MA Migration Studies
The MA in Migration and Refugee Studies at Sussex is a one-year full-time or two-year p...
BSc (Hons) Mathematics (with a foundation year)
Falmer
INTAKE: September
Program Overview
The BSc (Hons) Mathematics (with a Foundation Year) at the University of Sussex is a comprehensive and flexible program designed for students who may not meet the standard entry requirements for direct entry into the BSc Mathematics degree. The foundation year equips students with the necessary mathematical, analytical, and problem-solving skills needed to progress onto the full degree. This program is perfect for those looking to build a solid foundation in mathematics while gaining a deeper understanding of key concepts in calculus, algebra, and statistics. Following the foundation year, students move into the full degree, where they study advanced topics in pure and applied mathematics, preparing them for a range of careers in finance, data analysis, research, and education.
Curriculum: The curriculum is divided into two stages: the foundation year and the degree program itself. In the foundation year, students focus on building their mathematical and scientific knowledge. The core modules typically cover algebra, calculus, probability, and basic computational techniques, ensuring that students have the foundational skills required for the full degree. Upon successful completion of the foundation year, students progress into the main BSc (Hons) Mathematics program, which includes modules on more advanced topics such as differential equations, linear algebra, abstract algebra, and mathematical modeling. Students can also specialize in areas such as statistics, applied mathematics, and numerical methods. The program incorporates both theoretical and practical learning, with opportunities to engage in computational mathematics and real-world problem-solving through case studies and projects.
Research Focus: The research focus within the BSc Mathematics program at the University of Sussex spans a wide range of topics in both pure and applied mathematics. Key areas of research include algebra, mathematical modeling, number theory, probability, and statistics. The university encourages students to explore these areas through their coursework and offers opportunities for undergraduates to get involved in ongoing research projects. The program is designed to foster critical thinking and analytical skills, enabling students to approach complex problems from multiple mathematical perspectives. Sussex’s research in mathematics is also highly interdisciplinary, meaning students are exposed to how mathematical principles are applied in various fields, including physics, economics, and engineering.
Industry Engagement: The University of Sussex has strong links with a range of industries, providing students with opportunities to gain practical experience and apply their mathematical knowledge in real-world settings. Students can benefit from internships, placements, and collaborative projects with industry partners, which help them build a network and gain valuable work experience. The university’s close connections with companies in sectors such as finance, technology, and engineering also facilitate career-focused events, guest lectures, and networking opportunities. Additionally, the program emphasizes computational and statistical techniques, which are in high demand across industries looking for skilled mathematicians to analyze and interpret data.
Global Perspective: The BSc (Hons) Mathematics program at the University of Sussex is designed with a global perspective, acknowledging the increasing importance of mathematics in solving global challenges. Students are exposed to international case studies and examples that highlight how mathematics is used to address issues such as climate change, economic modeling, and technological development. The program’s emphasis on computational skills also prepares graduates for careers in data science and analytics, which are globally relevant fields. Sussex also offers exchange opportunities for students to study abroad, providing them with an international outlook on the application of mathematics in various cultural and professional contexts. This global perspective enhances students’ employability and prepares them for careers in international markets.
Location
Falmer
Score
IELTS 6
Tuition Fee
£ 19050
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 80.
- PTE Academic: A minimum overall score of 59.
- Some programs may have specific subject prerequisites or additional requirements.
The University of Sussex offers a range of scholarships and financial support for international students to help make studying in the UK more accessible. These scholarships recognize academic excellence, support for underrepresented groups, and the ambition to help students thrive in their studies.
Sussex International Scholarships: The University offers a range of scholarships specifically for international students, including the Sussex Excellence Scholarships.These awards typically cover a portion of the tuition fees and are available for students pursuing undergraduate or postgraduate degrees.
Specific Country Scholarships: The University also offers country-specific scholarships for students from particular regions, such as Africa, India, and China.These awards are often designed to make studying at Sussex more accessible for students from those regions.
Graduates of the BSc (Hons) Mathematics (with a Foundation Year) program at the University of Sussex are equipped with strong analytical, problem-solving, and mathematical skills, which open up a wide range of career opportunities in various sectors. The foundation year ensures that students who may not have met the entry requirements for a direct mathematics degree have the opportunity to build essential skills before moving into advanced mathematical concepts. Upon completion, graduates are well-prepared to enter industries such as finance, data science, engineering, and education.
