Bachelors of Science / Education (Secondary)

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

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

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

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

With practical experience gained through work placements, you'll be prepared for a diverse range of career opportunities in sectors such as education, financial services, engineering, technology and sciences.

View

You’ll study the molecules, systems and chemical processes that make life possible.

• Discover what drives current research into vaccines and causes of life-threatening diseases.
• Explore the latest applications in eco-friendly industrial processes, agriculture and sustainable food production.
• Visualise the future in synthetic biology, biotechnology, proteomics, genomics, bioinformatics, genetic engineering and drug design.

Your award-winning lecturers are experts who will help you understand and use the latest scientific and industry tools through extensive practical laboratory experience, structured tutorials and specialised seminars.

Career paths include some of the most exciting and challenging roles in agriculture, health, biotechnology and environmental sectors. You’ll find employment as a research biochemist or molecular biologist in pharmaceutical development laboratories in universities, research institutes and companies trying to understand cellular processes, investigating diseases affecting animals and plants, or searching for new biological tools.

View

Study molecular biology, genetics, physiology, anatomy and immunology – then apply your knowledge in laboratories where medical breakthroughs are taking place.

You’ll put theory into practice and work alongside researchers and healthcare professionals to conduct medical research and test the effectiveness of treatments.

Studying biomedical science can prepare you for a research-based honours program, or employment within the education, the healthcare industry, government, not-for-profit organisations or universities.

View

Study cell biology to deepen your understanding of how cellular, genetic, and evolutionary processes affect everyday life.

Examine key concepts and techniques to understand genetic information and investigate cellular processes and cell development in a range of organisms. You’ll apply microscopic techniques to observe how cells function in healthy and diseased states.

The growing availability of biological data is allowing unprecedented discoveries in areas as diverse as human medicine, agriculture, conservation biology and biotechnology. You'll learn from leading scientists who have contributed to breakthroughs across biotechnology, animal, plant and medical sciences.

Studying cell biology will equip you for a range of career opportunities within education, research, biotechnology, agriculture, medicine, conservation or government agencies.

View

You’ll learn the fundamentals of general, physical, organic and inorganic chemistry and specialise in areas such as:

• synthetic chemistry, where you explore the synthesis of complex molecules used in drugs, explosives, paints and cosmetics
• computational chemistry, involving the use of advanced theoretical calculations and high-power supercomputers to understand and predict the structures and reactivities of molecules and short-lived intermediate species
• nanoscience, to explore the processes of self-assembly enabling the controlled arrangement of atoms and molecules and the chemistry at interfaces
• medicinal chemistry, to explore molecular design and the modification of compound properties to enhance pharmaceutical applications as evaluated through bioassays.

All of these areas involve access to advanced instrumental techniques and the development of skills that employers value.

You will be equipped to pursue a diverse range of career opportunities. These include roles as a chemist, materials scientist, environmental scientist, biochemist, toxicologist or forensic scientist.

Other jobs include scientific journalist, quality assurance manager, pharmaceutical sales representative, patent examiner, teacher, and roles in marketing and conservation.

This major is accredited by the Royal Australian Chemical Institute.

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In this major, you'll dive into the scientific study of coastal processes, oceanography, ecology, marine geology, and marine conservation. 

You’ll learn to apply a wide range of evidence-based environmental and conservation strategies to protect vital coastal habitats and marine ecosystems across the globe.

Led by Australia’s leading marine researchers, you’ll gain extensive fieldwork experience at UQ’s Heron Island Research Station on the southern Great Barrier Reef and UQ’s Moreton Bay Research Station on North Stradbroke Island.

Enhance your employability by combining your speciality with a minor in a broad range of complementary fields including ecology and conversation biology, Earth science, genetics, microbiology or computational science.

Demand for highly skilled coastal and marine scientists is on the rise. You’ll find opportunities in various fields including:

• teaching and universities
• fisheries laboratories
• environmental consultancies 
• marine parks
• coastal management
• government departments.

View

You’ll learn how remote-sensing technologies and geographic information systems (GIS) are used to analyse geological processes and monitor changes in the Earth’s environment.

Dig deeper into our mineral and energy sources by exploring topics such as mineral and rock analysis, mining geology, environmental geology or geochemistry. Develop and apply your knowledge through practical laboratory experience, fieldwork, and specialised seminars.

You may choose to study electives in coastal and ocean science to deepen your understanding of oceanography and help create a sustainable future for marine environments.

You’ll be equipped to pursue a career in the education, natural resource, energy or environmental sectors. Alternately, help contribute to new scientific knowledge by progressing into a research-based honours degree.

View

Ecology and conservation biology are vital for solving the environmental challenges our society is facing today.

You’ll be taught by internationally renowned conservation experts and can choose to specialise in conservation biology, marine ecology or evolutionary ecology.

Gain real-world experience in solving ecological problems by conducting fieldwork in a range of rainforest, outback and marine environments.

You’ll be equipped to tackle global issues such as biodiversity loss, climate change, diminishing natural resources and the environmental impacts of human activity.

