Top 70 Master of Science Programs in Mathematics 2019
An education in mathematics can provide the foundation for further study or work in technical and scientific fields that highly utilize mathematics. Courses of study in mathematics can range from a minor to a PhD program.
Discrete mathematics is the branch of mathematics dealing with discrete mathematical structures, i.e. mathematical structures over countable sets (finite sets or sets wit
Discrete mathematics is the branch of mathematics dealing with discrete mathematical structures, i.e. mathematical structures over countable sets (finite sets or sets with the same cardinality as the natural numbers). Topics in discrete mathematics, among others, include combinatorics, graph theory, coding theory, and cryptography.
The completion of this kind of study provides a good basis for the possible development of a scientific career in the field of science and engineering, but it also provides potential employment in various areas, at the positions which require an algorithmic way of thinking and the ability to analyze data. The knowledge gained in this study program is highly applicable in the economy; graph theory has broad application, from telecommunications to the design of road networks, coding theory and cryptography are used daily in communication. Since there will be more and more jobs related to ICT technologies and data protection, the need for this profile of personnel will increase. The optimization is very purposeful in various business processes, while the design and analysis of experiments are necessary for carrying out of an experiment, from the production of new drugs to machine testing. Also, the knowledge in the field of experimental design is very applicable in examining the characteristics of the finished products and we expect the labor market to demonstrate the need for our graduates....
This degree program focuses on mathematical models, advanced simulations and computer calculations. These means and methods are increasingly finding use in new technologi
According the Guide to choosing a master's program 2016 the master Industrial and Applied Mathematics is the best applied mathematics master program of the Netherlands!
For five years TU/e was the best university of technology, in 2016 TU/e is the second best university of technology.
The figures for the survey of Master’s programs are 70 percent based on the ratings by students and 30 percent on those by the NVAO (Accreditation Organization for the Netherlands and Flanders).
This degree program focuses on mathematical models, advanced simulations and computer calculations. These means and methods are increasingly finding use in new technological developments and this Master's program therefore offers an excellent start to your contribution to society's technological needs, both now and in the future. ...
Birmingham Business School, University of Birmingham
This programme, taught jointly by the School of Mathematics and the Department of Economics, provides the skills that will enable technically able graduates (including in
This programme, taught jointly by the School of Mathematics and the Department of Economics, provides the skills that will enable technically able graduates (including in mathematics, science and engineering) to apply their quantitative training to financial analysis.
In most cases, we expect that graduates from the Masters will take positions in quantitative analysis (or similar) in major financial institutions, such as in the City. The programme also prepares you to pursue further studies in academia.
A good Honours first degree (or overseas equivalent) in Mathematics or a related numerate subject such as Physics or Engineering, or an appropriate Joint Honours degree in industrial mathematics....
University of North Alabama College of Arts and Sciences
Master of Science (M.S.) Degree in Mathematics. This program is designed to meet the educational needs of persons aspiring to professional advancement in the teaching of
The University of North Alabama's Online Master of Science in Mathematics degree program is a fully online, innovative approach to graduate level mathematics. All students take a core of five 3-credit courses (including courses in algebra and analysis). In addition, students can choose from concentration / elective courses in pure mathematics, mathematics teaching, or various STEM concentrations.
Mathematics Faculty at UNA have expertise in the fields of Algebra, Group Theory, Graph Theory, Functional Analysis, Topology, Applied Mathematics, and Mathematics education.
M.A. Ed. - If you’re interested in pursuing a Master's in Education with a math concentration, our courses would be a great fit....
Without mathematical tools, there would be no internet search engines, no weather forecast, no security in banking. Mathematical models and techniques play an important r
Without mathematical tools, there would be no internet search engines, no weather forecast, no security in banking. Mathematical models and techniques play an important role in automatic pilot technologies, the design of quieter cars, the optimisation of wind farms, medical scanners, etc. At first sight, these applications have little in common, but they all process a large amount of data. Mathematics is becoming critical in many applications because of increasing model complexity and higher demands from customers and the environment.
What's the Master of Mathematical Engineering all about?
The Master of Science in Mathematical Engineering is unique in Flanders and is supported by high-quality research that has led to several spin-off companies....
