Bachelors of Mathematics / Computer Science

Did you know that mathematical modelling enables scientists to better understand infectious diseases?

Study applied mathematics and learn how advanced mathematical methods are used to develop practical solutions to a variety of real-world problems.

Develop your critical thinking skills and learn advanced mathematical techniques for approaching problems in a logical, analytical and creative manner.

Build your foundational knowledge in core topics such as applied mathematical analysis, mathematical modelling and numerical methods used in computer programming.

You'll then have the opportunity to apply your expertise in areas of interest such as natural resources and environmental modelling, or biological science.

You may also choose to combine your major with a minor in bioinformatics, computational science, computer science, physics or statistics.

This major will prepare you for a diverse range of career opportunities in sectors such as financial services, engineering, technology and sciences.

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As computers become increasingly interconnected and support more services than ever, system security becomes more challenging and more crucial.

By studying cyber security, you'll learn the fundamental processes and practices to protect computing systems from attack, damage or unauthorised access.

You'll study secure programming techniques and ethical hacking to safeguard individuals, businesses and governments against cybercrime, and you'll graduate with highly valued and employable skills.

Career paths can lead to roles such as cyber security analyst, cyber systems engineer or information security officer.

Join a growing industry

• Cyber security specialist was the #2 emerging job of 2020 (LinkedIn 2020 Emerging Jobs Report).
• By 2026, Australia will need 18,000 more cyber security workers.
• Australia’s external spending on cyber security products and services grew by 8 per cent in 2018 to $3.9 billion (Australian Cyber Security Growth Network).

View

Our world is creating more data than we can process, which presents enormous challenges associated with storage, management and analysis.

You'll learn comprehensive and fundamental techniques for end-to-end processing that transforms data into information, and prepare to become one of the new breed of data science professionals.

This major will prepare you for a career in government departments, consultancy or private sector organisations.

Join a growing industry

• The rise of big data means data scientists are now some of the most in-demand professionals in the world.
• Data scientist was the #7 top emerging job of 2020 (LinkedIn 2020 Emerging Jobs Report).

View

Machine learning is the study of algorithms that automatically improve with experience.

These algorithms allow computers to do things like automatically identify and harness useful data to help decision-making, find hidden insights without being explicitly programmed where to look, and predict outcomes to help authorities design effective policies.

You'll graduate with skills at the forefront of this massive growth area, as society looks for automated solutions to enhance business and our lives through the use of computing systems and data.

These skills can be applied in government departments, consultancy or private sector organisations.

Join a growing industry

• Artificial intelligence specialist was the #1 emerging job of 2020 (LinkedIn 2020 Emerging Jobs Report).
• AI could contribute up to $15.7 trillion to the global economy in 2030 (PwC research).
• New AI technologies will require highly skilled workers who can develop and maintain complex systems and applications.

View

Artificial Intelligence (AI) is now key to accelerating scientific discovery, engineering advancements and driving innovation and efficiency in business, government and other organisations.

This major equips you with a deep understanding of mathematical concepts and techniques essential for AI. These include statistics, linear algebra, calculus, numerical methods and advanced machine learning techniques like deep learning and optimisation.

By combining these mathematical methods with AI approaches, you’ll be able to effectively analyse complex data, develop AI models and automate decision-making processes.

The focus is on theoretical depth while also covering software development, preparing you for both academic research and industry needs.

You'll graduate ready for a range of careers in AI research, data science and machine learning engineering, driving innovation and solving real-world challenges across diverse industries.

You can combine this major with a minor in bioinformatics, computational science, computer science or physics.

View

This major focuses on the mathematical foundations of modern physical theories.

It also examines the mathematical understanding that underpins a broad range of contemporary sciences, including statistical mechanics, relativity and quantum theory. You'll learn how to understand and describe nature at its most fundamental levels.

This major not only prepares you for research in mathematical physics and related disciplines, but also fosters creativity and develops high-level skills in critical and analytical thinking, which are paramount in problem-solving.

