A Masters degree gives you the opportunity to either further your understanding of a particular question or take off in a completely different way using skills you have gained from your previous undergraduate degree.
Students of engineering and technology learn both the design principles of engineering and the application principles of technology. This field focuses on harnessing the concepts and plans produced by engineers for use in solving technological problems in a variety of real world situations.
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.
Request Information Master's Degrees in Engineering Management in Ostrava in Czech Republic 2017
This programme will equip you with the advanced knowledge and professional skills to succeed in the challenging, dynamic and highly in-demand industry of civil engineering. The Fauclty of Civil Engineering places a strong emphasis on helping you apply gained knowledge to real-world problems. [+]
The Master’s studies in Mining Engineering enriches the knowledge gained in the specialized field and that increases the possibilities of advancement in the profession, especially to management grades. [+]
The study in this field is predominantly focused on the education of the engineers in applied geology (hydrology, engineering geology, technical mineralogy and petrography, environmental geochemistry, economy geology, drilling exploration and applied geophysics). [+]
The Master’s program of the European School for Technical Brownfields Redevelopment is an interdisciplinary 2 year study branch based on a combination of natural, economic and construction engineering sciences, including professional disciplines. The main aim of the branch is to prepare graduates to manage projects and work activities in the restoration and development of abandoned industrial areas, often called brownfields. [+]
Master's degree course in Thermal Engineering and Ceramics follows the bachelor's program of the same name. Qualification subjects, compared to a bachelor's field, put more emphasis on the theoretical basis of the issues discussed, and a thorough elucidation of mutual connections of acquired knowledge. [+]
The Master's Study Branch Modern Metallurgical Technology is designed as a modern study branch aimed at training professionals for current and highly sophisticated metallurgical technologies, covering in detail the issues of theory and technology of production, casting and processing of iron and steel or their forming, including the forming of non-ferrous metals and/or foundry of alloys based on both iron and non-ferrous metals. [+]
In the Master’s study programme students firm and fill knowledge and skills acquired during bachelor study. Furthermore, they gain further knowledge and skills to be able to understand the depth and breadth of engineering materials in interrelationships. [+]
The Master‘s Study Branch of Nanotechnology is the second level of nanotechnology study following upon Bachelor’s study. [+]
The aim of the study is to prepare graduates for research and development work, and design of mechatronic systems with applications in the various kinds of production and applied technologies. [+]
The goal of the master study programme Mechatronics, specialization Automotive Electronics is to prepare the graduates for work in research and development, and the design of mechatronic systems with a focus on automotive applications. [+]
Students specialize in either Commercial or Industrial Electronics complimenting a basic study of electrical engineering. There is a particular emphasis placed on a highly efficient education in order to teach students to think creatively and apply new knowledge in the creation of new technical pieces of work. [+]
A high-quality theoretical education and a universal basis of application-focused studies ensure high adaptability of the graduates to all particular requirements of their future professional practice, either in operation and engineering or in science and research. The basic subjects include applied mathematics, selected principles of electrical power engineering, and electrical heat technology. [+]