We hope you’re as excited as we are about the upcoming Bonn Math Masters!
We’ve been working hard to make this event a success, and we’re proud of all that we’ve done. We’re especially excited about the acceptance rate for this year’s event, which is over 90%. That means that almost everyone who applied was accepted!
If you weren’t lucky enough to get in this year, don’t worry—we know what it takes to make it into next year’s event. We’ll be sure to keep an eye on your application and make sure you get in!
Bonn Math Masters Acceptance Rate
Introduction
The Mathematics in Science and Industry Master program of the University of Bonn is a two-year M.Sc. degree program. It offers students an excellent opportunity to improve their qualifications in mathematics and its applications to industrial problems. We place strong emphasis on the interplay between mathematics, sciences, engineering and industry. Our students acquire high-level analytical and problem-solving skills, in particular the ability to set up and analyze mathematical models; they learn methods such as functional analysis, differential geometry, probability theory, combinatorics, financial mathematics etc., and they learn efficient ways to use computational tools such as Mathematica or Maple. Each student will have the opportunity to carry out a research-oriented master thesis at one of our partner institutions or at a company or other institution (e.g., central bank).
The Mathematics in Science and Industry Master program of the University of Bonn is a two-year M.Sc. degree program.
The Mathematics in Science and Industry Master program of the University of Bonn is a two-year M.Sc. degree program. This interdisciplinary program offers you an exciting opportunity to gain knowledge about advanced mathematics, statistics, computer science and their applications to industrial problems.
The focus of this M.Sc., which is conducted by the Center for Mathematics, Computer Science and Physics (CMC), is on fundamental research topics that are relevant for current industrial issues such as computational finance or bioinformatics.
You’ll learn how to use mathematical methods from different areas such as algebraic combinatorics, graph theory and numerical analysis in order to solve concrete problems posed by industry partners
We are convinced that our students will be successful because they have many advantages: * excellent teachers with international experience who are committed to providing individual support for every student * close collaboration between students from diverse backgrounds * excellent opportunities for internships at companies both within Germany and abroad
The program offers students an excellent opportunity to improve their qualifications in mathematics and its applications to industrial problems.
The program offers students an excellent opportunity to improve their qualifications in mathematics and its applications to industrial problems. The program is designed to help students develop the skills they need to succeed in their careers, including problem solving, critical thinking, communication and teamwork. Through a combination of lectures and individual or group projects with industrial partners, we offer a unique opportunity for students who want to combine studies at university with an internship experience at an industrial company.
We place strong emphasis on the interplay between mathematics, sciences, engineering and industry.
- We place strong emphasis on the interplay between mathematics, sciences, engineering and industry.
- Our program is designed to help students acquire high-level skills in mathematics and its applications to industrial problems.
- We offer a unique combination of courses that are taught by well-known lecturers from various German universities as well as from international partner universities such as ETH Zürich.
- The Master’s degree courses include practical modules with project work at one of our partner companies or research institutes (e.g., IBM Research), which allows students to gain valuable experience in their field of study even before graduation.
Our students acquire high-level analytical and problem-solving skills, in particular the ability to set up and analyze mathematical models; they learn methods such as functional analysis, differential geometry, probability theory, combinatorics, financial mathematics etc., and they learn efficient ways to use computational tools such as Mathematica or Maple.
In a nutshell, mathematics is a powerful tool that allows us to solve problems and understand phenomena in the world around us. Mathematics is also a language—it can be used to describe reality precisely and concisely. One of the most important things you’ll learn here is how to think like a mathematician, which will help you solve problems more efficiently, regardless of what career path you choose after graduation.
Each student will have the opportunity to carry out a research-oriented master thesis at one of our partner institutions or at a company or other institution (e.g., central bank).
Each student will have the opportunity to carry out a research-oriented master thesis at one of our partner institutions or at a company or other institution (e.g., central bank). Students will be required to submit an abstract of their thesis to the program director by November 15th. The full version must be submitted by January 15th, 2019.
A master’s degree in mathematics can help you build a solid foundation for working in finance and economics jobs.
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Conclusion
We look forward to welcoming you in Bonn, the most beautiful city in Germany.
