BSc Mathematics

Undergraduate Entry Requirements

Academic Qualifications: Applicants should have successfully completed their secondary education with a minimum overall score of 80% or equivalent in their respective country's grading system.

English language proficiency:

• IELTS: A minimum overall score of 6.0 or 6.5 with no individual component below 5.5.
• TOEFL: A minimum overall score of 90.
• PTE Academic: A minimum overall score of 69.
• Some programs may have specific subject prerequisites or additional requirements.

Cardiff University offers a range of scholarships to support international students pursuing undergraduate studies. These scholarships are designed to attract high-achieving students from around the world, easing the financial burden and recognizing academic excellence. 

Vice-Chancellor’s International Scholarship: Cardiff University’s Vice-Chancellor’s International Scholarship is a merit-based award that provides partial funding for exceptional international undergraduate and postgraduate students. This scholarship rewards high academic achievement and study, making it ideal for students with strong academic backgrounds.

Chevening Scholarship: Offered in collaboration with the UK government, the prestigious Chevening Scholarship is available to international students who demonstrate leadership potential and academic excellence. The award covers tuition fees, living expenses, travel costs, and other allowances, supporting future leaders and influencers in various fields.

British Council GREAT Scholarships: Cardiff University partners with the British Council to offer the GREAT Scholarships for students from specific countries, including China, India, Malaysia, and Thailand. These scholarships provide financial assistance for tuition fees and are intended to encourage bright students to pursue postgraduate studies in the UK.

Subject-Specific Scholarships: Certain academic departments at Cardiff University offer additional scholarships tailored to specific fields of study, such as engineering, business, and life sciences. These scholarships provide partial funding and are aimed at attracting talented students to specific programs.

International Foundation Programme Scholarships: For international students who need to complete a foundation year before beginning an undergraduate degree, Cardiff University offers scholarships to cover part of the foundation year tuition fees. This scholarship supports students in their transition to full-time degree programs at the university.

Financial Aid and External Scholarships: In addition to Cardiff University scholarships, students can explore external funding options such as loans, grants, and scholarships provided by their home countries or private organizations. The university’s financial aid office offers guidance to help students find external financial support.

Graduates of the BSc Mathematics program from Cardiff University are well-equipped to pursue a broad range of career paths across multiple industries due to their strong problem-solving skills, analytical thinking, and quantitative expertise. With a mathematics degree, graduates are highly sought after in sectors such as finance, technology, engineering, data science, and academia. The program’s rigorous curriculum, which includes both pure and applied mathematics, ensures that students develop the critical thinking and technical skills required by employers.

Data Analyst: Graduates can pursue careers as data analysts, working in industries such as finance, technology, healthcare, or retail. Data analysts use statistical methods and mathematical models to analyze large datasets, extract meaningful insights, and support decision-making processes. They may work in areas such as market research, consumer behavior analysis, or financial forecasting.

Financial Analyst: A mathematics degree provides the foundational skills necessary for a career as a financial analyst, where graduates use mathematical models and statistical techniques to analyze financial data, assess investment opportunities, and help businesses make informed financial decisions. Financial analysts are in demand across banking, investment firms, and insurance companies.

Statistician: Many graduates become statisticians, specializing in data collection, analysis, and interpretation. Statisticians are essential in sectors like public health, government agencies, market research, and scientific research, where they apply mathematical techniques to design surveys, test hypotheses, and predict trends.

Actuary: Actuaries use mathematical and statistical methods to assess and manage risks in industries such as insurance, pensions, and finance. They calculate the probability of events and analyze financial consequences, helping organizations develop strategies to mitigate risks. This career is highly lucrative and requires expertise in mathematics, probability, and finance.

Software Developer: Graduates with programming skills can pursue careers as software developers, using mathematical algorithms and logic to create and improve software applications. They may work in areas such as web development, mobile apps, or systems software, applying their knowledge of mathematics to optimize performance and solve complex computational problems.

Operations Research Analyst: Operations research analysts use mathematical modeling and optimization techniques to solve complex business problems. Graduates can work in manufacturing, logistics, supply chain management, or consulting, helping organizations optimize processes, reduce costs, and improve efficiency through mathematical analysis.

Quantitative Analyst: A quantitative analyst, or "quant," uses mathematical models to analyze financial markets, assess risk, and develop strategies for trading or investing. This role is particularly prominent in hedge funds, investment banks, and financial institutions. Quants are valued for their ability to apply advanced mathematics to real-world financial problems.

Researcher: Graduates can also pursue careers as researchers in academia or industry, contributing to advancing knowledge in areas like applied mathematics, statistics, and data science. Research positions are available at universities, government institutions, and private companies involved in scientific and technological advancements.

Engineer: Mathematics graduates can work as engineers, applying mathematical principles to design, analyze, and optimize systems, structures, and technologies. With a focus on problem-solving and analytical skills, they may specialize in areas such as mechanical, civil, electrical, or software engineering.

Mathematics Teacher: Graduates who are interested in education can pursue teaching roles, educating the next generation of students in schools or universities. Teaching mathematics at the secondary or higher education level offers the opportunity to inspire and guide students, fostering a new appreciation for the subject.

Machine Learning Engineer: With expertise in algorithms and statistical analysis, mathematics graduates can work as machine learning engineers, creating algorithms and models that allow machines to learn from data and make decisions. This role is highly relevant in fields like artificial intelligence (AI), robotics, and data science.

Consultant: Graduates can enter consulting, where their analytical and problem-solving abilities can be applied to help businesses solve complex problems. Consultants in industries such as management, technology, or finance use their mathematical expertise to provide data-driven solutions and strategic advice to clients.

Risk Analyst: In fields like banking, insurance, and finance, risk analysts use mathematical techniques to assess potential risks and determine strategies to minimize them. Graduates work with large datasets and financial models to analyze market risks, economic factors, and regulatory changes.

Cryptographer: Mathematics graduates can work in the field of cybersecurity as cryptographers, developing encryption algorithms to protect sensitive data. Cryptography plays a crucial role in ensuring the security of online communications, financial transactions, and government systems.

Business Analyst: A business analyst uses mathematical models and data analysis to help companies improve their operations and strategies. Graduates may work in various sectors, including finance, technology, retail, or manufacturing, analyzing data to make recommendations on how to increase efficiency and profitability.

Supply Chain Analyst: Supply chain analysts apply mathematical optimization methods to improve the efficiency and effectiveness of supply chains. Graduates work with logistics companies, manufacturing industries, or large retailers, analyzing data to optimize inventory levels, reduce costs, and ensure timely delivery of goods.

Economist: A background in mathematics is highly valuable for economists, as they use quantitative methods to analyze and predict economic trends, assess policies, and advise governments or businesses. Economists with mathematical expertise can work in financial institutions, think tanks, and government agencies.