Bachelor of Engineering (Honours)(Electrical Engineering) / Science (Computer Science)

At the University of New South Wales (UNSW), students pursuing the Bachelor of Engineering (Honours) in Electrical Engineering and the Bachelor of Science in Computer Science are immersed in a dynamic learning environment that emphasizes practical skills and real-world applications. The programs are designed to bridge the gap between theoretical knowledge and hands-on experience, ensuring that graduates are well-prepared for the challenges of the industry. With state-of-the-art facilities and a strong focus on experiential learning, students have access to a variety of tools and resources that enhance their educational journey.

Here are some key aspects of the experiential learning opportunities available in these programs:

- Cutting-edge Laboratories: Students work in specialized labs equipped with the latest technology, including the Electrical Engineering Teaching Lab and the Computer Science Teaching Lab, where they can conduct experiments and develop projects.

- Industry Partnerships: UNSW collaborates with leading companies, providing students with opportunities for internships and industry placements that offer invaluable experience and networking opportunities.

- Group Projects: Collaborative projects are a core component of the curriculum, allowing students to work in teams to solve real-world problems, fostering teamwork and communication skills.

- Software and Tools: Students gain proficiency in industry-standard software such as MATLAB, Simulink, and various programming languages, which are essential for both Electrical Engineering and Computer Science.

- Field Trips and Site Visits: The programs include field trips to local industries and research facilities, giving students insights into the practical applications of their studies and exposure to potential career paths.

- Research Opportunities: Students can engage in research projects through UNSW’s research institutes, such as the UNSW School of Electrical Engineering and Telecommunications, where they can contribute to cutting-edge advancements in technology.

- Access to Libraries and Resources: The UNSW library system provides extensive resources, including access to technical journals, databases, and study spaces that support student learning and research.

- Innovation and Entrepreneurship Programs: Students are encouraged to participate in programs that promote innovation and entrepreneurship, helping them to develop their ideas into viable projects.

These experiential learning opportunities not only enhance academic knowledge but also equip students with the skills and experiences that employers value. By choosing UNSW, you’re setting yourself up for a successful career in engineering or computer science.

Graduates of the Bachelor of Engineering (Honours) (Electrical Engineering) / Bachelor of Science (Computer Science) from UNSW are uniquely positioned to thrive in industries where engineering, software, data, and digital technologies converge. By combining expertise in electrical systems with advanced computing knowledge, graduates develop a highly versatile skill set that is increasingly sought after by employers across technology-driven sectors. This dual degree prepares students to design intelligent systems, develop innovative software solutions, and contribute to the advancement of emerging technologies shaping the future.

Typical career pathways include: Electrical Engineer, Software Engineer, Systems Engineer, Embedded Systems Engineer, Machine Learning Engineer, Data Scientist, Telecommunications Engineer, Artificial Intelligence Engineer, Cyber Security Specialist, and Technology Consultant.

This strong career outlook is supported by UNSW's global reputation and extensive industry connections:

• UNSW Careers and Employability offers career coaching, resume and interview support, networking opportunities, mentoring programs, internship assistance, and graduate recruitment services.
• Graduates are highly sought after across industries including software development, artificial intelligence, telecommunications, renewable energy, cybersecurity, advanced manufacturing, fintech, cloud computing, defence, and smart infrastructure.
• Median starting salaries for engineering and computer science graduates in Australia typically range from AUD $75,000–$95,000+, with software engineering, artificial intelligence, data science, and technology specialist roles often attracting even higher long-term earning potential.
• UNSW maintains strong partnerships with leading global technology companies, engineering organizations, research institutes, and multinational employers, creating valuable opportunities for internships, industry projects, and graduate employment.
• Accreditation by Engineers Australia ensures graduates meet internationally recognized engineering standards and supports professional engineering registration pathways worldwide.
• The combination of electrical engineering and computer science expertise provides a significant competitive advantage in fields where hardware, software, automation, and intelligent systems intersect.
• Students graduate with highly transferable skills in programming, systems design, software development, data analysis, machine learning, project management, critical thinking, and technical leadership.
• UNSW consistently ranks among Australia's leading universities for graduate employability and is internationally recognized for excellence in engineering, computer science, artificial intelligence, and innovation.

Further Academic Progression:

Upon completing this dual degree, graduates may pursue advanced postgraduate study through programs such as a Master of Artificial Intelligence, Master of Data Science, Master of Information Technology, Master of Engineering, Master of Cyber Security, Master of Renewable Energy, or Master of Business Administration (MBA). Students with an interest in research can continue into a Master of Philosophy (MPhil) or Doctor of Philosophy (PhD) in electrical engineering, computer science, artificial intelligence, machine learning, telecommunications, embedded systems, robotics, cybersecurity, or advanced computing. These pathways can lead to careers in academia, research leadership, advanced technology development, innovation management, entrepreneurship, and executive leadership within global technology organizations.