View

Learn how to describe, monitor and predict environmental processes and the effects of human activity on physical and biological environments.  

Gain the scientific knowledge and practical experience in ecology, conservation, environmental toxicology, natural resources and decision science necessary to understand and manage our changing planet.  

You'll combine your scientific skills with knowledge of legal, political and social aspects of environmental management.  

Undertake extensive, practical field-based experiences in diverse subtropical and tropical ecosystems, including World Heritage rainforests, the Great Barrier Reef, North Stradbroke Island and outback Australia.  

Upon graduating as a qualified environmental scientist, you'll find employment opportunities throughout industry, government and other sectors, and enjoy the personal and professional satisfaction of safeguarding our environment. 

View

You’ll advance your knowledge in genetic structure, genetic interaction and the genetic basis of traits.

We'll expand your critical thinking and teach you to analyse complex biological data using the latest genetic technologies.

You’ll learn to translate genetic information into meaningful insights that may lead to new discoveries.

Studying genetics will prepare you for a broad range of opportunities across education, ecology, research, medicine and agriculture.

View

Blending theory with real-world experience, you’ll learn to apply geographical information science (GIS) software and remote-sensing technologies for data analysis, data modelling and developing map visualisations.

We broaden your critical-thinking and teach you how to apply GIS to solve key environmental, societal or planning issues faced in today’s modern world.

You’ll be equipped to pursue a broad range of career opportunities, including roles in education, natural resource management, national parks and wildlife conservation.

View

This major will challenge and expand your problem solving, logical thinking and conceptual ability. You'll gain quantitative and analytical skills, along with a foundation of calculus, linear algebra, probability, discrete mathematics, mathematical analysis and modelling.

You’ll develop and apply your knowledge through practical experience, structured tutorials and specialised lectures.

Our comprehensive mathematical training equips you for a broad range of opportunities in education, banking, finance, insurance, business, engineering, science, information technology and risk management.

Studying mathematics also gives you a strong foundation to continue into a higher degree by research and excel in research positions within universities, government agencies and private companies.

View

You’ll study microorganisms, the immune system, microbial virulence, disease states and response to infection.

Learn how vaccines protect animals and humans from infectious diseases. Discover the latest advances in vaccine development from your lecturers who are globally recognised experts.

You’ll focus on immunology, virology, parasitology, environmental microbiology, microbial biotechnology and microbial genomics. Study bacterial, fungal and viral infections.

Apply your knowledge in weekly laboratory practicals. Gain skills in specialist biomedical and molecular techniques used to diagnose and characterise infectious microbes and in the development of new diagnostics. Problem-based scenarios will enhance your analytical, research and communication skills.

The growth in biotechnology, aquaculture and emerging disease threats to plant, animal and human health globally has increased job opportunities for microbiologists. You’ll be equipped for roles in agriculture, environmental, chemical, pharmaceutical, medical, food processing and veterinary companies. Studying microbiology can lead to rewarding career opportunities in specialist areas such as forensics, biosecurity and quarantine in government agencies.

Or kickstart your career in research by progressing into a research-based honours degree.

View

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

In this major, you’ll learn and apply the science behind breeding high-yielding, pest-resistant crops to help farmers increase their productivity.

You'll study ecology, plant pathology, plant physiology and plant biotechnology, and apply your knowledge to use plant-based sources to develop biofuels, medicines or healthier food products.

Studying plant science can lead to rewarding career opportunities as a teacher, researcher or consultant with multinational companies, universities or government departments.

View

In this major, you'll explore topics like brain function, memory, conscious experience, lifespan development and social behaviour, together with the full spectrum of functional and dysfunctional behaviours.

Graduates undertake careers in education, human resources, mental health services, youth and child support work, or fields as diverse as marketing, aged care and corrective services.

View

Through this major, you’ll investigate animal morphology, development and genetics, behaviour, ecology, physiology, biochemistry and molecular biology.

We'll expand your knowledge of climate change biology, wildlife and conservation biology, entomology, environmental physiology, marine biology, fisheries biology and aquaculture, terrestrial ecology, molecular ecology and mathematical applications in biology.

You can combine your study of animals with biostatistics, ecology, evolution, genetics and insect science and gain practical experience through field courses offered in the Australian outback, rainforests, Stradbroke Island and the Great Barrier Reef.

Zoology offers a large number of career options, ranging from field-based conservation to teaching in education institutions.

Alternatively, kick-start your career in research by progressing into a higher degree by research.

View

Learn advanced mathematical techniques to solve problems in a logical, analytical and creative manner.

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

You'll gain practical mathematical skills that can be applied to areas such as financial mathematics, natural resources and environmental modelling or biological science.

View

Led by internationally recognised researchers, you’ll explore theories behind the creation of the universe to understand the origin and evolution of galaxies, stars and planets.

Examine the fundamental laws of physics behind how particles and radiation were created, how galaxies and planetary systems form, and how environments for life develop.

You’ll study the physical processes behind the structure of the Milky Way, star formation, stellar atmospheres, gravitational waves, the creation of matter and the cosmic microwave background.

