Программа обучения "Computational Mathematics" в Julius-Maximilians-Universität Würzburg
Computational Mathematics
-
Университет
Julius-Maximilians-Universität Würzburg
-
Степень
Бакалавриат
-
Специализация
Computer Science, Mathematics
-
Стоимость
0 € / Семестр
Computational Mathematics can be studied at the University of Würzburg as an individual Bachelor subject. The degree qualifies for a Master’s degree in Computational Mathematics or for a Master’s degree in Mathematics.
Общая Информация по Программе обучения "Computational Mathematics"
- Уровень: Бакалавриат
- Диплом: Bachelor of Science (B.Sc.)
- Язык обучения: Немецкий
-
Начало обучения:
Зимний семестр
Летний семестр - Срок обучения: 6 семестров
- Форма обучения: Полная
- Учебные кредиты: 180 ECTS
- Стоимость: € 0 / Семестр
- Семестровый взнос: € 123.80 / семестр
- Правила приема: Без конкурса
- Минимальный уровень немецкого: B2
Описание программы обучения "Computational Mathematics"
Mathematics is man's answer to the complexity of nature. Through them we experience beauty, harmony and grace. Through them we can better understand many things in the world and make well-founded predictions for the future. We do not realize how much our everyday life is riddled with math. Math is in cell phones, cars, CDs, ...
Mathematics does not convey views that need to be interpreted. It is based on objective facts and logical conclusions. In the course of the course, a feeling for the essentials is developed. This goes hand in hand with the development of the ability to apply mathematical methods and structured thinking to complex problems.
Mathematics can be roughly subdivided into pure and applied mathematics, with the core competencies just listed playing an equally important role in all sub-areas of mathematics.
The areas of applied mathematics usually have direct contact with other scientific disciplines: Numerical mathematics and optimization, for example, are widely used in engineering. Methods of mathematical statistics are indispensable in medical research or in finance.
The areas of algebra and number theory, analysis and function theory and geometry are usually counted as pure mathematics. However, the demarcation to applied mathematics does not mean for the departments just mentioned that their contents cannot also be highly relevant for the “real world”. It often turns out that parts of the abstract theories developed later (sometimes hundreds of years later) find surprising applications. Geometric considerations on the sphere play an important role in determining the most time- and fuel-efficient route for intercontinental flights. The results of number theory are the basic requirement for modern cryptography (which in turn makes secure Internet connections possible in the first place, for example).
The consecutive Bachelor-Master degree course in Computational Mathematics combines, in contrast to other degree programs in mathematics, a mathematics education oriented towards natural and engineering sciences with a suitable application orientation. In addition to the mathematical core competencies already mentioned, the graduates are provided with a corresponding specialist qualification, which at the same time gives an insight into the world of thought and problems in engineering and natural sciences.
With their training, graduates acquire core competency in the development and application of mathematical methods that is well above the mathematical competency of graduates in engineering or natural science courses. At the same time, you have an insight into the world of thought and problems in engineering and natural sciences. On this basis, they become sought-after members of work teams in these areas and can contribute their core mathematical skills in an excellent way.
Карьерные перспективы по завершению программы обучения "Computational Mathematics"
Excellent career prospects ...
... are awarded to mathematicians regardless of the economic cycle. According to STERN, "Germany's unemployed mathematicians have room in a public bus". A completed degree in mathematics (regardless of whether it is computational mathematics, mathematics, business mathematics or mathematical physics) certifies the graduate's ability
- To be able to familiarize oneself quickly with complex relationships,
- identify the core of a problem and separate the unimportant,
- to find creative solutions,
- to use profound mathematical expertise that is not available to graduates of other courses.
This, possibly paired with visible knowledge of the needs of the "mathematics users", as they are through the choice of the integrated application subject in mathematics, for the economy and finance sector through business mathematics, for applications in natural and engineering in computational mathematics or, for the needs of physics, in mathematical physics, usually results in the ticket to a crisis-proof job.
Occupational fields
Mathematicians mainly work in companies that offer or use information and communication technology products and services, be it directly in the IT industry (e.g. software and system houses) or in specialist and service departments of Companies and Institutions. In addition, they work in branches of the economy that increasingly use mathematical principles for their decision-making, e.g. insurance companies, banks, market and opinion research institutes and management consultancies. You will find employment in engineering offices for technical planning and in public administration, e.g. at statistical offices. In research and development, they work in public and private research institutes and in development departments of companies, e.g. in mechanical engineering, biotechnology and vehicle technology. In addition, they can work at universities or in mathematical research.
Учебный план программы обучения "Computational Mathematics"
The Computational Mathematics bachelor's degree is divided into so-called modules. Each module ends with a module examination, which comprises one or two lectures. For passed exams, credit points (ECTS) are awarded (not to be confused with grades!), Which should correspond to a workload of around 30 hours.
In the first two semesters with a basic block and courses designed to facilitate the transition from school to university, you will become familiar with the basics. In the second part of the course (semesters three to six) you will deepen your knowledge with a focus on application-oriented mathematics. Towards the end of your studies you will write your bachelor thesis under the supervision of a lecturer.
In the Computational Mathematics bachelor's degree, there are four integrated application subjects (biology, chemistry, computer science, physics) to choose from, in which you must acquire 45 ECTS.
You attend lectures with exercises (usually four or three semester hours per week (SWS)), a seminar (two SWS), in the application subject possibly also internships. There are also subject-specific (preliminary course, programming course, computer-oriented mathematics) and general key qualifications (e.g. language courses) amounting to 20 ECTS.
If you have acquired 180 ECTS points within the framework of the examination regulations, you will receive the academic degree of Bachelor of Science.
https://www2.uni-wuerzburg.de/mhb/MHB1-de-82-f24-H-2015.pdf
https://www2.uni-wuerzburg.de/mhb/MHB1-en-82-f24-H-2015.pdf
Полезные ссылки по программе обучения "Computational Mathematics"
- Сайт программы: https://www.uni-wuerzburg.de/studium/angebot/faecher/compmath/
- Учебный план / модули: https://www.uni-wuerzburg.de/fileadmin/amtl_veroeffentlichungen/2015/2015-75.pdf<br />https://www2.uni-wuerzburg.de/mhb/MHB1-de-82-f24-H-2015.pdf<br />https://www2.uni-wuerzburg.de/mhb/MHB1-en-82-f24-H-2015.pdf
Записаться на поступление на программу обучения
Computational Mathematics