Master's Degree in Innovation Management in Ostrava in Czech Republic

Find Masters Programs in Innovation Management 2017 in Ostrava in Czech Republic

Innovation Management

A master's degree is a postgraduate academic degree. One must already have an undergraduate degree to apply for a master's program. Most master's degree program would require students to complete a master's thesis or research paper.

Today, the world economy is very volatile, and every upcoming technology changes the fate of the world. Therefore, innovation management is an upcoming educational field. Master in Innovation Management is a degree program that is meant to provide various career opportunities to all the talented individuals.

The Czech Republic, is a landlocked country in Central Europe. The country is bordered by Germany to the west, Austria to the south, Slovakia to the east and Poland to the north. Its capital and largest city, with 1.3 million inhabitants, is Prague.

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Master in Nanotechnology

Technical University of Ostrava
Campus Full time 2 years September 2017 Czech Republic Ostrava

The Master‘s Study Branch of Nanotechnology is the second level of nanotechnology study following upon Bachelor’s study. [+]

Masters in Innovation Management in Ostrava in Czech Republic. Branch Profile The Master‘s Study Branch of Nanotechnology is the second level of nanotechnology study following upon Bachelor’s study. The study programme contains more advanced methods of the structural and properties’ study of nanomaterials, theoretical and experimental approaches. During the first year of study students may choose one of two orientations - physical or chemical. Both orientations have common fundamental theoretical and experimental subjects including modelling and computer design of nanomaterials. Key Learning Outcomes KNOWLEDGE The aim of the master‘s study of Nanotechnology is to provide advanced education of characterization and properties of nanomaterials. Students extend their knowledge of mathematics, physics and chemistry in specialized subjects as electron microscopy, magnetic and optic properties of nanomaterials. The programme includes study of the relationship between properties of nanomaterials and their structures and utility as well. Graduates will have gained detailed knowledge about modern methods of structure study (for example electron microscopy, atomic force microscopy etc.). SKILLS The graduates of Nanotechnology master‘s study can use specialized knowledge to solve practical problems. They can use advanced research methods in nanotechnology that allow them to obtain new information based on practice and theory. GENERAL COMPETENCIES Graduates are able to independently make responsible decisions to solve individual parts of a problem. They know how to solve practical problems with characterization and preparation of nanomaterials, can formulate the results of experiments and opinions of a research team in a report. They understand specialized literature and databases and can make use of this knowledge. Graduates are also able to present their knowledge and experience in a foreign language. Graduates have the learning skills to allow them to continue to study in a manner that may be largely self-directed or autonomous. Occupational Profiles of Graduates The two-year study program includes advanced methods of assessment of structure and characteristics of nanomaterials, both theoretical and experimental. Theoretical subjects include the study of the electron structure, optical and magnetic characteristics and deal with the relationship of the nanomaterial characteristics and their functionality. Molecular modelling and computer design of nanomaterials is also a part of the programme. Furthermore, the programme includes advanced experimental methods of the structure and characteristics of the nanomaterials assessment (e.g. various types of microscopy, spectroscopic methods etc.) with sufficient ratio of the laboratory work in the laboratories equipped with modern apparatus. During studies, a student chooses one of two specializations (physical, chemical), differing in the way of manufacturing and characterization of the nanomaterial attributes. Admission Requirements Determined by Dean, may include entrance examination, other formal documents. Graduation Requirement 120 ECTS Credits, Final state examination, Diploma thesis Course Structure Diagram with ECTS Credits List of courses is available at the detailed branch description page 30 ECTS credit per semester. [-]