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.
Spain, officially the Kingdom of Spain, is a sovereign state and a member state of the European Union. It is located on the Iberian Peninsula in southwestern Europe. Spanish universities regulate access to their own degrees and they fix the academic fees. They can also offer unofficial postgraduate degrees. The capital city Madrid has possibly the largest number of bars per capita of any European city and a very active nightlife.
Request Information Master's Degrees in Engineering Studies in Ferrol in Spain 2018
The title of Master's Degree in Naval and Oceanic Engineering provides the necessary scientific and technological knowledge for access to the positions of greater responsibility in the marine industry, being the continuation of the official degrees of degrees in Naval Architecture, Engineering in Propulsion and Ship Services and Naval and Oceanic Engineering. [+]
The title Master's Degree in Naval and Oceanic Engineering Provides the necessary scientific and technological knowledge to access the positions of greater responsibility in the marine industry, being the continuation of the official degrees of degrees in Naval Architecture, Engineering in Propulsion and Services of the Ship and Naval and Oceanic Engineering.
This is an official Master's degree with professional guidance with the competencies established in Order CIN / 354/2009 and therefore qualifies for the exercise of the regulated profession of Naval and Oceanic Engineer.
The master's degree allows direct contact with the groups and research programs that are developed in the School and that have their continuity in the doctorate.... [-]
Structure of the study Obligatory subjects Physics of lasers Chemical and environmental applications of lasers Laboratory of fundamentals of lasers [+]
Mandatory CoursesPhysics of lasers Chemical and Environmental Applications of Lasers Lasers Fundamentals Laboratory Fundamentals of photonics Industrial applications of lasers
Optative subjectsIndustrial photonics sensors Biophotonics Sustainable lighting Nanofotonic laboratory Photonics and Aerospace Technology Industrial Photonics Laboratory Metrological applications of lasers Practices in companies or R & D centers
Work End of MasterWork End of Master [-]
The high unemployment and non-labor loss figures, the prevention policies being promoted by the European Union and the need to train professionals as professionals in prevention of occupational risks and common risks, act as real factors that show that the supply Of masters of specialization in this field are being demanded with greater insistence over time. [+]
The high unemployment and non-labor loss figures, the prevention policies being promoted by the European Union and the need to train professionals as professionals in prevention of occupational risks and common risks, act as real factors that show that the supply Of masters of specialization in this field are being demanded with greater insistence over time.Why study the degree
Following the publication of RD 337/2010, which amends RD 39/1997, which approves the Regulation of Prevention Services; It is established that the training required to perform higher level risk prevention functions must be accredited by a University.What is learned
To perform functions of prevention of occupational risks of superior level. These functions can be summarized in the following points:... [-]
Study Structure Module 2. UDC Introduction to complex materials Viscoelasticity of materials Thermo-mechanical properties of materials. Fundamental Methods [+]
Module 2. UDCIntroduction to complex materials Viscoelasticity of materials Thermo-mechanical properties of materials. Fundamental Methods Thermomechanics of Materials Properties. Advanced Methods Statistical data analysis Applications to environmental protection Thermal treatments and analysis by laser Thermo-mechanical fatigue
Module 1. U Paris 7Rheophysics of complex fluids Structured materials. Nanomaterials Physical-chemistry of polymers Statistics of Polymer Physics, Light scattering techniques. Microscopy Physics of Soft Matter, Interfaces Mechanics of continuous media Acoustic Waves
Module 3. TFMMaster Thesis [-]