Over 100 popular undergraduate majors worldwide — explore what you’ll study, career paths after graduation, and more. Helping high school students choose the right major and plan their courses ahead.
For students fascinated by how the natural world works—from atoms and cells to ecosystems and galaxies.
The language of science and logic—from pure theory to applied problem-solving in finance, engineering, and technology.
Understanding the fundamental laws of nature—from subatomic particles to the structure of the universe.
The science of matter and its transformations—from drug discovery to materials design to food technology.
Explore the science of living organisms, from molecular biology and genetics to ecology and evolution. Biological sciences provide the foundation for careers in research, biotechnology, and healthcare.
The science of collecting, analyzing, and interpreting data—essential for research, business intelligence, and policy-making.
Study environmental challenges through an interdisciplinary lens, integrating science, policy, and sustainability to address issues like climate change and biodiversity loss.
Study the physical and human processes that shape the Earth's landscapes, climates, and societies—from urban systems and climate science to GIS and spatial analysis.
Combine geographic information systems, remote sensing, and AI to analyze spatial data—powering urban planning, defence, and environmental monitoring.
Study the science behind food production, safety, and nutrition. This field applies chemistry, biology, and engineering to develop safe, nutritious, and sustainable food products.
Explore the universe from planets and stars to galaxies and the Big Bang—using physics, mathematics, and observational techniques to understand the cosmos.
Study the nervous system — brain structure, neural circuits, cognition, and behaviour at the intersection of biology, chemistry, and psychology.
Interdisciplinary study of the mind — combining psychology, neuroscience, linguistics, philosophy, computer science, and AI.
Study Earth's materials, processes, and history — from minerals and fossils to earthquakes and climate change.
Study the chemistry of living systems — proteins, DNA, enzymes, and metabolic pathways. The key bridge between biology and chemistry.
An interdisciplinary field addressing climate change, renewable energy, circular economy, and social equity through science, policy, and business.
Study the world's oceans — marine biology, physical oceanography, ocean chemistry, and the impact of climate change on marine ecosystems.
Study how organisms interact with each other and their environments — population dynamics, ecosystems, biodiversity, and conservation.
Study microorganisms — bacteria, viruses, fungi, and parasites — and their roles in health, disease, agriculture, and biotechnology.
For students who want to build software, analyse data, and shape the digital world.
The science of problem-solving with computation—algorithms, software systems, AI, and the theory behind it all.
Design, build, test, and maintain large-scale software systems—combining programming skills with engineering principles for reliable, scalable applications.
Build intelligent systems that can learn, reason, and act—from machine learning and neural networks to computer vision, NLP, and autonomous systems.
The science of extracting insights from data—combining statistics, programming, and domain knowledge to solve real-world problems.
Protect digital systems and data from cyber threats—combining computer science, cryptography, and risk management to defend networks, applications, and critical infrastructure.
Where technology meets business — design and manage enterprise systems, digital platforms, and AI-driven solutions.
Leverage data and computing to uncover insights and drive strategic business decisions across every industry.
Design and build interactive games — combining programming, art, storytelling, and psychology to create engaging digital experiences.
Design technology that people can actually use — combining user research, interaction design, psychology, and computing to create intuitive interfaces.
Applying computational methods to analyze biological data — from genomic sequences to protein structures
For students who want to design, build, and improve the systems and structures that shape our world.
Design, analyze, and manufacture mechanical systems—from tiny medical devices to massive power plants.
Design and build electrical systems—from microchips and circuits to power grids and telecommunications networks.
Design and build the infrastructure of society—bridges, buildings, water systems, and sustainable urban environments.
Design and build the hardware and software systems that power modern computing, from embedded systems and IoT devices to computer architecture.
Transform raw materials into useful products—from petrochemicals and pharmaceuticals to clean energy and sustainable manufacturing.
Apply engineering principles to healthcare—designing medical devices, prosthetics, imaging systems, and tissue engineering solutions.
Design and develop aircraft, spacecraft, and satellite systems—combining aerodynamics, propulsion, and materials science to push the boundaries of flight and space exploration.
