A masters is earned after students complete an undergraduate degree program. To obtain a masters, you usually need to complete 12 to 18 college courses that often involve completing comprehensive tests and/or a thesis.
Broadly speaking, the field of engineering involves taking empirical evidence, mathematics and knowledge of global systems and using them to create and maintain everything from structures to individual components to whole processes. However, many specializations also exist.
Education in Georgia is partially financed for those people pursuing education between ages 18 and 35 years. This system enables students to acquire practical skills and knowledge which helps the whole world face the challenges of the 21st century.
Top Master Programs in Engineering Studies in Georgia 2017/2018
The Master’s Programme in Water Supply, Water Discharge and Rational Use and Protection of Water Resources provides its graduates with the market-demanded knowledge and skills to independently and freely start development of construction of water supply and sewerage systems and properly manage the construction process in a sustainable and safe manner. [+]
This Master’s objective is to prepare the water resources engineer which will be modern requirement appropriate, competitive, performance-oriented, focused on the practical and operational activities. Which, will can provide design and implementation of operational activities given into construction norms and rules, will be motivated to be a professional point of view, a worthy contribution to the social - economic development. Will be able to design, construction and exploitation of water resources management systems using modern computer programs and consideration of risk–factors in the regulatory processes. Will be able to natural water classification, monitoring of water quality and assessment them use the modern standards. [+]
The programme educational objectives of biomedical engineering programme is to integrate engineering and life science principles into a comprehensive curriculum, that prepares students for entry into the doctoral programme, biomedical industry, or professional school. Primary research areas are biomedical imaging, biomedical implants and devices, cardiac electrophysiology, multi-scale computational modeling, tissue engineering and regenerative medicine. [+]