Discover where your degree takes you.
Deep-dives into bachelor majors, mapping academic knowledge to industry demand. Use the Career Mapping tool to see specific company and role fit.
Applied Mathematics
Applied Mathematics is the bridge between abstract theory and reality. Unlike pure math, which explores logic for its own sake, this major focuses on using rigorous mathematical structures to model and solve complex real-world problems. From fluid dynamics in aerospace engineering to cryptographic protocols in cybersecurity, applied mathematicians translate the chaotic physical world into elegant, solvable equations.
Cognitive Science
The user manual for the human brain. An interdisciplinary powerhouse combining Computer Science, Psychology, Linguistics, and Neuroscience. You study how intelligence represents and processes information—whether it's on biological tissue (brains) or silicon chips (AI). It is the ultimate major for potential AI researchers and UX experts.
Computer Engineering
Standing at the intersection of Electrical Engineering and Computer Science, Computer Engineering focuses on the 'brains' of digital systems. While CS focuses on software and EE on circuits, CompE focuses on the integration of the two—designing the chips, firmwares, and sensors that make devices smart. It is the discipline of optimized computing hardware.
Computer Science
Rooted in mathematical rigor and computational theory, the Bachelor of Science in Computer Science prepares students to architect the digital future. This program transcends simple application development, challenging students to master the fundamental limits of computation, the elegance of algorithm design, and the intricate layer where software meets silicon. From developing next-generation AI foundation models to engineering safety-critical kernels, graduates emerge as high-level problem solvers capable of navigating the most complex technical landscapes of the 21st century.
Cybersecurity
In an era of digital warfare, Cybersecurity professionals are the defenders of the modern world. This major goes beyond installing antivirus software; it involves deep understanding of network protocols, operating system internals, and the psychology of adversaries. Students learn to think like hackers ('Red Teaming') to better defend systems ('Blue Teaming'), engaging in a constant cat-and-mouse game against global threats.
Data Analytics
Bridging the gap between raw data and business strategy, Data Analytics focuses on the practical application of data to drive decision-making. Unlike Data Science, which builds new predictive models, Analytics focuses on interpreting existing data to find 'the smoking gun'—the insight that saves millions or defines a new product strategy. It combines technical SQL/Python skills with strong business acumen and communication.
Data Science
The Bachelor of Science in Data Science is a high-intensity fusion of mathematical statistics and high-performance computing. Moving beyond simple analytics, this major focuses on 'Mathematical Fortune Telling'—using probability, linear algebra, and neural networks to predict outcomes and discover hidden patterns in massive, unorganized datasets. It is a rigorous path for students who want to build the predictive engines that drive modern medicine, finance, and autonomous systems.
Electrical Engineering
Masters of the invisible force. Electrical Engineering is the discipline that powers the modern world, from the microscopic transistors in a CPU to the massive turbines of a hydroelectric dam. It is mathematically rigorous, dealing with abstract concepts like fields, waves, and signals. Students learn to harness electricity to process information, transmit energy, and control physical systems.
Game Design
The architecture of fun. This is not 'playing games'; it is the rigorous study of systems, feedback loops, and player psychology. You build mathematical rulesets that generate emotion and engagement. Whether digital or tabletop, you are the director of the player's experience.
Graphic / Communication Design
Visual engineering. Graphic Design is about controlling perception. It is about hierarchy, typography, and clear communication, not just making 'art'. You solve business problems using visual tools, ensuring that the message cuts through the noise and lands with the intended audience.
HCI / Interaction Design
The psychology of screens. Human-Computer Interaction is not just about making things look good; it is about reducing the friction between humans and machines. It is a rigorous mix of coding, cognitive psychology, and design. You will learn to architect information, conduct user research, and build interfaces that are so intuitive they feel invisible.
Industrial Engineering
Industrial Engineering is the engineering of efficiency. While other engineers focus on building a better product, IEs focus on building a better process. Combining advanced mathematics, statistics, and psychology, this major teaches students how to optimize complex systems—whether it's a factory floor, a hospital ER, or a global supply chain—to eliminate waste and maximize value.
Information Systems / MIS
Bridging the critical gap between executive strategy and technical execution, the Information Systems major develops 'Business Translators'. This interdisciplinary program equips students with the technical depth to design massive database systems and the business acumen to ensure those systems drive real ROI. Graduates are experts in digital transformation, capable of analyzing corporate needs and deploying technology to optimize complex global supply chains and decision-making processes.
Information Technology
The 'Digital Plumber'. While CS creates new software, IT ensures the massive global infrastructure running that software actually stays online. You will configure routers, manage Linux servers, and fight cyberattacks in real-time. This is for people who love hands-on work with hardware, cloud platforms, and networks.
Mechanical Engineering
The broadest of all engineering disciplines, Mechanical Engineering is the study of anything that moves. From the aerodynamics of a Formula 1 car to the micro-fluidics of a medical device, mechanical engineers govern the physical world. This major combines rigorous physics (thermodynamics, fluid mechanics) with materials science and creative design to build tangible hardware.
Mechatronics / Robotics Engineering
Mechatronics is the engineering of autonomous systems. It is a multidisciplinary fusion of Mechanical, Electrical, and Software engineering dedicated to creating machines that can sense, think, and act. From self-driving cars to surgical robots, this major prepares students to build intelligent physical systems.
Network Engineering / Networking
Network Engineering is the discipline of building the global nervous system. While software engineers write the code, network engineers ensure the data actually arrives. This major focuses on the design, implementation, and management of the massive scale infrastructure—routers, switches, fiber, and cloud networks—that powers the internet. It requires a systemic mindset and deep knowledge of protocols.
Product Design
Inventing the physical future. Product (Industrial) Design merges art, engineering, and business. From the curve of an iPhone to the ergonomics of a chair, you decide how objects function, feel, and are manufactured at scale. It is about solving problems through physical form.
Quantitative Finance
Quantitative Finance is where Wall Street meets Rocket Science. This discipline treats financial markets as complex physical systems governed by the laws of probability and calculus. Students strive to model the stochastic nature of assets, price exotic derivatives, and manage risk using heavy-duty mathematics and high-performance computing. It is a field for those who trust numbers over gut feeling.
Software Engineering
The Bachelor of Science in Software Engineering is a professional degree focused on the disciplined, systematic approach to the development, operation, and maintenance of large-scale software. Students transition from 'coders' to 'architects', learning to manage the entire software lifecycle within complex organizational constraints. The curriculum emphasizes reliability, scalability, and security, ensuring that graduates can lead engineering teams to build products that remain maintainable and performant under the weight of millions of users.
Statistics
Probability theory, uncertainty science, and rigorous interpretation