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BSc Financial Mathematics with A Year of Study Abroad
About this course
Financial mathematics applies the tools of advanced mathematics to the analysis of financial markets, instruments, and risk. It is a discipline that has grown enormously in importance since the development of quantitative finance in the latter decades of the twentieth century, and it underpins the pricing of derivatives, the management of investment portfolios, the modelling of credit and market risk, and the algorithmic systems that drive much of modern financial trading. The work draws on probability theory, stochastic calculus, differential equations, statistics, and numerical methods, and it requires both mathematical rigour and an understanding of the financial contexts in which the mathematics is applied. At Cardiff University, this four-year programme includes a year of study abroad, which the title reflects directly. The year abroad gives you the opportunity to study financial mathematics or a related discipline in an international academic environment, broadening your perspective and your professional network in a field that is genuinely global. The curriculum builds from a strong foundation in mathematics, including calculus, linear algebra, probability, and statistics, through to more advanced topics in mathematical finance, including stochastic processes, financial derivatives, risk theory, and computational finance. Programming and numerical methods are integrated into the programme, reflecting the centrality of computational tools in modern financial mathematics practice. You will develop both theoretical depth and the ability to implement and apply mathematical models using software. Graduates from financial mathematics programmes are among the most sought-after by employers in the financial sector. Roles in investment banking, asset management, hedge funds, insurance, and risk management draw directly on the technical skills developed in the degree. Actuarial roles, quantitative analysis, algorithmic trading, and financial modelling are further destinations. The degree also provides a strong platform for careers in data science and technology sectors, where mathematical sophistication is increasingly valuable. Many graduates pursue further qualifications, including actuarial examinations, and postgraduate study in mathematical finance, financial engineering, or applied mathematics is a common route for those who want to develop deeper expertise or move into research.
Syllabus & Modules
Typical curriculumStudent Satisfaction
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