A degree course specialized in the education of high-level expertise in modeling natural phenomena and financial problems; an interdisciplinary activity between engineeri
The ever-increasing importance in every engineering branch of modeling tools, i.e., virtual prototypes simulating complex physical and societal phenomena, requires a new generation of professionals able to exploit the full potential of the current simulation resources, possessing fundamentally different and innovative work proficiencies.
The expertise of modeling engineers cannot be restricted to classical devices, tools, and instrumentation, but requires a deeper and systematic knowledge of the basic concepts of mathematical and numerical modeling, with a wider vision on the intimate inter-relationship between data, physical processes, and computational methods....
The main aim of the program is to provide the students with effective knowledge what they can successfully apply both in the mathematical modeling and in the solution of
Academic discipline: Natural Sciences
Degree: Master of Science (MSc)
Qualification: Applied Mathematician
Duration: 4 semesters
Credits obtained: The master’s degree requires the completion of 120 credits (ETC).
Aim of the program: The main aim of the program is to provide the students with effective knowledge that they can successfully apply both in mathematical modeling and in the solution of problems arising in practice. Emphasis is put on the capability of working cooperatively in groups with experts in other fields (computer science, engineering, economics, etc.).
Language requirements: English language proficiency (TOEFL 547 /IELTS 6.0 /oral examination)...
Our Industrial Mathematical Modelling MSc is designed to help you develop the mathematical modelling skills and techniques increasingly highly sought after within industr
Our Industrial Mathematical Modelling MSc is designed to help you develop the mathematical modelling skills and techniques increasingly highly sought after within industry and commerce.
The Industrial Mathematical Modelling MSc enables you to explore mathematical models of real-world processes and their formulation, with a strong emphasis on how these techniques can be applied in industry.
A key feature of the Industrial Mathematical Modelling programme is working in small groups to solve real-life problems using mathematical models, such as estimating the loss of heat from a warehouse. Another unique aspect is our Advanced Reliability module, designed to show how statistics can be applied to industrial problems to support the development of strategies for the replacement of engineering parts before they break....
Within the Mathematics study program, we aim at preparing you for the career of a scientist or an expert in many different spheres such as industry, banking or insurance
Within the Mathematics study program, we aim at preparing you for the career of a scientist or an expert in many different spheres such as industry, banking or insurance services. Our basic goal is to provide you with the mathematical knowledge and deepen it. Also, our objective also is to develop your skills of independent logical thinking, abstracting and mathematizing real issues, solving the issues using mathematical methods and computer technology, and finally interpreting the results correctly. Having finished your studies, you will be ready to work independently as well as in a team and you will be capable of extending and completing your knowledge and skills.
You can choose from two specializations – Mathematics and Fuzzy Mathematics. Within the common core of both of them, you will acquire advanced knowledge of mathematical analysis (functional and complex analysis, measure and integral), geometry and topology. You will learn to solve complex mathematical problems proposing an appropriate mathematical model, interpret obtained results and present them adequately....
Applied and Computational Mathematics (A.C.M.) is an interdisciplinary program of graduate study. A.C.M. involves both mathematics and a partner discipline such as engine
Applied and Computational Mathematics:
M.Sc. students must complete at least 36 credit hours, within the following guidelines:
Course-work of 18 credit hours, including two core courses of 6 credit hours (3 credit hours each), three elective courses of 9 credit hours and a Project-Based Learning course of 3 credit hours.
Thesis-work of 18 credit hours
M.Sc. students have to pass successfully 6 courses with three credit hours each before applying for the Thesis.
Students should select 3 courses of 9 credit hours (3 credit hours each). Students can select, with the aid of their academic advisors, elective courses from other science or engineering disciplines....
Hosted in attractive, spacious and recently restructured Dunn Hall, and embedded in commercially vibrant and culturally rich Memphis area, the Department of Mathematical
About Mathematical Sciences
Hosted in attractive, spacious and recently restructured Dunn Hall, and embedded in commercially vibrant and culturally rich Memphis area, the Department of Mathematical Sciences (DMS) offers outstanding opportunities for study and research in many areas of pure and applied mathematics and statistics. The DMS's mission is multi-fold and encompasses strong components in education, research, and service. Its ultimate goal is the creation and dissemination of mathematics, to benefit the new generations, the scientific community at large, as well as, ultimately, the present technological society. Our faculty is known nationally and internationally for its high-level and prolific research activity, with currently active groups working in Analysis, Combinatorics, Differential Equations, Ergodic Theory, and Applied Statistics....