Learn to build computer simulations of the universe to investigate some of the big questions in modern astrophysics and cosmology, including:

• What are dark energy and dark matter?
• How did the Universe begin and how did it end?
• Where did the contents of the Universe come from?
• How and when do galaxies form?

You’ll have access to state-of-the-art computing facilities as well as specialised tools and instruments used in Astrophysics research.

A minor in astrophysics will prepare you for a diverse range of careers in teaching, data science, finance, the space industry, medical physics, mining or the environment.

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In this minor, you'll develop a comprehensive understanding of the chemical basis of life and its relevance to research and development in areas like medicine, proteomics, genomics, bioinformatics, biotechnology and genetic engineering.

Learn how molecular events can go wrong in certain diseased states and how this contributes to the development of new drugs.

You’ll develop and apply your knowledge through practical laboratory experience, structured tutorials and specialised seminars.

View

Study a minor in cell biology to investigate how cellular, genetic, and evolutionary processes affect everyday life.

Examine key concepts and techniques to understand genetic information and investigate cellular processes and cell development in a range of organisms. You’ll apply microscopic techniques to observe how cells function in healthy and diseased states.

The growing availability of biological data is allowing unprecedented discoveries in areas as diverse as human medicine, agriculture, conservation biology and biotechnology. You'll learn from leading scientists who have contributed to breakthroughs across biotechnology, animal, plant and medical sciences.

Studying a minor cell biology will add depth to your scientific knowledge and enhance your employability for a wide range of opportunities within education, research, biotechnology, agriculture, medicine, conservation or government agencies.

View

Gain chemical knowledge about cellular processes and biomolecular interactions and explore the chemical, computational and imaging techniques used to analyse them.

You'll apply the principles of inorganic and organic chemistry to investigate the nature of chemical reactions in biological systems at the molecular level.

Studying chemical biology will complement areas such as biochemistry and molecular biology, genetics, biological and biomedical sciences.

View

You’ll learn the fundamentals of general, physical, organic and inorganic chemistry and specialise in areas such as:

• synthetic chemistry, where you explore the synthesis of complex molecules used in drugs, explosives, paints and cosmetics
• computational chemistry, involving the use of advanced theoretical calculations and high-power supercomputers to understand and predict the structures and reactivities of molecules and short-lived intermediate species
• nanoscience, to explore the processes of self-assembly enabling the controlled arrangement of atoms and molecules and the chemistry at interfaces
• medicinal chemistry, to explore molecular design and the modification of compound properties to enhance pharmaceutical applications as evaluated through bioassays.

All of these areas involve access to advanced instrumental techniques and the development of skills that employers value.

View

In this minor, you'll dive into the scientific study of coastal processes, oceanography, ecology, marine geology, and marine conservation.

You’ll learn to apply a wide range of evidence-based environmental and conservation strategies to protect vital coastal habitats and marine ecosystems across the globe.

Led by Australia’s leading marine researchers, you’ll gain fieldwork experience at UQ’s Heron Island Research Station on the southern Great Barrier Reef and UQ’s Moreton Bay Research Station on North Stradbroke Island.

Studying a minor in coastal and ocean science will add depth to broad range of complementary fields including ecology and conversation biology, Earth science or zoology.

You’ll be equipped for a broad range of opportunities in areas such as:

• education
• natural resource management
• conservation
• environmental management
• government departments.

View

In the Data Science minor, you'll delve into computing, statistics, mathematics and business. 

You will understand the fundamental techniques for end-to-end processing to transform data into information. Explore machine learning, data visualisation, data mining and statistical modelling.

You'll learn to use data ethically and understand the legal considerations for data science and business communication.

You'll gain hands-on experience with relevant big data tools and technologies.

Apply creative and disruptive thinking to complex data science challenges and problems globally.

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Understanding human and animal development is fundamental to medicine and biomedicine.

State-of-the-art medical therapeutic strategies are built on innovative discoveries from developmental biology, including stem cells, cell engineering, artificial organs, 3D printing and tissue regeneration.

Developmental biology is key to understanding health and disease. It consolidates knowledge from anatomy, physiology, genetics, molecular biology and pharmacology to provide students with an integrated understanding of human development.

Learn from leading researchers and apply your theoretical knowledge in the laboratories where medical breakthroughs are taking place.

View

You’ll learn how remote-sensing technologies and geographic information systems (GIS) are used to analyse geological processes and monitor changes in the Earth’s environment.

Dig deeper into our mineral and energy sources by exploring topics such as mineral and rock analysis, mining geology, environmental geology or geochemistry. Develop and apply your knowledge through practical laboratory experience, fieldwork, and specialised seminars.

You may choose to combine your minor with a major in coastal and ocean science or marine biology to deepen your understanding of oceanography and help create a sustainable future for marine environments.

You’ll be equipped to pursue employment opportunities in the education, natural resource, energy or environmental sectors. 

View

Ecology and conservation biology are vital for solving the environmental challenges our society is facing today.