You may choose to combine your major with a minor in bioinformatics, computational science, physics or statistics.

View

In today’s data-driven world, optimisation plays a critical role across industries—from machine learning and artificial intelligence to supply chain management, finance, healthcare, energy, and beyond.

This major equips you with the mathematical expertise and analytical tools to tackle real-world challenges, enabling you to optimise decision-making, improve efficiency, and solve intricate problems such as financial planning, resource allocation, and logistics. 

It bridges deep theoretical foundations with hands-on skills in programming and practical applications, preparing you for a dynamic career in research or industry.  

Whether your passion lies in advancing predictive models, designing smarter networks, or driving resource innovation, this major provides the specialised knowledge and versatility needed to stand out in the fields of science, engineering, and beyond. 

View

Programming languages are the building blocks of software.

Covering the different paradigms of programming, this major focuses on the design of computer languages that can be easily used to create programs.

You will study the craft and science of programming, and graduate with the skills to enable the construction of effective programming languages and reliable software.

Career paths often lead to roles in government departments, consultancy or private sector organisations.

Programming opens doors beyond tech

• Programmers write software that can be used to create websites, build computer networks, help doctors treat patients, or even drive a car.
• Half of all programming roles are in finance, manufacturing, health care, and other sectors outside of the technology industry.
• Coding skills can take you places: data analytics, scientists, engineers and designers all use coding.

View

This major is focused on the intrinsic nature and fundamental properties of mathematics, and recognises its ubiquity, universality and beauty.

You'll develop high-level skills in critical, analytical and abstract thinking, and study frameworks for deeper understanding of other areas of mathematics, such as applied mathematics, mathematical physics and statistics.

You'll also have the opportunity to acquire a solid grounding in the key areas of pure mathematics, as well as opportunities to undertake focused study in advanced courses.

You may choose to combine your major with a minor in bioinformatics, computational science, physics or statistics.

View

You will study algorithms for mathematical analysis.

Computers hold the key for fast and efficient analysis of complex scientific problems. However, computers are digital systems, requiring discrete inputs and outputs, while mathematical analysis often relies on continuous functions. Therefore, careful approximations are necessary to enable computers to analyse complex mathematical functions.

You'll graduate with skills used in various scientific endeavours, including in hospitals and university medical research, and big pharmaceutical and petrochemical companies across the public and private sectors.

Join a growing industry

• Help solve the complex scientific problems of the future using mathematical analysis.
• The digital technology sector is one of the fastest growing parts of Australia’s economy.
• Data engineer was the #8 emerging job of 2020 (LinkedIn 2020 Emerging Jobs Report).

View

Apply the tools of modern statistics and data science to inform data-driven decision making and solve real-world problems.

In this major, you will learn and apply statistical techniques to analyse and interpret complex data, and transform it into meaningful insights.

Professionals in this field work to improve medical treatments through data-driven experimental designs and leverage meteorological and spatial data to assess and mitigate drought conditions in local communities.

You will combine theory with practical experiences that challenge your thinking, expand your analytical capabilities and develop your technical skills.

As a graduate, you’ll be in high demand across business, industry, research and government. You’ll play a vital role in forecasting, analysing and solving complex problems in diverse fields.

You may choose to combine your major with a minor in bioinformatics, computational science, computer science, physics or science communication.

View

More industries are embracing genetic technologies. Study bioinformatics and help shape the way we manage our health and environment.

Gain specialised knowledge in statistics, data management, computer programming, genomics and molecular biology.

You’ll apply your scientific expertise and technical skills to translate complex biological data into meaningful information. Your insights may lead to new innovations or discoveries.

Studying bioinformatics will prepare you for a wide range of opportunities in scientific research organisations, universities, government departments, and the biotechnology or pharmaceutical industries.

View

Apply your technical skills and mathematical knowledge to translate complex data into meaningful insights that help shape our future.