Mathematics has always been crucial to many different forms of scientific inquiry. Now, more than ever, advances in scientific research are found to benefit from the form
Mathematics has always been crucial to many different forms of scientific inquiry. Now, more than ever, advances in scientific research are found to benefit from the formulation and analysis of quantitative mathematical models. Successful analysis of a model leads to a better understanding of the role and interaction of key components in the system being studied and provides a predictive tool for improving system performance. The sequence of model development, analysis, simulation, and interpretation of data demands the application of sophisticated modern and classical mathematical methods. With society's growing use of mathematically oriented innovation, career opportunities for applied mathematicians are better than ever...
The program gives a comprehensive knowledge of several areas in applied mathematics. The advanced courses present state of the art issues of the given area, e.g. in stati
The program gives a comprehensive knowledge of several areas in applied mathematics. The advanced courses present state of the art issues of the given area, e.g. in statistical methods, financial mathematics, code theory, numerical methods etc.
The goal of this program is to develop a student’s mathematical skills to solve industrial and other real-life problems and development tasks in innovative ways.
This program enables students to acquire fundamental capabilities such as:
modeling and analytical skills,
knowledge of numerical methods,
skills in programming and simulation,
experience with real-life mathematical models such as in industry or economy,
ability to handle huge amounts of data by integrating mathematical, numerical and statistical methods.
Strength of program
As one of the oldest disciplines in the world, mathematics has always been concerned with basic and applied research. On the one hand, mathematics is the common language
As one of the oldest disciplines in the world, mathematics has always been concerned with basic and applied research. On the one hand, mathematics is the common language used to describe structural and quantitative relationships in the natural sciences, economics, and the various fields of engineering. Using mathematical models, mathematical solution processes, and their implementation on computers, it is possible to analyze, simulate, and optimize more and more complex processes in these subject areas. On the other hand, basic research in mathematics has made enormous progress in the past decades, in turn paving the way for some very surprising applications, e.g. number theory/ algebraic geometry in cryptography. Our society thus relies on having a sufficient supply of expertise from qualified mathematicians who are informed of the various possibilities mathematics offers. In many areas nowadays, mathematics is even considered to be a key technology....
The Master of Science degree in Computational Science (MCS) at the Università della Svizzera italiana (USI) offers students the opportunity to acquire an in-depth underst
Goals and ContentsThe Master in Computational Science (MCS) program is an exciting new approach to understanding complex systems in a broad range of knowledge areas including the natural and physical sciences, the social sciences, the life sciences, management science and medical science. By integrating computer simulation, mathematical modeling, numerical analysis, and data analysis, recent developments in computational science are making possible what was unthinkable only a few years ago. Problems that are inaccessible to traditional experimental and empirical methods can now be addressed thanks to new techniques in algorithmic modeling and the increasing speed of modern supercomputers.The MCS program combines courses in computer science, mathematics, statistics, and data analysis to build application-oriented competencies in simulation science and data science. Students enrolled in the MCS program acquire valuable and much sought-after analytical skills through direct involvement in modeling projects addressing a wide range of real-world problems spanning many interdisciplinary applications.The program introduces students to the university's blend of innovative scientific research and real-world applications, thus providing an excellent foundation for a career in industry and science. Students may emphasize numerical software, mathematical modeling, deterministic and probabilistic theory, computer simulation, or data science. Our graduates are ready to pursue professional careers in research, engineering, scientific computing, data science, data and business analytics, computational medicine, and information systems.For the master's thesis, students can participate in ongoing research projects at the ICS, the IDIDS, or the Faculty of Informatics. Topics include Numerical Analysis, High-Performance Computing, Geo-Science, Computational Engineering, Optimization, Computational (Bio-) Mechanics and Fluid-Mechanics,...