You’ll be taught by internationally renowned conservation experts and can choose to specialise in conservation biology, marine ecology or evolutionary ecology.

Gain real-world experience in solving ecological problems by conducting fieldwork in a range of rainforest, outback and marine environments.

You’ll be equipped to tackle global issues such as biodiversity loss, climate change, diminishing natural resources and the environmental impacts of human activity.

View

You’ll advance your knowledge in genetic structure, genetic interaction and the genetic basis of traits.

We'll expand your critical thinking and teach you to analyse complex biological data using the latest genetic technologies.

You’ll learn to translate genetic information into meaningful insights that may lead to new discoveries.

Studying genetics will prepare you for a broad range of opportunities across education, ecology, research, medicine and agriculture.

View

Blending theory with real-world experience, you’ll learn to apply geographical information science (GIS) software and remote-sensing technologies for data analysis, data modelling and developing map visualisations.

We broaden your critical-thinking and teach you how to apply GIS to solve key environmental, societal or planning issues faced in today’s modern world.

You’ll be equipped to pursue a broad range of career opportunities, including roles in education, natural resource management, national parks, and wildlife conservation.

View

Undertake a minor in human physiology to examine how cell, tissue and organ systems function within the human body.

Learn the vital roles played by our brain, nerves and hormones in controlling cardiovascular, respiratory, reproductive and metabolic processes important to our survival. 

Apply scientific methods to investigate how the failure of these systems can result in disease or disorders.

Study physiological functions at a molecular and cellular level to examine how the body’s core processes are altered in diseased states.

Develop a holistic understanding of the complex links between the body, mind and disease by combining your minor with related courses in human anatomy, neuroscience, pharmacology or food science and nutrition.

In-depth knowledge of human physiology is essential if you are considering further study in the field of medicine, biomedical science or allied health. It can also lead to a range of career opportunities across the health, education, science or pharmaceutical sectors.

View

This minor will challenge and expand your problem solving, logical thinking and conceptual ability. You'll gain quantitative and analytical skills, along with a foundation of calculus, linear algebra, probability, discrete mathematics, mathematical analysis and modelling.

You’ll develop and apply your knowledge through practical experience, structured tutorials, and specialised lectures.

Our comprehensive mathematical training equips you for a broad range of opportunities across education, banking, finance, insurance, business, engineering, science, information technology and risk management.

Studying mathematics also gives you a strong foundation to continue into a higher degree by research and excel in research positions within universities, government agencies and private companies.

View

In this minor, you'll study the diversity of microorganisms, the immune system, microbial virulence, disease states and the ways in which organisms respond to infection.

You'll learn how vaccines protect animals and humans from infectious diseases, and discover the latest advances in vaccine development from lecturers who are globally recognised experts.

Focusing on the key areas of immunology, virology, parasitology, environmental microbiology, microbial biotechnology and microbial genomics, you'll study bacterial, fungal and viral infections and apply your knowledge in weekly laboratory practicals.

You'll confidently use the specialist biomedical and molecular techniques required to diagnose and characterise infectious microbes and to develop new diagnostics. Problem-based scenarios will enhance your analytical, research and communication skills.

This minor will add depth to your biological sciences knowledge and equip you with essential technical skills to enhance your employability or prepare you for a career in research. 

View

Study neuroscience to deepen your understanding of how the human brain and nervous system function.

Examine the complexities of the brain and nervous system to explore how neural systems develop, process sensory information, control our movement, form memories, react to stress, respond to disease and store vital information about the world around us.

Studying neuroscience will equip you to enter the workforce in fields as diverse as education, business, biotechnology, health, science or the pharmaceutical industry.

View

Study pharmacology to learn the science behind how drugs work to treat and cure diseases.

You’ll gain comprehensive knowledge on how drugs work in the human body at the molecular cellular and whole-body level, and discover why many drugs do not work in every patient.

You'll learn how active chemical agents in medicines affect our cells, tissue or organs to examine their benefits, side effects and interactions on human health.

Learn the latest techniques to test drug effects and how to evaluate their benefits and risks in treating human diseases.

Gain vital research experience while you study by contributing to projects that could lead to new medical breakthroughs.

A minor in pharmacology will prepare you for employment or research opportunities within healthcare organisations, education, medical research institutions, pharmaceutical or biotechnology companies, universities and hospitals.

View

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 kick-start your career in research to uncover new scientific knowledge or apply your findings to develop new devices, products or processes.

View

In this minor, you’ll learn and apply the science behind breeding high-yielding, pest-resistant crops to help farmers increase their productivity.

You'll study ecology, plant pathology, plant physiology and plant biotechnology, and apply your knowledge to use plant-based sources to develop biofuels, medicines or healthier food products.

Studying plant science can lead to rewarding career opportunities with multinational companies, high schools, universities, or government departments.

View

In this minor, you'll explore topics like brain function, memory, conscious experience, lifespan development and social behaviour, together with the full spectrum of functional and dysfunctional behaviours.

Graduates undertake careers in education, human resources, mental health services, youth and child support work, or fields a diverse as marketing, aged care and corrective services.

