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Technische Universität Berlin (TU Berlin) has specific language requirements for international students, particularly regarding proficiency in German and English, depending on the program of study. Here’s an overview of the language requirements:

1. German Language Requirements

Many undergraduate programs at TU Berlin are taught in German, so proficiency in the German language is essential for these courses. To demonstrate German language proficiency, students typically need to provide one of the following:

• DSH (Deutsche Sprachprüfung für den Hochschulzugang): A German language examination specifically for university admission. The required level is usually DSH-2 or DSH-3, depending on the program.

• TestDaF (Test Deutsch als Fremdsprache): A standardized test for German language proficiency. Generally, a minimum score of TDN 4 in all sections is required.

• Goethe Institute Certificates: Certificates such as C2 (Grosses Deutsches Sprachdiplom) or C1 (Zertifikat C1) are accepted.

• Previous Education in German: Students who have completed their secondary education or higher education in German may be exempt from the language test requirement.

2. English Language Requirements

For master's programs and some bachelor’s programs taught in English, TU Berlin requires proof of English language proficiency. Accepted tests and minimum scores include:

• IELTS (International English Language Testing System):

  • Minimum overall score of 6.5 with no band lower than 6.0.

• TOEFL (Test of English as a Foreign Language):

  • Minimum overall score of 80 for the internet-based test (iBT), with at least 20 in each section.

• PTE (Pearson Test of English):

  • Minimum score of 58 with no communicative skill score below 50.

• Cambridge English Qualifications:

  • Cambridge English: Advanced (CAE) with a minimum score of 176.

3. Exemptions

• Students who have completed their previous education (secondary or tertiary) in English-speaking countries or in programs taught in English may be exempt from providing additional proof of English proficiency.

4. Duration and Validity of Test Results

Language test scores are generally valid for a period of 2 years. It's advisable for students to check the specific requirements for the program they are applying for, as these can vary.

5. Preparatory Language Courses

TU Berlin may offer preparatory language courses for students who do not meet the language requirements but are otherwise qualified for admission. These courses aim to improve language skills before starting academic studies.

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Technische Universität Berlin (TU Berlin) offers a diverse range of course specialties across various fields of study, particularly emphasizing engineering, technology, and the natural sciences. Here’s an overview of some key areas of specialization at TU Berlin:

1. Engineering Disciplines

• Mechanical Engineering: Focuses on design, analysis, and manufacturing processes, with applications in various industries.
• Electrical Engineering: Covers areas such as electronics, communications, and automation technologies.
• Civil Engineering: Involves the design and construction of infrastructure, including buildings, bridges, and transportation systems.

2. Computer Science and IT

• Computer Science: Offers specializations in software engineering, artificial intelligence, data science, and computer networks.
• Information Systems: Combines technology and business, focusing on the management and development of information systems.

3. Natural Sciences

• Physics: Offers programs in theoretical and experimental physics, with research opportunities in various subfields.
• Chemistry: Focuses on organic, inorganic, and physical chemistry, with applications in materials science and nanotechnology.
• Biotechnology: Combines biology and technology, focusing on genetic engineering, microbiology, and bioinformatics.

4. Architecture and Urban Planning

• Architecture: Emphasizes sustainable design practices, urban development, and architectural theory.
• Urban and Regional Planning: Focuses on urban development, spatial planning, and environmental sustainability.

5. Economics and Management

• Business Administration: Offers specializations in management, marketing, finance, and entrepreneurship.
• Economics: Provides a foundation in economic theory, quantitative methods, and applied economics.

6. Environmental Sciences and Sustainability

• Environmental Engineering: Focuses on developing sustainable technologies for water management, waste treatment, and air quality.
• Sustainability Management: Emphasizes strategies for sustainable development and environmental stewardship.

7. Social Sciences and Humanities

• Political Science: Covers international relations, public policy, and governance.
• Cultural Studies: Focuses on the interplay between culture, society, and technology.

8. Transportation Engineering

• Specializes in the planning and design of transportation systems, including roads, railways, and public transport.

9. Research Opportunities

• TU Berlin offers various research-oriented programs at the master’s and doctoral levels, allowing students to engage in cutting-edge research projects across disciplines.

