pathway not only deepens your expertise but also enhances your career prospects in academia and industry.
Choosing UNSW for your studies in Advanced Mathematics and Engineering is a step towards a bright and successful future!
Assumed knowledge Mathematics Extension 1 plus, for some Engineering disciplines, Physics or ChemistryA-level: A*AA Equivalent to 16.0 points. A levels score is based on four Advanced Level (A2) subjects. Entry scores are calculated from the best three or four A2 subjects (excluding repeated subjects)Students currently attempting the IB Diploma or Bilingual Diploma can apply directly to UNSW or through the Universities Admissions Centre (UAC).Graduates of Advanced Mathematics (Honours) combined with Engineering (Honours) typically earn a median starting salary of around AUD 85,000–110,000 per year, with strong opportunities in engineering, analytics, technology, finance and research sectors.English language Requirements: IELTS: 6.5 Overall (Min: 6.0 in listening, 6.0 in reading, 6.0 in writing and 6.0 in speaking) or TOEFL(iBT) 90.0 Overall (Min: 22.0 in reading, 22.0 in listening, 22.0 in speaking and 23.0 in writing)Scholastic Aptitude Test (SAT) based on the total of evidence-based reading and writing and mathematical test scores. Must be provided in conjunction with evidence of successful completion of senior secondary studies.Artificial intelligence specialistCivil or structural engineerData scientist or analystEnvironmental engineerFinancial modellerMathematician or statisticianOperations research analystQuantitative analystRenewable energy engineerResearch scientistRobotics or mechatronics engineerSoftware engineerSystems engineer
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