Mathematicians apply and develop mathematical principles to solve problems in all areas of the sciences, technology, social sciences, business, industry and commerce.
To become a mathematician you usually have to study mathematics at university. There are a number of different degrees within which you can study mathematics. These include arts, engineering and science. Mathematics can also be studied at some universities as part of a double degree with other courses such as law, medicine, actuarial studies and finance. Mathematics and statistics are closely related areas and many students combine study in both. To get into these courses you usually need to gain your Senior Secondary Certificate of Education. Prerequisite subjects, or assumed knowledge, in one or more of English, mathematics, chemistry, physics and biology are normally required. Most universities in Australia offer degrees in these areas. Universities have different prerequisites and some have flexible entry requirements. Contact the institutions you are interested in for more information. For full details, refer to the entries on the website at www.goodcareersguide.com.au or university handbooks.
Mathematicians may perform the following tasks:
Mathematicians are employed in a wide range of capacities, such as scientists, top-level and mid-level managers, executives and administrators, academics and research personnel in universities, teachers, computer systems analysts and developers, and in the finance sector. They are in demand in ever-increasing areas where mathematical models are used, such as in insurance models in the finance industry, econometric models in government departments and models related to the physical sciences. The Commonwealth Scientific and Industrial Research Organisation (CSIRO), the Defence Science and Technology Organisation and other government bodies also employ mathematicians. Additionally, there is nearly always demand for teachers of mathematics, particularly in secondary schools.
An applied mathematician formulates and studies mathematical models of environmental, physical and social systems in order to understand and, where possible, optimise those systems.
A mathematical analyst analyses data and assesses risks within the finance and insurance industries, as well as market research, biosecurity and genetics.
A mathematical modeller constructs mathematical models (often via computer technology) to simulate real phenomena across a wide range of applications, including meteorology, geography and finance.
A pure mathematician develops new mathematical structures and approaches to solving existing problems, in order to further mathematical knowledge.
A scientific programmer develops algorithms and computer programmes for use in mathematical modelling, data analysis and problem-solving in fields such as industrial design, climate science and geoscience.