Optimize complex systems and processes to improve efficiency, quality, and productivity. Industrial engineering applies mathematics, analytics, and engineering to solve operational challenges.
Design intelligent robotic systems that perceive, reason, and act in the physical world. This cutting-edge field combines mechanical engineering, AI, and control systems.
Apply engineering principles to protect and improve the environment, from water treatment and air quality management to sustainable infrastructure design.
Engineer advanced materials that enable modern technology, from semiconductors and nanomaterials to biomaterials and sustainable composites.
An interdisciplinary engineering degree combining deep foundations in mathematics and physics with broad exposure across engineering disciplines—ideal for research-oriented students.
Plan, design, and manage the construction of buildings and infrastructure—combining building science, project management, and sustainable design.
Explore the science and business of global shipping, port management, and maritime technology—powering an industry that carries over 80% of world trade.
Apply nuclear physics to energy, medicine, and industry — reactor design, radiation protection, nuclear materials, and fusion research.
Apply engineering to agriculture and food production — irrigation, farm machinery, soil conservation, food processing, and precision agriculture.
Apply biological systems to develop products and technologies for healthcare, agriculture, industry, and the environment—spanning genetic engineering, biopharmaceuticals, and synthetic biology.
For students interested in how organisations operate, how markets work, and how value is created.
A broad foundation in how businesses operate—management, marketing, finance, operations, and strategy.
Study how money, investments, and financial markets work—from corporate finance and portfolio management to risk analysis and financial modelling.
The language of business—learn financial reporting, auditing, taxation, and the skills needed for professional accounting qualifications.
Understand how products reach consumers—from brand strategy and digital marketing to consumer psychology, market research, and advertising.
Apply advanced mathematics, statistics, and computational methods to financial markets and risk management. Quantitative finance prepares you for careers in trading, risk analysis, and financial engineering.
Study property markets, valuation, investment, and development—combining finance, urban planning, and law to navigate one of the world's most important asset classes.
Study how businesses operate across borders — global trade, cross-cultural management, international finance, and supply chain logistics.
Manage hotels, resorts, events, and tourism operations — combining business skills with service industry expertise.
Manage the flow of goods from source to consumer — procurement, inventory, transportation, warehousing, and demand forecasting.
Learn to build and scale new ventures — opportunity recognition, business model design, fundraising, lean startup methodology, and innovation management.
Manage people in organisations — recruitment, training, compensation, organisational behaviour, and talent strategy.
Apply mathematics, statistics, and financial theory to assess and manage risk in insurance, pensions, and finance—bridging probability with real-world business decisions.
For students drawn to understanding the human body, improving health, and caring for patients.
The study and practice of diagnosing, treating, and preventing human disease—one of the most demanding and rewarding paths.
Provide direct patient care and health education—a profession combining medical knowledge, empathy, and clinical skills.
The science of medicines—understanding how drugs work, how to develop them, and how to ensure safe and effective use for patients.
Study how to protect and improve the health of entire populations—through epidemiology, health policy, biostatistics, and disease prevention strategies.
Diagnose, treat, and prevent diseases of the teeth and mouth—a hands-on healthcare profession combining science and fine motor skills.
Study human movement, exercise physiology, and sports management—preparing for careers in athletic coaching, sports medicine, and the fitness industry.
Study traditional Chinese medicine theory, acupuncture, herbal pharmacology, and clinical practice—integrating Eastern medical traditions with modern biomedical science.
The science underlying medicine — anatomy, physiology, pathology, pharmacology. The primary undergraduate pathway to medical school or biomedical research.
Study the science of food and nutrition — how nutrients affect health, and how to apply this knowledge clinically and in public health.
Study animal health and medicine — anatomy, surgery, pharmacology, and public health aspects of veterinary practice.
Help people move better and recover from injury — musculoskeletal assessment, exercise prescription, manual therapy, and rehabilitation.
Provide eye and vision care — ocular anatomy, optics, refraction, contact lens fitting, and disease detection.
A healthcare profession helping people participate in meaningful daily activities after injury, illness, or disability—combining anatomy, psychology, and rehabilitation science.