View

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

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

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

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

With practical experience gained through work placements, you'll be prepared for a diverse range of career opportunities in sectors such as education, financial services, engineering, technology and sciences.

View

You’ll study the molecules, systems and chemical processes that make life possible.

• Discover what drives current research into vaccines and causes of life-threatening diseases.
• Explore the latest applications in eco-friendly industrial processes, agriculture and sustainable food production.
• Visualise the future in synthetic biology, biotechnology, proteomics, genomics, bioinformatics, genetic engineering and drug design.

Your award-winning lecturers are experts who will help you understand and use the latest scientific and industry tools through extensive practical laboratory experience, structured tutorials and specialised seminars.

Career paths include some of the most exciting and challenging roles in agriculture, health, biotechnology and environmental sectors. You’ll find employment as a research biochemist or molecular biologist in pharmaceutical development laboratories in universities, research institutes and companies trying to understand cellular processes, investigating diseases affecting animals and plants, or searching for new biological tools.

View

Study molecular biology, genetics, physiology, anatomy and immunology – then apply your knowledge in laboratories where medical breakthroughs are taking place.

You’ll put theory into practice and work alongside researchers and healthcare professionals to conduct medical research and test the effectiveness of treatments.

Studying biomedical science can prepare you for a research-based honours program, or employment within the education, the healthcare industry, government, not-for-profit organisations or universities.

View

Study cell biology to deepen your understanding of how cellular, genetic, and evolutionary processes affect everyday life.

Examine key concepts and techniques to understand genetic information and investigate cellular processes and cell development in a range of organisms. You’ll apply microscopic techniques to observe how cells function in healthy and diseased states.

The growing availability of biological data is allowing unprecedented discoveries in areas as diverse as human medicine, agriculture, conservation biology and biotechnology. You'll learn from leading scientists who have contributed to breakthroughs across biotechnology, animal, plant and medical sciences.

Studying cell biology will equip you for a range of career opportunities within education, research, biotechnology, agriculture, medicine, conservation or government agencies.

View

You’ll learn the fundamentals of general, physical, organic and inorganic chemistry and specialise in areas such as:

• synthetic chemistry, where you explore the synthesis of complex molecules used in drugs, explosives, paints and cosmetics
• computational chemistry, involving the use of advanced theoretical calculations and high-power supercomputers to understand and predict the structures and reactivities of molecules and short-lived intermediate species
• nanoscience, to explore the processes of self-assembly enabling the controlled arrangement of atoms and molecules and the chemistry at interfaces
• medicinal chemistry, to explore molecular design and the modification of compound properties to enhance pharmaceutical applications as evaluated through bioassays.

All of these areas involve access to advanced instrumental techniques and the development of skills that employers value.

You will be equipped to pursue a diverse range of career opportunities. These include roles as a chemist, materials scientist, environmental scientist, biochemist, toxicologist or forensic scientist.

Other jobs include scientific journalist, quality assurance manager, pharmaceutical sales representative, patent examiner, teacher, and roles in marketing and conservation.

This major is accredited by the Royal Australian Chemical Institute.

View

In this major, you'll dive into the scientific study of coastal processes, oceanography, ecology, marine geology, and marine conservation. 

You’ll learn to apply a wide range of evidence-based environmental and conservation strategies to protect vital coastal habitats and marine ecosystems across the globe.

Led by Australia’s leading marine researchers, you’ll gain extensive fieldwork experience at UQ’s Heron Island Research Station on the southern Great Barrier Reef and UQ’s Moreton Bay Research Station on North Stradbroke Island.

Enhance your employability by combining your speciality with a minor in a broad range of complementary fields including ecology and conversation biology, Earth science, genetics, microbiology or computational science.

Demand for highly skilled coastal and marine scientists is on the rise. You’ll find opportunities in various fields including:

• teaching and universities
• fisheries laboratories
• environmental consultancies 
• marine parks
• coastal management
• government departments.

View

You’ll learn how remote-sensing technologies and geographic information systems (GIS) are used to analyse geological processes and monitor changes in the Earth’s environment.

Dig deeper into our mineral and energy sources by exploring topics such as mineral and rock analysis, mining geology, environmental geology or geochemistry. Develop and apply your knowledge through practical laboratory experience, fieldwork, and specialised seminars.

You may choose to study electives in coastal and ocean science to deepen your understanding of oceanography and help create a sustainable future for marine environments.

You’ll be equipped to pursue a career in the education, natural resource, energy or environmental sectors. Alternately, help contribute to new scientific knowledge by progressing into a research-based honours degree.

View

Ecology and conservation biology are vital for solving the environmental challenges our society is facing today.

You’ll be taught by internationally renowned conservation experts and can choose to specialise in conservation biology, marine ecology or evolutionary ecology.

Gain real-world experience in solving ecological problems by conducting fieldwork in a range of rainforest, outback and marine environments.

You’ll be equipped to tackle global issues such as biodiversity loss, climate change, diminishing natural resources and the environmental impacts of human activity.