Recent advances in technology give scientists the ability to collect and process more data than ever before.

Computational science combines fundamental principles from computer science, mathematics and statistics to solve scientific problems across any specialist field.

Develop your skills in computational thinking and apply computational problem-solving strategies to design algorithms for collecting, processing and analysing vast amounts of data from various sources.

Apply your programming skills to construct large-scale mathematical models and simulations to analyse and interpret real-world data and generate meaningful insights.

You’ll learn to create a range of data visualisations and graphics to communicate your findings to scientific and non-scientific audiences.

Skills in computational science are essential for any roles where computational techniques are required for problem-solving, forecasting, data analysis or data visualisation.

View

Deepen your understanding of how and why things work.

Led by internationally recognised researchers, you’ll study the laws of physics and explore how these principles are applied in our everyday life – from understanding the nature of time to developing new technologies.

You'll be able to combine your scientific and mathematical knowledge with skills in computer programming and statistics to understand theories relating to quantum mechanics, biophotonics, astronomy or astrophysics. Or apply your knowledge to develop advanced materials, electronic and optical devices.

Your high-level technical, analytical and problem-solving skills will lead you to a wide range of rewarding opportunities in sectors such as education, finance, engineering, computing and management.

Alternatively, continue into a higher degree by research to uncover new scientific knowledge or apply your findings to develop new devices, products or processes.

View

Apply the tools of modern statistics to inform data-driven decision making and solve real-world problems.

In this minor, we combine theory with practical experience to expand your critical thinking, enhance your analytical capabilities and develop your technical skills.

You'll discover how statistics are used to help solve real-world problems, such as improving medical treatments through data-driven experimental design, or using meteorological and spatial data to assess drought conditions in local communities.

You'll learn and apply statistical techniques to analyse and interpret complex data, and transform it into meaningful insights.

Statisticians and data analysts are in high demand across business, industry, research and government to forecast, analyse and solve a variety of complex issues.

View

Did you know that mathematical modelling enables scientists to better understand infectious diseases?

Study applied mathematics and learn how advanced mathematical methods are used to develop practical solutions to a variety of real-world problems.

Develop your critical thinking skills and learn advanced mathematical techniques for approaching problems in a logical, analytical and creative manner.

Build your foundational knowledge in core topics such as applied mathematical analysis, mathematical modelling and numerical methods used in computer programming.

You'll then have the opportunity to apply your expertise in areas of interest such as natural resources and environmental modelling, or biological science.

You may also choose to combine your major with a minor in bioinformatics, computational science, computer science, physics or statistics.

This major will prepare you for a diverse range of career opportunities in sectors such as financial services, engineering, technology and sciences.

View

As computers become increasingly interconnected and support more services than ever, system security becomes more challenging and more crucial.

By studying cyber security, you'll learn the fundamental processes and practices to protect computing systems from attack, damage or unauthorised access.

You'll study secure programming techniques and ethical hacking to safeguard individuals, businesses and governments against cybercrime, and you'll graduate with highly valued and employable skills.

Career paths can lead to roles such as cyber security analyst, cyber systems engineer or information security officer.

Join a growing industry

• Cyber security specialist was the #2 emerging job of 2020 (LinkedIn 2020 Emerging Jobs Report).
• By 2026, Australia will need 18,000 more cyber security workers.
• Australia’s external spending on cyber security products and services grew by 8 per cent in 2018 to $3.9 billion (Australian Cyber Security Growth Network).

View

Our world is creating more data than we can process, which presents enormous challenges associated with storage, management and analysis.

You'll learn comprehensive and fundamental techniques for end-to-end processing that transforms data into information, and prepare to become one of the new breed of data science professionals.

This major will prepare you for a career in government departments, consultancy or private sector organisations.

Join a growing industry

• The rise of big data means data scientists are now some of the most in-demand professionals in the world.
• Data scientist was the #7 top emerging job of 2020 (LinkedIn 2020 Emerging Jobs Report).

