Chemistry is the central science. It deals with the composition, structure, and behaviour of the atoms and molecules that make up all forms of matter. Understanding the world at an atomic level is essential to all areas of science. Chemistry interlinks and contributes to medicine, geology, materials science, molecular physics, biology, and astronomy.
Its central role in science is emphasised by the fact that Chemistry merges with Biological Sciences (the field of biochemistry) at one extreme, and with Physics (physical chemistry and chemical physics) at the other.
Chemistry propels advances in modern society and has an important role to play in solving major global challenges such as energy sustainability, food supply, health, and the environment. Every day, we utilise products developed by experimental chemists, such as plastics, fabrics, petrol, and pharmaceuticals.
- Te Kura Matū | School of Physical and Chemical Sciences at UC carries out research, teaching, and scholarship in all of the traditional areas of the discipline – inorganic, organic, physical, theoretical, environmental, and analytical chemistry. The School is also involved with the teaching of Biochemistry and provides service courses for engineers, biologists, and foresters.
- The School is equipped with excellent facilities both in undergraduate laboratories and for research work. Research activities include investigations into such diverse topics as chemical biology, synthesis, supramolecular chemistry, theoretical and computational chemistry, surface and electrochemistry, trace elements in the environment, nanotechnology, and new materials.
Year 13 chemistry is recommended preparation for first-year students, but for those who have had minimal preparation in chemistry, we offer CHEM 114 Foundations of Chemistry, an introductory Chemistry course.
Students enrolling in CHEM 111 Chemical Principles and Processes and CHEM 112 Structure and Reactivity in Chemistry and Biochemistry must have at least 14 credits in NCEA Level?3 chemistry, or an equivalent background in other courses of study (eg, IB/Cambridge or overseas qualifications). Students with less than this standard should first enrol in CHEM?114 Foundations of Chemistry.
Students with outstanding results in NCEA Level 3 (or IB/Cambridge equivalent) and/or scholarship may be invited to enter directly into second-year courses.
For most students, first-year Chemistry consists of two half-year courses:
- CHEM 111 Chemical Principles and Processes
- CHEM 112 Structure and Reactivity in Chemistry and Biochemistry
These build on, and expand, the basic framework provided by Year 12 and Year 13 chemistry. They provide a background for advanced courses in Chemistry and for courses in Engineering, Biochemistry, Biological Sciences, Environmental Science, Geology, and Forestry Science.
All 100-level courses involve fortnightly three-hour laboratory sessions that provide an opportunity to work with chemicals, to better understand course material from lectures and to acquire some of the basic practical skills of the trained chemist. Additionally, two-hour workshops are dedicated to working through problems and questions on the course material.
200-level and beyond
200-level Chemistry courses develop and expand on the first-year material and give a deeper treatment of specialised areas such as organic and inorganic reactions, structural methods, and physical, environmental, and analytical chemistry.
300-level courses build upon the practical and theoretical foundations established in the first two years to give students the ability to work with and understand the chemistry of complex systems and molecules. These courses emphasise the place of chemistry in the modern world and provide for the use of modern chemical instrumentation and analytical methods.
Bachelor of Science with Honours
Students who are high achievers (B+ average and above) in their 300-level majoring subject may enrol in a Bachelor of Science with Honours. This involves an additional fourth year of study, which includes a research project.
Students that gain direct entry into second-year courses from secondary school have the opportunity to complete a Bachelor of Science with Honours in three years.
Aotearoa New Zealand's unique mix of primary and secondary industries provides a wide choice of careers in chemistry. Expanding industries in Aotearoa, for example those related to new sources of energy and to the development of forestry and dairy resources, are further increasing the demand for qualified chemists.
Aotearoa needs chemists in teaching, industry, health, and research.
- Chemists are key members of developmental teams in the pharmaceutical industry.
- Industry uses chemists in such areas as research and development of new products, monitoring product composition and quality, and environmental monitoring and regulation.
- Hospitals and other health services employ chemists in areas such as biochemical research, medical analysis, and toxicology.
- A degree in Chemistry is a good start to a teaching career with its emphasis on laboratory work and its relevance to other sciences.
- The majority of chemical research in Aotearoa is done in universities, Crown Research Institutes, and private laboratories. These institutions provide chemical challenges equal to any in the world.
Chemists are well trained in problem solving and skilled at handling information, which leads naturally into a wide diversity of job opportunities, including sales and management.
Find out more about what you can do with a degree in Chemistry.
See the School's website for up-to-date location details.
College of Science | Te Rāngai Pūtaiao
University of Canterbury | Te Whare Wānanga o Waitaha
Private Bag 4800
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