View

Learn how to describe, monitor and predict environmental processes and the effects of human activity on physical and biological environments.  

Gain the scientific knowledge and practical experience in ecology, conservation, environmental toxicology, natural resources and decision science necessary to understand and manage our changing planet.  

You'll combine your scientific skills with knowledge of legal, political and social aspects of environmental management.  

Undertake extensive, practical field-based experiences in diverse subtropical and tropical ecosystems, including World Heritage rainforests, the Great Barrier Reef, North Stradbroke Island and outback Australia.  

Upon graduating as a qualified environmental scientist, you'll find employment opportunities throughout industry, government and other sectors, and enjoy the personal and professional satisfaction of safeguarding our environment. 

View

You’ll advance your knowledge in genetic structure, genetic interaction and the genetic basis of traits.

We'll expand your critical thinking and teach you to analyse complex biological data using the latest genetic technologies.

You’ll learn to translate genetic information into meaningful insights that may lead to new discoveries.

Studying genetics will prepare you for a broad range of opportunities across education, ecology, research, medicine and agriculture.

View

Blending theory with real-world experience, you’ll learn to apply geographical information science (GIS) software and remote-sensing technologies for data analysis, data modelling and developing map visualisations.

We broaden your critical-thinking and teach you how to apply GIS to solve key environmental, societal or planning issues faced in today’s modern world.

You’ll be equipped to pursue a broad range of career opportunities, including roles in education, natural resource management, national parks and wildlife conservation.

View

This major will challenge and expand your problem solving, logical thinking and conceptual ability. You'll gain quantitative and analytical skills, along with a foundation of calculus, linear algebra, probability, discrete mathematics, mathematical analysis and modelling.

You’ll develop and apply your knowledge through practical experience, structured tutorials and specialised lectures.

Our comprehensive mathematical training equips you for a broad range of opportunities in education, banking, finance, insurance, business, engineering, science, information technology and risk management.

Studying mathematics also gives you a strong foundation to continue into a higher degree by research and excel in research positions within universities, government agencies and private companies.

View

You’ll study microorganisms, the immune system, microbial virulence, disease states and response to infection.

Learn how vaccines protect animals and humans from infectious diseases. Discover the latest advances in vaccine development from your lecturers who are globally recognised experts.

You’ll focus on immunology, virology, parasitology, environmental microbiology, microbial biotechnology and microbial genomics. Study bacterial, fungal and viral infections.

Apply your knowledge in weekly laboratory practicals. Gain skills in specialist biomedical and molecular techniques used to diagnose and characterise infectious microbes and in the development of new diagnostics. Problem-based scenarios will enhance your analytical, research and communication skills.

The growth in biotechnology, aquaculture and emerging disease threats to plant, animal and human health globally has increased job opportunities for microbiologists. You’ll be equipped for roles in agriculture, environmental, chemical, pharmaceutical, medical, food processing and veterinary companies. Studying microbiology can lead to rewarding career opportunities in specialist areas such as forensics, biosecurity and quarantine in government agencies.

Or kickstart your career in research by progressing into a research-based honours degree.

View

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

In this major, you’ll learn and apply the science behind breeding high-yielding, pest-resistant crops to help farmers increase their productivity.

You'll study ecology, plant pathology, plant physiology and plant biotechnology, and apply your knowledge to use plant-based sources to develop biofuels, medicines or healthier food products.

Studying plant science can lead to rewarding career opportunities as a teacher, researcher or consultant with multinational companies, universities or government departments.

View

In this major, you'll explore topics like brain function, memory, conscious experience, lifespan development and social behaviour, together with the full spectrum of functional and dysfunctional behaviours.

Graduates undertake careers in education, human resources, mental health services, youth and child support work, or fields as diverse as marketing, aged care and corrective services.

View

Through this major, you’ll investigate animal morphology, development and genetics, behaviour, ecology, physiology, biochemistry and molecular biology.

We'll expand your knowledge of climate change biology, wildlife and conservation biology, entomology, environmental physiology, marine biology, fisheries biology and aquaculture, terrestrial ecology, molecular ecology and mathematical applications in biology.

You can combine your study of animals with biostatistics, ecology, evolution, genetics and insect science and gain practical experience through field courses offered in the Australian outback, rainforests, Stradbroke Island and the Great Barrier Reef.

Zoology offers a large number of career options, ranging from field-based conservation to teaching in education institutions.

Alternatively, kick-start your career in research by progressing into a higher degree by research.

View

Learn advanced mathematical techniques to solve problems in a logical, analytical and creative manner.

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

You'll gain practical mathematical skills that can be applied to areas such as financial mathematics, natural resources and environmental modelling or biological science.

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Led by internationally recognised researchers, you’ll explore theories behind the creation of the universe to understand the origin and evolution of galaxies, stars and planets.

Examine the fundamental laws of physics behind how particles and radiation were created, how galaxies and planetary systems form, and how environments for life develop.

You’ll study the physical processes behind the structure of the Milky Way, star formation, stellar atmospheres, gravitational waves, the creation of matter and the cosmic microwave background.

