Enter OTP
6 Years On Campus Bachelors Program
University of SydneyThe Bachelor of Engineering Honours (Chemical and Biomolecular Engineering) and Bachelor of Laws at the University of Sydney is a high-impact double degree designed for students who want to combine advanced engineering knowledge in chemical and biological systems with a professional legal qualification. It suits students aiming for leadership roles in regulated industries such as biotechnology, pharmaceuticals, energy, and environmental law, where science, innovation, and regulation intersect.
Students study at the University of Sydney’s Camperdown/Darlington Campus in Sydney, gaining access to world-class engineering laboratories, biomolecular research facilities, law libraries, and legal simulation spaces that connect science, technology, and legal practice.
Curriculum Structure
Year 1
In the first year, students build strong foundations in mathematics, chemistry, biology, engineering principles, and introductory law. Core units typically include Chemistry 1A, Physics for Engineers, Engineering Design, and Foundations of Law. This year develops essential analytical thinking across both scientific systems and legal reasoning.
Year 2
Year 2 introduces core chemical and biomolecular engineering concepts alongside legal fundamentals. Engineering studies include Fluid Mechanics, Thermodynamics, and Biochemical Processes, while law subjects expand into Contracts and Torts. Students begin understanding how engineering systems operate within legal frameworks.
Year 3
Students advance into more specialised engineering and law subjects. Engineering units include Separation Processes, Reaction Engineering, and Biomolecular Engineering Fundamentals, while law studies include Criminal Law and Constitutional Law. This year strengthens both technical depth and legal reasoning capability.
Year 4
Year 4 focuses on advanced engineering systems and intermediate-to-advanced law. Engineering includes Process Design, Transport Phenomena, and Bioprocess Engineering, while law studies extend into Administrative Law and Corporate Law. Students begin applying knowledge to real-world industrial and regulatory problems.
Year 5
Engineering becomes highly applied through advanced design projects and laboratory integration, including Chemical Process Design and Biomolecular Systems Engineering Projects. Law studies focus on Commercial Law and Intellectual Property Law, preparing students for professional legal practice alongside technical expertise.
Year 6–6.5
The final stage integrates advanced engineering honours research with completion of the law degree. Students complete a major engineering honours thesis in chemical and biomolecular engineering alongside advanced legal electives and professional legal training components, developing expertise across both disciplines.
Focus Areas
Chemical engineering, biomolecular engineering, biotechnology systems, pharmaceuticals, environmental engineering, commercial law, intellectual property law, regulatory frameworks, process design, and sustainable industrial systems.
Learning Outcomes
Graduates are able to design and optimise complex chemical and biological systems while also interpreting and applying legal frameworks that govern scientific innovation and industrial practice. They develop strong analytical, technical, and legal reasoning skills suited for multidisciplinary leadership roles.
Professional Alignment (Accreditation)
The engineering component is accredited by Engineers Australia (Washington Accord), ensuring international recognition. The law component provides the academic pathway toward legal practice qualification in Australia.
Reputation (Employability & Rankings)
The University of Sydney is consistently ranked among the world’s top universities, with strong global reputation in engineering, law, and biomedical sciences, and excellent graduate employability outcomes across professional sectors.
At the University of Sydney, experiential learning in this double degree is designed to make you operate like both an engineer and a legal professional from early in your studies. You’ll move between advanced engineering laboratories, biomolecular research environments, and law school moot courts, gaining hands-on experience in solving real scientific problems while also learning how laws, regulations, and policy shape innovation in industries like biotechnology and pharmaceuticals.
A key feature of the program is its integration of laboratory science, legal practice simulation, and industry-connected learning, supported by Sydney’s research-intensive environment and professional training facilities:
Graduates from the University of Sydney double degree are uniquely positioned to work at the intersection of advanced engineering innovation and complex legal and regulatory systems. You graduate with the ability to design chemical and biomolecular systems while also interpreting and applying legal frameworks that govern science, technology, and industry.
This combination opens doors to highly specialised, high-responsibility careers across engineering, law, biotechnology, pharmaceuticals, and government regulation:
Typical career paths include: chemical/bioprocess engineer, intellectual property lawyer (with further qualification), regulatory affairs specialist, and technology or biotech policy advisor.
Progression is strongly supported through structured university services and strong industry engagement:
Further Academic Progression:
After graduation, students can pursue Practical Legal Training (PLT) for admission as a solicitor, Master of Laws (LLM), Master of Engineering Science, Master of Biotechnology, or research degrees (MPhil/PhD) at University of Sydney, specialising in advanced biotechnology systems, patent law, or chemical engineering innovation.
The minimum academic requirement for admission is an IB score of 38 or A-Level grades of A*AA for eligibility.The minimum ATAR requirement for admission is 95.5 , meeting the standard entry eligibility criteria.IELTS score A minimum result of 7.5 overall and a minimum result of 7.0 in each band TOEFL - IBT score or A minimum result of 105 overall including a minimum result of 23 in Reading, Listening and Speaking and 25 in WritingThe minimum entry requirement for domestic students completing Australian Year 12 is an ATAR of 99.5.The minimum entry requirement for domestic students with completed high school is an SAT score of 1540 or an ACT score of 35.The minimum entry requirement for domestic students completing the Indian School Certificate is a score of 97.The minimum entry requirement for domestic students completing GCE A Levels is a score of A*A*A*.Mathematics prerequisite This course has a Mathematics prerequisite.Assumed knowledge You are expected to have studied the following subjects in high school to succeed in this course: Mathematics Extension 1 Chemistry Physics English AdvancedIndia : The minimum ISC requirement for admission is 94 or HSSC score of 95 , meeting the standard entry eligibility criteria.US : The minimum requirement for admission is an SAT score of 1380, ACT score of 32, or a GPA of 3.7 or AP of 15-18.China : The minimum entry requirement is a Gaokao score of 85%.Chemical EngineerBiomolecular EngineerProcess EngineerBioprocess EngineerPharmaceutical EngineerBiotechnology EngineerEnvironmental EngineerMaterials EngineerManufacturing EngineerResearch and Development EngineerLegal AdvisorCorporate LawyerCompliance OfficerPolicy AnalystIntellectual Property Lawyer
Embark on your educational journey with confidence! Our team of admission experts is here to guide you through the process. Book a free session now to receive personalized advice, assistance with applications, and insights into your dream school. Whether you're applying to college, graduate school, or specialized programs, we're here to help you succeed.
 in Europe1779357712.webp)
