View all Master Programs in Engineering Studies in Iran
A masters is the first level of graduate coursework and can be obtained after you receive a bachelor’s degree. Earning a masters usually requires two years of full-time study, which amounts to 36 to 54 semester credits.
The field of engineering is one which uses mathematics, science and creativity in ways that result in inventions that improve the daily routines of people from all walks of life and in all professional fields.
Iran or Persia, officially the Islamic Republic of Iran, is a country in Western Asia. Iran is bordered on the north by Armenia, Azerbaijan and Turkmenistan.According to the Webometrics Ranking of World Universities, the top-ranking universities in the country are the University of Tehran (468th worldwide),
The Master degree program in architectural involves in-depth studies in the design, analysis, construction, and operation of buildings and building systems.
The Master degree program in architectural involves in-depth studies in the design, analysis, construction, and operation of buildings and building systems. The impact of the ever-changing social, economic, political, energy, regulatory, and technical boundary conditions create significant opportunities for architectural research. The building industry has a growing need for design professionals with advanced knowledge and skills in their discipline and the ability to collaborate effectively with other designers, investors, contractors and project managers, through knowledge of whole-building design and performance, integrated design of sustainable buildings, and digital methods for planning, designing, constructing and operating buildings. This master is a practice-focused degree for students with engineering or architecture backgrounds to gain professional, work-ready building design skills....
Mechatronic systems engineers use precision mechanical, electrical, and computer engineering, as well as math and computer science, to design the enhanced products, syste
Mechatronic systems engineers use precision mechanical, electrical, and computer engineering, as well as math and computer science, to design the enhanced products, systems, and manufacturing processes demanded by today’s marketplace. Connecting the disciplines of mechanics, electronics, computer science and control engineering is the core competence of modern engineering. Thus the Mechatronics curriculum provides a broad insight into state-of-the-art methods for this interdisciplinary combination reinforced by research projects carried out at the university or in industry. Using advanced scientific and engineering knowledge, mechatronic systems engineers combine mechanical, electric, and electronic subsystems to create single controllable systems. The automobile today contains over 100 computers – and is just one of the many modern machines, from clothes dryers and dishwashers to auto-focus cameras and ATMs, that relies on mechatronic systems. Mechatronic systems engineers also play an indispensable role in industrial robotics and the development of autonomous (unmanned) vehicles, which can function as everything from space probes to mobile military reconnaissance units. A future career is possible in a wide array of branches including aviation engineering, automotive industry, shipbuilding, biomedical devices engineering and electronic entertainment....
The graduate program in Civil Engineering- Structure at Kish campus of the University of Tehran is aimed at training highly skilled professionals in structural engineerin
The graduate program in Civil Engineering- Structure at Kish campus of the University of Tehran is aimed at training highly skilled professionals in structural engineering with the academic and engineering credentials.
The curriculum provides a strong basis for advanced professional practice and research. A particular highlight of the taught component of the course is studying the behavior and design of structures against extreme loading including fire and earthquake.
Structural engineering deals with the design, construction, and maintenance of the load carrying components of civil engineering infrastructures: buildings, bridges, highways, airports, power plants, dams, underground structures, ocean structures, and protective structures. The capacity of withstanding exceptional loading events such as unintentional overloading, hurricanes, earthquakes, and man-made hazards and the ability to be durable, reliable, and economical affordable during the entire life-cycle are the two main issues at the forefront of modern civil engineering. ...