Программа обучения Physics

Программа обучения "Physics" в Julius-Maximilians-Universität Würzburg

Physik

Physics can be studied in Würzburg as a consecutive Bachelor's and Master's degree. With a focus on basic research, students receive a broad-based scientific education that includes experimental physics, internships, theoretical physics, mathematics and an individual specialization.

Общая Информация по Программе обучения "Physics"

  • Уровень: Бакалавриат
  • Диплом: Bachelor of Science (B.Sc.)
  • Язык обучения: Немецкий
  • Начало обучения: Зимний 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
  • Подходящий курс Штудиенколлег: T-Kurs

Описание программы обучения "Physics"

Physics looks at processes in nature and tries to describe them as precisely as possible. Physics is based on experimental observation, i.e. the description of natural processes under precisely defined, reproducible conditions. On this basis, knowledge is gained through the creation of theoretical models for the quantitative description of the observation. Here physics uses the language of mathematics.

Since the object of observation in physics represents nature as a whole, the subject areas covered are diverse and range from the description of the universe as a whole to the elementary building blocks from which all known matter is built over many orders of magnitude. The research aspects of physics are equally diverse, from pure basic research to applied research on specific problems, which very often also come from non-technical areas.

Physics is the mother of all natural sciences and, as the basis of modern technology, is indispensable for medical, computer or energy technology. The interdisciplinary nanotechnology makes it clear that advances in other disciplines, such as biology, chemistry or medicine, are very often inspired by theoretical or experimental developments in physics. Nuclear magnetic resonance technology is a concrete example of this in Würzburg. New, interesting fields of research arise every day: from the development of quantum computers to polymer lasers to the foundations of our universe in the unification of quantum theory with general relativity through string theory.

The study of physics is a method study. That means, you learn scientific work, logical-mathematical skills are trained, and you are taught to think in a problem-solving manner. Competencies in the quantitative handling of quantities and formulas as well as experimental skills, teamwork skills and independence are taught. The various course and elective events as well as internships offer deep insights into the areas of quantum mechanics, relativity, astrophysics, nanotechnology, biophysics, atomic, nuclear, molecular and solid-state physics.

Карьерные перспективы по завершению программы обучения "Physics"

Physicists have a multitude of employment opportunities, as their ability to analyze and solve complex problems enables them to quickly familiarize themselves with less familiar topics.

A physics degree with a master’s degree therefore offers a wide range of options. Thanks to their interdisciplinary training, graduates are versatile and have the best and safe professional and career opportunities in a wide variety of industries, such as

  • in industrial research and development centers
  • in teaching at schools, colleges and universities
  • as an IT expert both in companies and in self-employment
  • in the patent system (law firms and patent offices)
  • at management consultancies, financial service providers, insurance companies and banks
  • in public service

Despite changing economic conditions, the chances on the job market for graduates of the physics courses have been very good for a long time.

Учебный план программы обучения "Physics"

The standard period of study to obtain a bachelor's degree is three years. After that, the master’s degree can be obtained within a further two years. In the bachelor's degree, physical and mathematical basics are developed, e.g. in lectures on experimental physics (e.g. atomic physics, solid state physics), theoretical physics (electrodynamics, quantum mechanics) and applied physics (laboratory and measurement technology). The bachelor thesis concludes. Some bachelor graduates then start their careers, but most of them decide to continue their studies with a master’s degree.

  • Учебный план / модули: https://www.uni-wuerzburg.de/fileadmin/32020000/Ordnungen/Physik-BA-180-3aes-20200122-kon-Netz.pdf
    https://www2.uni-wuerzburg.de/mhb/MHB1-de-82-128-H-2020.pdf
    https://www2.uni-wuerzburg.de/mhb/MHB1-en-82-128-H-2020.pdf
  • Факультет

    Faculty of Physics and Astronomy
    Julius-Maximilians-Universität Würzburg

    Are you already studying at the Faculty of Physics and Astronomy or are you interested in studying?

    In addition to the basic courses in physics and mathematical physics, Würzburg also offers the more application-oriented course in nanostructure technology as a consecutive Bachelor / Master course. The faculty is also characterized by strong training in physics teaching for all types of schools.

    These offers are supplemented by interdisciplinary courses on topics such as functional materials, space science and technology or experimental medicine.

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