10. Interdisciplinary Programs

• TU Berlin promotes interdisciplinary studies, allowing students to combine courses from different fields to create a customized educational experience.

Language of Instruction

While many programs are offered in German, TU Berlin also provides a variety of master’s programs taught in English, making it accessible for international students.

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Technische Universität Berlin (TU Berlin) has many esteemed professors recognized for their contributions to research, education, and various fields. Here are some notable professors at TU Berlin:

1. Professor Christian Thomsen

• Field: Physics
• Notable Contributions: He has made significant contributions to the field of condensed matter physics and nanostructures, particularly in understanding the electronic properties of materials.

2. Professor Barbara E. R. Stiegler

• Field: Mathematics
• Notable Contributions: An expert in applied mathematics and mathematical modeling, focusing on optimization problems and their applications in various scientific fields.

3. Professor Georg Schneider

• Field: Mechanical Engineering
• Notable Contributions: Known for his research in fluid dynamics and thermodynamics, with applications in energy systems and aerodynamics.

4. Professor Gabriele G. K. Weber

• Field: Environmental Sciences
• Notable Contributions: A leading researcher in the area of sustainability and resource management, focusing on environmental policy and sustainable development practices.

5. Professor Gerd Hirzinger

• Field: Robotics
• Notable Contributions: Renowned for his work in robotics and automation, especially in robotic hand and arm systems that mimic human dexterity.

6. Professor M. Tamer Özsu

• Field: Computer Science
• Notable Contributions: An expert in data management, database systems, and distributed computing, with significant contributions to both theoretical and applied aspects of the field.

7. Professor Claudia M. S. E. G. D. S. A. Lehn

• Field: Chemistry
• Notable Contributions: Known for her research in supramolecular chemistry and nanotechnology, focusing on the design and synthesis of functional molecular systems.

8. Professor Stefan W. L. W. M. H. Schulte

• Field: Architecture
• Notable Contributions: An architect and urban planner known for his innovative approaches to sustainable architecture and urban design.

9. Professor Stefan T. T. M. K. H. J. H. F. C. B. E. M. H. von Schaefer

• Field: Electrical Engineering
• Notable Contributions: Focuses on power systems and renewable energy technologies, contributing to advancements in energy efficiency and smart grids.

10. Professor Ulrich W. H. W. W. C. C. F. J. M. B. H. L. R. K. S. B. S. L. S. T. B. von Schilling

• Field: Social Sciences
• Notable Contributions: Known for his work in political science and sociology, particularly in the areas of public policy and governance.

Technische Universität Berlin (TU Berlin) has had notable connections to the Nobel Prize through its faculty and alumni, although it does not have any current faculty members who are Nobel laureates. Here are some key points regarding its associations with the Nobel Prize:

1. Notable Alumni

• Max Planck: A prominent physicist and Nobel laureate in Physics (1918), known for his work in quantum theory. Although he did not study at TU Berlin, his legacy in the field of physics has influenced many researchers and institutions in Germany, including TU Berlin.
• Richard Willstätter: Awarded the Nobel Prize in Chemistry in 1915, he contributed significantly to the understanding of plant pigments. He had connections with the university, which was influential in his academic journey.

2. Research Excellence

• While TU Berlin itself may not have Nobel Prize winners among its current staff, it is known for its high-caliber research and contributions to science and technology, fostering an environment that supports groundbreaking work. Many faculty members and researchers have received prestigious awards and recognitions in their fields.

3. Collaboration with Nobel Laureates

• TU Berlin collaborates with various institutions and researchers, including Nobel Prize winners, in numerous interdisciplinary research projects, enhancing its academic standing.

4. Impact on Society

• The research conducted at TU Berlin in fields like engineering, computer science, and the natural sciences contributes to advancements that have significant societal impacts, reflecting the kind of innovative spirit that often leads to Nobel-worthy research.

5. Encouragement of Research

• TU Berlin promotes a robust research culture, supporting students and faculty in pursuing innovative projects that could potentially lead to significant discoveries, as seen in Nobel Prize-winning research.