Learn to build computer simulations of the universe to investigate some of the big questions in modern astrophysics and cosmology, including:

• What are dark energy and dark matter?
• How did the Universe begin and how did it end?
• Where did the contents of the Universe come from?
• How and when do galaxies form?

You’ll have access to state-of-the-art computing facilities as well as specialised tools and instruments used in Astrophysics research.

A minor in astrophysics will prepare you for a diverse range of careers in teaching, data science, finance, the space industry, medical physics, mining or the environment.

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In this minor, you'll develop a comprehensive understanding of the chemical basis of life and its relevance to research and development in areas like medicine, proteomics, genomics, bioinformatics, biotechnology and genetic engineering.

Learn how molecular events can go wrong in certain diseased states and how this contributes to the development of new drugs.

You’ll develop and apply your knowledge through practical laboratory experience, structured tutorials and specialised seminars.

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Study a minor in cell biology to investigate how cellular, genetic, and evolutionary processes affect everyday life.

Examine key concepts and techniques to understand genetic information and investigate cellular processes and cell development in a range of organisms. You’ll apply microscopic techniques to observe how cells function in healthy and diseased states.

The growing availability of biological data is allowing unprecedented discoveries in areas as diverse as human medicine, agriculture, conservation biology and biotechnology. You'll learn from leading scientists who have contributed to breakthroughs across biotechnology, animal, plant and medical sciences.

Studying a minor cell biology will add depth to your scientific knowledge and enhance your employability for a wide range of opportunities within education, research, biotechnology, agriculture, medicine, conservation or government agencies.

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Gain chemical knowledge about cellular processes and biomolecular interactions and explore the chemical, computational and imaging techniques used to analyse them.

You'll apply the principles of inorganic and organic chemistry to investigate the nature of chemical reactions in biological systems at the molecular level.

Studying chemical biology will complement areas such as biochemistry and molecular biology, genetics, biological and biomedical sciences.

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You’ll learn the fundamentals of general, physical, organic and inorganic chemistry and specialise in areas such as:

• synthetic chemistry, where you explore the synthesis of complex molecules used in drugs, explosives, paints and cosmetics
• computational chemistry, involving the use of advanced theoretical calculations and high-power supercomputers to understand and predict the structures and reactivities of molecules and short-lived intermediate species
• nanoscience, to explore the processes of self-assembly enabling the controlled arrangement of atoms and molecules and the chemistry at interfaces
• medicinal chemistry, to explore molecular design and the modification of compound properties to enhance pharmaceutical applications as evaluated through bioassays.

All of these areas involve access to advanced instrumental techniques and the development of skills that employers value.

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In this minor, you'll dive into the scientific study of coastal processes, oceanography, ecology, marine geology, and marine conservation.

You’ll learn to apply a wide range of evidence-based environmental and conservation strategies to protect vital coastal habitats and marine ecosystems across the globe.

Led by Australia’s leading marine researchers, you’ll gain fieldwork experience at UQ’s Heron Island Research Station on the southern Great Barrier Reef and UQ’s Moreton Bay Research Station on North Stradbroke Island.

Studying a minor in coastal and ocean science will add depth to broad range of complementary fields including ecology and conversation biology, Earth science or zoology.

You’ll be equipped for a broad range of opportunities in areas such as:

• education
• natural resource management
• conservation
• environmental management
• government departments.

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In the Data Science minor, you'll delve into computing, statistics, mathematics and business. 

You will understand the fundamental techniques for end-to-end processing to transform data into information. Explore machine learning, data visualisation, data mining and statistical modelling.

You'll learn to use data ethically and understand the legal considerations for data science and business communication.

You'll gain hands-on experience with relevant big data tools and technologies.

Apply creative and disruptive thinking to complex data science challenges and problems globally.

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Understanding human and animal development is fundamental to medicine and biomedicine.

State-of-the-art medical therapeutic strategies are built on innovative discoveries from developmental biology, including stem cells, cell engineering, artificial organs, 3D printing and tissue regeneration.

Developmental biology is key to understanding health and disease. It consolidates knowledge from anatomy, physiology, genetics, molecular biology and pharmacology to provide students with an integrated understanding of human development.

Learn from leading researchers and apply your theoretical knowledge in the laboratories where medical breakthroughs are taking place.

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You’ll learn how remote-sensing technologies and geographic information systems (GIS) are used to analyse geological processes and monitor changes in the Earth’s environment.

Dig deeper into our mineral and energy sources by exploring topics such as mineral and rock analysis, mining geology, environmental geology or geochemistry. Develop and apply your knowledge through practical laboratory experience, fieldwork, and specialised seminars.

You may choose to combine your minor with a major in coastal and ocean science or marine biology to deepen your understanding of oceanography and help create a sustainable future for marine environments.

You’ll be equipped to pursue employment opportunities in the education, natural resource, energy or environmental sectors. 

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Ecology and conservation biology are vital for solving the environmental challenges our society is facing today.