Data Scientist/Analyst: Data scientists and analysts work with large datasets to extract valuable insights and assist organizations in making data-driven decisions. Graduates with a solid grounding in mathematics, statistics, and computational techniques are well-suited for these roles. The program's focus on mathematical modeling, probability, and statistical analysis gives students the skills to analyze complex data, develop algorithms, and create predictive models—essential for roles in tech companies, financial institutions, and research organizations.
Financial Analyst: Financial analysts evaluate investment opportunities, analyze market trends, and provide advice on financial strategies. A strong background in mathematics, particularly in areas such as statistics, probability, and financial mathematics, enables graduates to assess risk, forecast financial outcomes, and optimize investment portfolios. Graduates can work in banks, investment firms, insurance companies, and consultancy firms, where quantitative skills are in high demand.
Actuary: Actuaries use mathematics, statistics, and financial theory to assess risk and uncertainty in industries such as insurance, pensions, and healthcare. Graduates with a degree in mathematics are well-equipped to pursue careers as actuaries, as the program provides the necessary knowledge in probability, risk assessment, and financial mathematics. Actuaries are highly sought after in both public and private sector organizations.
Software Developer/Engineer: Software developers design, build, and maintain software applications, and mathematical skills are crucial for solving algorithmic challenges and optimizing code. Graduates of the BSc (Hons) Mathematics program with experience in computational mathematics and programming can pursue careers in software development, particularly in roles that require complex problem-solving and numerical analysis, such as in the tech industry, game development, and machine learning.
Statistician: Statisticians analyze data and apply mathematical and statistical methods to solve real-world problems. Whether working in healthcare, government, sports, or marketing, statisticians use their expertise to gather data, interpret results, and make predictions. The program's emphasis on statistics and data analysis prepares graduates to excel in this career, particularly in roles related to survey analysis, policy evaluation, and experimental design.
Operations Research Analyst: Operations research analysts use mathematical models and analytical methods to help organizations solve problems and make decisions. These professionals apply mathematical techniques to optimize production schedules, supply chains, and resource allocation. Graduates can pursue careers in logistics, transportation, manufacturing, and consultancy, where mathematical modeling and optimization play a key role in operational efficiency.
Engineering Roles (Mathematical Engineering/Systems Engineering): Mathematics graduates are well-suited for roles in engineering, particularly in mathematical or systems engineering, where they apply mathematical principles to solve engineering problems. This can include designing algorithms for control systems, developing mathematical models for mechanical or electrical systems, and optimizing processes. Graduates can work in sectors such as aerospace, automotive, energy, and telecommunications.
Researcher/Academic: For those interested in further academic study, the BSc (Hons) Mathematics (with a Foundation Year) provides a strong foundation for pursuing postgraduate degrees in mathematics, applied mathematics, or related fields. Graduates can continue their education by pursuing a master’s or PhD, contributing to academic research in areas such as algebra, geometry, or applied mathematics. This career path can lead to roles in universities, research institutions, or think tanks.
Teacher/Lecturer: Graduates who are passionate about education can pursue teaching roles, either at secondary school or university level. Mathematics teachers are in high demand in schools, while university lecturers can teach and engage in research. To become a teacher, graduates may need to complete a postgraduate teaching qualification or further training in education, but their strong mathematical background makes them well-prepared to inspire the next generation of mathematicians.
Cryptographer: Cryptographers design secure communication systems by applying mathematical theories and algorithms to encrypt and protect sensitive information. Graduates with expertise in number theory, algebra, and probability can work in cybersecurity firms, government agencies, or private companies that require secure data transmission. Cryptography is particularly relevant in industries dealing with personal information, banking, and national security.
Marketing Analyst: Marketing analysts use statistical and mathematical techniques to assess consumer behavior, market trends, and the effectiveness of marketing campaigns. By applying their knowledge of statistics and data analysis, graduates can work for market research firms, advertising agencies, or large corporations, helping them optimize their marketing strategies and improve customer targeting.
Environmental Consultant: Mathematics graduates can apply their analytical skills to environmental challenges by working as environmental consultants. These professionals use mathematical models and statistical analysis to predict environmental changes, assess sustainability practices, and help organizations comply with environmental regulations. This career path can lead to work in environmental agencies, sustainability firms, or large corporations focused on reducing their environmental impact.