View

Machine learning is the study of algorithms that automatically improve with experience.

These algorithms allow computers to do things like automatically identify and harness useful data to help decision-making, find hidden insights without being explicitly programmed where to look, and predict outcomes to help authorities design effective policies.

You'll graduate with skills at the forefront of this massive growth area, as society looks for automated solutions to enhance business and our lives through the use of computing systems and data.

These skills can be applied in government departments, consultancy or private sector organisations.

Join a growing industry

• Artificial intelligence specialist was the #1 emerging job of 2020 (LinkedIn 2020 Emerging Jobs Report).
• AI could contribute up to $15.7 trillion to the global economy in 2030 (PwC research).
• New AI technologies will require highly skilled workers who can develop and maintain complex systems and applications.

View

Artificial Intelligence (AI) is now key to accelerating scientific discovery, engineering advancements and driving innovation and efficiency in business, government and other organisations.

This major equips you with a deep understanding of mathematical concepts and techniques essential for AI. These include statistics, linear algebra, calculus, numerical methods and advanced machine learning techniques like deep learning and optimisation.

By combining these mathematical methods with AI approaches, you’ll be able to effectively analyse complex data, develop AI models and automate decision-making processes.

The focus is on theoretical depth while also covering software development, preparing you for both academic research and industry needs.

You'll graduate ready for a range of careers in AI research, data science and machine learning engineering, driving innovation and solving real-world challenges across diverse industries.

You can combine this major with a minor in bioinformatics, computational science, computer science or physics.

View

This major focuses on the mathematical foundations of modern physical theories.

It also examines the mathematical understanding that underpins a broad range of contemporary sciences, including statistical mechanics, relativity and quantum theory. You'll learn how to understand and describe nature at its most fundamental levels.

This major not only prepares you for research in mathematical physics and related disciplines, but also fosters creativity and develops high-level skills in critical and analytical thinking, which are paramount in problem-solving.

You may choose to combine your major with a minor in bioinformatics, computational science, physics or statistics.

View

In today’s data-driven world, optimisation plays a critical role across industries—from machine learning and artificial intelligence to supply chain management, finance, healthcare, energy, and beyond.

This major equips you with the mathematical expertise and analytical tools to tackle real-world challenges, enabling you to optimise decision-making, improve efficiency, and solve intricate problems such as financial planning, resource allocation, and logistics. 

It bridges deep theoretical foundations with hands-on skills in programming and practical applications, preparing you for a dynamic career in research or industry.  

Whether your passion lies in advancing predictive models, designing smarter networks, or driving resource innovation, this major provides the specialised knowledge and versatility needed to stand out in the fields of science, engineering, and beyond. 

View

Programming languages are the building blocks of software.

Covering the different paradigms of programming, this major focuses on the design of computer languages that can be easily used to create programs.

You will study the craft and science of programming, and graduate with the skills to enable the construction of effective programming languages and reliable software.

Career paths often lead to roles in government departments, consultancy or private sector organisations.

Programming opens doors beyond tech

• Programmers write software that can be used to create websites, build computer networks, help doctors treat patients, or even drive a car.
• Half of all programming roles are in finance, manufacturing, health care, and other sectors outside of the technology industry.
• Coding skills can take you places: data analytics, scientists, engineers and designers all use coding.

View

This major is focused on the intrinsic nature and fundamental properties of mathematics, and recognises its ubiquity, universality and beauty.

You'll develop high-level skills in critical, analytical and abstract thinking, and study frameworks for deeper understanding of other areas of mathematics, such as applied mathematics, mathematical physics and statistics.

You'll also have the opportunity to acquire a solid grounding in the key areas of pure mathematics, as well as opportunities to undertake focused study in advanced courses.

You may choose to combine your major with a minor in bioinformatics, computational science, physics or statistics.

