Science holds the key to many of the challenges – pandemics, climate change, antibiotic resistance – that threaten the world today. With the UTS Bachelor of Science, students can take their place at the forefront of a profession with the power to build resilience in both humanity and the planet.
This flagship degree has been designed with flexibility in mind: with eight majors to choose from and extensive elective blocks on offer, students can build a degree that’s uniquely theirs. In their first year, they gain access to what we call the ‘scientist’s toolkit’, a series of core subjects designed to help them critically analyse the ways in which science can help solve global problems.
From there, they can dive into specialist science subjects in their chosen major, working in world-class facilities and on industry-standard equipment. Our practice-based learning approach means students learn by doing, translating scientific theory into real-world practice. But they don’t just do it in the classroom: extensive professional experiences, from internships and field trips to global exchange placements, help bring their learning to life.
At UTS, we believe science is about more than just what happens in the lab. Bachelor of Science students pair the study of in-depth scientific subjects with the development of crucial professional skills – inquiry, reflection, innovation and communication – that prepare them for a diverse and thriving career.
UTS Chemistry graduates are recognised within industry for their laboratory skills. This major emphasises the translation of theoretical learning into hands-on lab-based practice. Students explore chemistry in all its forms, from organic and physical to analytical, inorganic and medicinal, and upskill in a secondary discipline with a choice of sub-majors in Mathematics, Physics, Biotechnology, Environmental Science or Medical Science. They emerge with depth of experience and breadth of expertise, ready to make their mark in a range of careers.
Analytical, inorganic, organic and physical chemistry; materials science; polymer science; surface chemistry. Students also have the opportunity to take subjects in medicinal, pharmaceutical and toxicological chemistry; forensic chemistry; nanotechnology. Students may also undertake undergraduate research projects in current areas of research being carried out at UTS.
Food, medical, cosmetic, energy, mining, agricultural, pharmaceutical, chemical, construction and environmental sectors, analytical chemists, organic chemists, research scientists, technical consultants or advisors, laboratory managers, quality control specialists, pharmacologist toxicologists, clinical trials managers, bio pharmacists or drug developers.
The table below shows the ATAR and Selection Rank information for those offered places wholly or partly on the basis of ATAR in 2023.
ATAR-based offers only, across all offer rounds | ATAR (excluding adjustment factors) | Selection Rank (including adjustment factors) |
---|---|---|
Highest rank to receive an offer | 93.75 | 98.75 |
Median rank to receive an offer | 77.85 | 81.55 |
Lowest rank to receive an offer | 69.05 | 74.1 |
<5 - Less than 5 ATAR-based offers were made
Please refer to the University of Technology, Sydney website for admission criteria information.
This information is sourced from Course Seeker, a joint initiative between the Australian Government and the Tertiary Admission Centres. View more information on Course Seeker.
Open to students from all universities, Honours in Biomedical and Health Sciences builds on your bachelor’s degree in science or health and enables you to explore your interests in research. If you’re interested in pursuing a PhD or becoming a qualified health professional, then Honours is an ideal pathway.
Find out more