Train as the scientists behind clinical diagnoses—performing blood tests, microbiology cultures, tissue analysis, and molecular diagnostics that doctors rely on daily.
For students who want to understand how societies work—through psychology, policy, law, and communication.
The scientific study of mind and behavior—how people think, feel, and act, from brain mechanisms to social influences.
The study of how societies allocate scarce resources—from market behaviour and monetary policy to international trade and development.
Study legal systems, rights, and justice—develop analytical reasoning and advocacy skills for a career in law or policy.
Study how power is structured, exercised, and contested—from national governance and international relations to political philosophy and public policy.
Understand how information shapes society—from journalism and public relations to digital media and strategic communication.
Understand how societies function and how governments respond—studying social structures, inequality, and institutions through empirical research, critical theory, and policy analysis.
Study how states, international organisations, and non-state actors interact—from diplomacy and security to global trade, human rights, and conflict resolution.
Prepare to teach and inspire the next generation—combining subject expertise with pedagogy, child development, and classroom practice.
Study human societies, cultures, and biological evolution through fieldwork, ethnography, and cross-cultural comparison.
Learn to report, investigate, and tell stories that matter — across print, broadcast, and digital platforms.
Study how governments design, implement, and evaluate policies — combining political science, economics, and data analysis.
Study crime, criminal behavior, and justice systems — from policing and corrections to forensic psychology and crime prevention.
Examine gender, sexuality, and identity across cultures — drawing on feminist theory, queer theory, and intersectionality.
Design and manage cities and communities — land use, transportation, housing, and environmental planning for livable urban spaces.
Academic study of world religions — Christianity, Islam, Buddhism, Hinduism, and more — through historical, cultural, and philosophical lenses.
Interdisciplinary study of global issues — globalization, development, human rights, migration, and conflict across borders and cultures.
A professional discipline focused on empowering individuals, families, and communities—combining psychology, sociology, and policy with hands-on fieldwork and clinical practice.
For students who explore human experience through creativity, language, history, and artistic expression.
Investigate how societies, cultures, and political systems have evolved—building research, analysis, and argumentation skills applicable to law, policy, journalism, and beyond.
Examine fundamental questions about existence, knowledge, ethics, and reasoning—developing rigorous analytical and argumentative skills prized in law, policy, and technology.
Study language, literature, and culture across traditions — from English and Chinese literature to creative writing and literary criticism.
Design and shape the built environment through creative vision and technical expertise. Architecture combines art, engineering, and sustainability to create spaces that enrich human life.
Create user-centered products and experiences that combine aesthetics, functionality, and engineering. Industrial design shapes everything from consumer electronics to medical devices.
Study music performance, composition, and theory at a leading conservatory—developing artistry and technical mastery for a career in the performing arts.
Study the art and craft of filmmaking, media production, and visual storytelling—from screenwriting and directing to media theory, cultural criticism, and digital content creation.
Study the languages, cultures, histories, and societies of Asia—from Chinese and Japanese studies to Southeast Asian and South Asian civilisations.
The scientific study of language — how it is structured, acquired, and used across cultures.
Explore drama, performance, and cultural production through both critical theory and creative practice.
Study visual arts across cultures and periods — painting, sculpture, architecture. Develop visual literacy, critical analysis, and curatorial skills.
Study ancient Greek and Roman civilizations — classical languages, literature, philosophy, history, and archaeology.
Craft fiction, poetry, nonfiction, and screenwriting through workshops, peer critique, and portfolio development.
Visual problem-solving — typography, branding, UI/UX, motion graphics, and digital design combining creativity with communication strategy.
Study and practice dance as an art form — technique, choreography, dance history, and performance combining physical training with academic study.
Study past human societies through material remains—artifacts, architecture, landscapes, and biological evidence—combining fieldwork, laboratory analysis, and computational methods.
Combine creative design with technical skills in pattern-making, textiles, and garment construction—spanning haute couture, sustainable fashion, and fashion technology.
Design functional, safe, and aesthetically meaningful interior spaces—combining spatial planning, materials knowledge, building codes, and human psychology.
Our education consultants can help you explore your interests and find the right major.