View

You will study algorithms for mathematical analysis.

Computers hold the key for fast and efficient analysis of complex scientific problems. However, computers are digital systems, requiring discrete inputs and outputs, while mathematical analysis often relies on continuous functions. Therefore, careful approximations are necessary to enable computers to analyse complex mathematical functions.

You'll graduate with skills used in various scientific endeavours, including in hospitals and university medical research, and big pharmaceutical and petrochemical companies across the public and private sectors.

Join a growing industry

• Help solve the complex scientific problems of the future using mathematical analysis.
• The digital technology sector is one of the fastest growing parts of Australia’s economy.
• Data engineer was the #8 emerging job of 2020 (LinkedIn 2020 Emerging Jobs Report).

View

Apply the tools of modern statistics and data science to inform data-driven decision making and solve real-world problems.

In this major, you will learn and apply statistical techniques to analyse and interpret complex data, and transform it into meaningful insights.

Professionals in this field work to improve medical treatments through data-driven experimental designs and leverage meteorological and spatial data to assess and mitigate drought conditions in local communities.

You will combine theory with practical experiences that challenge your thinking, expand your analytical capabilities and develop your technical skills.

As a graduate, you’ll be in high demand across business, industry, research and government. You’ll play a vital role in forecasting, analysing and solving complex problems in diverse fields.

You may choose to combine your major with a minor in bioinformatics, computational science, computer science, physics or science communication.

View

More industries are embracing genetic technologies. Study bioinformatics and help shape the way we manage our health and environment.

Gain specialised knowledge in statistics, data management, computer programming, genomics and molecular biology.

You’ll apply your scientific expertise and technical skills to translate complex biological data into meaningful information. Your insights may lead to new innovations or discoveries.

Studying bioinformatics will prepare you for a wide range of opportunities in scientific research organisations, universities, government departments, and the biotechnology or pharmaceutical industries.

View

Apply your technical skills and mathematical knowledge to translate complex data into meaningful insights that help shape our future.

Recent advances in technology give scientists the ability to collect and process more data than ever before.

Computational science combines fundamental principles from computer science, mathematics and statistics to solve scientific problems across any specialist field.

Develop your skills in computational thinking and apply computational problem-solving strategies to design algorithms for collecting, processing and analysing vast amounts of data from various sources.

Apply your programming skills to construct large-scale mathematical models and simulations to analyse and interpret real-world data and generate meaningful insights.

You’ll learn to create a range of data visualisations and graphics to communicate your findings to scientific and non-scientific audiences.

Skills in computational science are essential for any roles where computational techniques are required for problem-solving, forecasting, data analysis or data visualisation.

View

Deepen your understanding of how and why things work.

Led by internationally recognised researchers, you’ll study the laws of physics and explore how these principles are applied in our everyday life – from understanding the nature of time to developing new technologies.

You'll be able to combine your scientific and mathematical knowledge with skills in computer programming and statistics to understand theories relating to quantum mechanics, biophotonics, astronomy or astrophysics. Or apply your knowledge to develop advanced materials, electronic and optical devices.

Your high-level technical, analytical and problem-solving skills will lead you to a wide range of rewarding opportunities in sectors such as education, finance, engineering, computing and management.

Alternatively, continue into a higher degree by research to uncover new scientific knowledge or apply your findings to develop new devices, products or processes.

View

Apply the tools of modern statistics to inform data-driven decision making and solve real-world problems.

In this minor, we combine theory with practical experience to expand your critical thinking, enhance your analytical capabilities and develop your technical skills.

You'll discover how statistics are used to help solve real-world problems, such as improving medical treatments through data-driven experimental design, or using meteorological and spatial data to assess drought conditions in local communities.

You'll learn and apply statistical techniques to analyse and interpret complex data, and transform it into meaningful insights.

Statisticians and data analysts are in high demand across business, industry, research and government to forecast, analyse and solve a variety of complex issues.

View