Industrial and Applied Mathematics

The Bachelor’s program in Industrial and Applied Mathematics at Eindhoven University of Technology offers a comprehensive and rigorous education designed to equip students with advanced mathematical skills applied to real-world industrial problems. This programme combines core mathematical theories with practical applications, enabling graduates to develop innovative solutions in various sectors such as manufacturing, technology, finance, and energy. Throughout the course, students engage in a diverse curriculum that covers fundamental areas including differential equations, numerical analysis, optimization, statistics, and data analysis, complemented by specialized modules focusing on industrial applications.

The program emphasizes a hands-on, project-based learning approach, encouraging students to apply mathematical techniques to complex issues faced by modern industries. Collaboration with industry partners provides students with the opportunity to participate in internships and real-world projects, fostering a deep understanding of practical challenges and solution strategies. Students are also encouraged to develop computational skills and learn programming languages relevant to data analysis and simulation, such as MATLAB, Python, and C++.

Eindhoven University of Technology’s state-of-the-art laboratories and research centers serve as an excellent environment for experiential learning, allowing students to experiment, innovate, and refine their technical expertise. The curriculum is designed to develop analytical thinking, problem-solving abilities, and an entrepreneurial mindset, preparing graduates for careers in research, development, and consultancy roles.

Graduates of this programme are highly sought after in various high-tech industries, consultancy firms, and research institutions due to their ability to translate complex mathematical concepts into practical solutions. The programme also provides a solid foundation for students wishing to pursue master's studies in applied mathematics, industrial engineering, or related fields. With a focus on interdisciplinary collaboration and technological innovation, the Bachelor’s in Industrial and Applied Mathematics at Eindhoven University of Technology offers a stimulating educational experience that combines theoretical knowledge with practical skills to meet the demands of modern industry.

The MSc in Industrial and Applied Mathematics at Eindhoven University of Technology offers a comprehensive and challenging curriculum designed to equip students with advanced mathematical skills and their practical applications in industry and technology. The program covers fundamental and specialized areas such as numerical analysis, mathematical modeling, optimization, differential equations, and data analysis. Students are trained to develop innovative solutions to complex real-world problems, working closely with industry partners and research groups. The program emphasizes a strong theoretical foundation combined with hands-on projects, enabling graduates to excel in sectors like manufacturing, energy, health care, and information technology. Through a combination of coursework, research projects, and internships, students gain practical experience in applying mathematical techniques to solve industrial challenges. The program encourages critical thinking, problem-solving, and teamwork, preparing students for leadership roles in multidisciplinary environments. Graduates of this master's program are well-positioned for careers in R&D departments, consulting firms, or to pursue PhD research. The curriculum is designed to be flexible, with core courses complemented by electives that allow students to tailor their studies to their interests and career goals. Collaboration with industry ensures that the program remains relevant to current technological developments and market needs. Overall, the MSc in Industrial and Applied Mathematics provides a rigorous education that bridges the gap between abstract mathematical theories and practical technological applications, fostering a new generation of mathematically skilled professionals equipped to innovate and solve societal challenges.

Admission requirements

For admission a minimum of 75% CGPA. For entry to Amandus H. Lundqvist Scholarship Program (ALSP) a minimum of 80% CGPA.

Other requirements

1. gemiddeld cijfer For admission a minimum of 75% CGPA. For entry to Amandus H. Lundqvist Scholarship Program (ALSP) a minimum of 80% CGPA.
2. vooropleiding (ISPAC: vereiste vooropleiding) BSc in mathematics, stochastics or in engineering with a mathematically-oriented programme.
3. schriftelijk verzoek Letter of motivation

The financing of the Industrial and Applied Mathematics bachelor's programme at Eindhoven University of Technology is primarily structured through a combination of government funding, tuition fees paid by students, and additional financial support options. As a public university in the Netherlands, Eindhoven University of Technology benefits from government subsidies that help fund its educational programs, ensuring affordability and accessibility for domestic students. Tuition fees for bachelor's degrees are set annually by the Dutch government and vary depending on residency status; for EU/EEA students, the fees are typically standardized and are considerably lower than for non-EU students, who may pay higher rates. In 2023, the tuition fee for EU students was approximately €2,209 per year, whereas non-EU students paid around €12,100 per year. Students from the European Union or European Economic Area are eligible for government student financing programs, which include loans and grants, to support their studies financially. These student loans are provided by the Dutch government through the Dienst Uitvoering Onderwijs (DUO), and repayment conditions are favorable for graduates, often linked to income levels post-graduation.

In addition to government funding, students can explore scholarships and grants offered by Eindhoven University of Technology. The university provides several scholarships for both Dutch and international students based on academic excellence, financial need, or specific country of origin. For example, the Holland Scholarship and other faculty-specific grants are available to admitted students. International students might also seek support through external organizations and foundations that offer funding for studies abroad.

Students are encouraged to consider part-time work options during their studies, facilitated by the flexible nature of the curriculum, to supplement their income. The university's location in Eindhoven, a vibrant technological hub, provides ample opportunities for part-time employment related to their field of study. Additionally, students should plan their finances carefully, including accommodation costs, learning materials, and daily expenses, which can vary depending on personal lifestyle choices. Education costs are also supplemented by Erasmus+ programs and bilateral agreements that enable student exchanges and funding transfers. Overall, the programme’s financing involves a multi-source approach combining publicly funded tuition, student loans, scholarships, and personal income to ensure that students can pursue their studies without undue financial hardship.

The Industrial and Applied Mathematics program at Eindhoven University of Technology (TU/e) is a rigorous and comprehensive undergraduate degree that combines fundamental mathematical theories with practical applications in industry and technology. This program aims to equip students with advanced analytical skills, problem-solving abilities, and applied mathematical techniques essential for tackling complex real-world issues across various sectors. The curriculum is designed to provide a strong foundation in pure and applied mathematics, including linear algebra, calculus, differential equations, numerical analysis, and statistics, while integrating these concepts with engineering principles and industrial applications.

Students in this program have the opportunity to engage in project-based learning, collaborative research, and internships with industrial partners, offering valuable hands-on experience. This combination ensures that graduates are not only proficient in sophisticated mathematical methods but also adept at applying these methods to optimize manufacturing processes, improve system performances, and support innovation in technology-driven industries. The program emphasizes the development of computational skills, programming, and simulation techniques, which are vital tools in today's data-driven world.

In addition to core mathematics courses, students can choose specialization tracks such as Data Science, Operations Research, Computational Mathematics, and Industry Applications, allowing them to tailor their studies to their interests and career goals. The program is taught by experienced faculty members who are active researchers at the forefront of mathematical sciences and their industrial applications. Small class sizes and a focus on student-centered learning foster close interaction between students and instructors.

Graduates of the Industrial and Applied Mathematics program are highly sought after in sectors such as manufacturing, logistics, energy, healthcare, and information technology. Many find employment in roles involving data analysis, simulation modeling, process optimization, and software development within both international companies and innovative startups. The program also prepares students for further academic pursuits, including master's and PhD studies, in applied mathematics, engineering, or related fields.

Overall, the Eindhoven University of Technology’s program in Industrial and Applied Mathematics offers a challenging, interdisciplinary, and practical educational pathway that bridges theoretical mathematics and industrial innovation. Graduates leave with a versatile skill set suitable for a wide array of high-tech careers, contributing to technological advancements and industrial efficiency worldwide. This program’s unique combination of rigorous mathematics, practical orientation, and close ties with industry ensures students are well-prepared to meet future challenges in various technological domains.