You’ll be taught by internationally renowned conservation experts and can choose to specialise in conservation biology, marine ecology or evolutionary ecology.

Gain real-world experience in solving ecological problems by conducting fieldwork in a range of rainforest, outback and marine environments.

You’ll be equipped to tackle global issues such as biodiversity loss, climate change, diminishing natural resources and the environmental impacts of human activity.

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You’ll advance your knowledge in genetic structure, genetic interaction and the genetic basis of traits.

We'll expand your critical thinking and teach you to analyse complex biological data using the latest genetic technologies.

You’ll learn to translate genetic information into meaningful insights that may lead to new discoveries.

Studying genetics will prepare you for a broad range of opportunities across education, ecology, research, medicine and agriculture.

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Blending theory with real-world experience, you’ll learn to apply geographical information science (GIS) software and remote-sensing technologies for data analysis, data modelling and developing map visualisations.

We broaden your critical-thinking and teach you how to apply GIS to solve key environmental, societal or planning issues faced in today’s modern world.

You’ll be equipped to pursue a broad range of career opportunities, including roles in education, natural resource management, national parks, and wildlife conservation.

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Undertake a minor in human physiology to examine how cell, tissue and organ systems function within the human body.

Learn the vital roles played by our brain, nerves and hormones in controlling cardiovascular, respiratory, reproductive and metabolic processes important to our survival. 

Apply scientific methods to investigate how the failure of these systems can result in disease or disorders.

Study physiological functions at a molecular and cellular level to examine how the body’s core processes are altered in diseased states.

Develop a holistic understanding of the complex links between the body, mind and disease by combining your minor with related courses in human anatomy, neuroscience, pharmacology or food science and nutrition.

In-depth knowledge of human physiology is essential if you are considering further study in the field of medicine, biomedical science or allied health. It can also lead to a range of career opportunities across the health, education, science or pharmaceutical sectors.

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This minor will challenge and expand your problem solving, logical thinking and conceptual ability. You'll gain quantitative and analytical skills, along with a foundation of calculus, linear algebra, probability, discrete mathematics, mathematical analysis and modelling.

You’ll develop and apply your knowledge through practical experience, structured tutorials, and specialised lectures.

Our comprehensive mathematical training equips you for a broad range of opportunities across education, banking, finance, insurance, business, engineering, science, information technology and risk management.

Studying mathematics also gives you a strong foundation to continue into a higher degree by research and excel in research positions within universities, government agencies and private companies.

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In this minor, you'll study the diversity of microorganisms, the immune system, microbial virulence, disease states and the ways in which organisms respond to infection.

You'll learn how vaccines protect animals and humans from infectious diseases, and discover the latest advances in vaccine development from lecturers who are globally recognised experts.

Focusing on the key areas of immunology, virology, parasitology, environmental microbiology, microbial biotechnology and microbial genomics, you'll study bacterial, fungal and viral infections and apply your knowledge in weekly laboratory practicals.

You'll confidently use the specialist biomedical and molecular techniques required to diagnose and characterise infectious microbes and to develop new diagnostics. Problem-based scenarios will enhance your analytical, research and communication skills.

This minor will add depth to your biological sciences knowledge and equip you with essential technical skills to enhance your employability or prepare you for a career in research. 

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Study neuroscience to deepen your understanding of how the human brain and nervous system function.

Examine the complexities of the brain and nervous system to explore how neural systems develop, process sensory information, control our movement, form memories, react to stress, respond to disease and store vital information about the world around us.

Studying neuroscience will equip you to enter the workforce in fields as diverse as education, business, biotechnology, health, science or the pharmaceutical industry.

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Study pharmacology to learn the science behind how drugs work to treat and cure diseases.

You’ll gain comprehensive knowledge on how drugs work in the human body at the molecular cellular and whole-body level, and discover why many drugs do not work in every patient.

You'll learn how active chemical agents in medicines affect our cells, tissue or organs to examine their benefits, side effects and interactions on human health.

Learn the latest techniques to test drug effects and how to evaluate their benefits and risks in treating human diseases.

Gain vital research experience while you study by contributing to projects that could lead to new medical breakthroughs.

A minor in pharmacology will prepare you for employment or research opportunities within healthcare organisations, education, medical research institutions, pharmaceutical or biotechnology companies, universities and hospitals.

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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 kick-start your career in research to uncover new scientific knowledge or apply your findings to develop new devices, products or processes.

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In this minor, you’ll learn and apply the science behind breeding high-yielding, pest-resistant crops to help farmers increase their productivity.

You'll study ecology, plant pathology, plant physiology and plant biotechnology, and apply your knowledge to use plant-based sources to develop biofuels, medicines or healthier food products.

Studying plant science can lead to rewarding career opportunities with multinational companies, high schools, universities, or government departments.

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In this minor, you'll explore topics like brain function, memory, conscious experience, lifespan development and social behaviour, together with the full spectrum of functional and dysfunctional behaviours.

Graduates undertake careers in education, human resources, mental health services, youth and child support work, or fields a diverse as marketing, aged care and corrective services.

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