A masters is awarded to students who have completed postgraduate level study in a specific field of study or area of professional practice while demonstrating a high level of mastery during the process.
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.
Finland, officially the Republic of Finland, is a Nordic country situated in the Fennoscandian region of Northern Europe.
Espoo is the 2nd largest city in Finland. It is an urban municipality with over 200,000 residents. It is home to Aalto University and a branch campus of Helsinki University of Technology.
Request Information Master's Degrees in Engineering Studies in Espoo in Finland 2018
The Joint Master European Mining Course (EMC) covers every aspect of the life cycle of mineral resources. It is a Master programme designed to provide a solid understanding of the global mining industry and takes a life-cycle approach by covering the entire mining value chain. It offers a state-of-the-art technical basis in resource modeling, mine design, and economic evaluation. Technical knowledge is also supplemented with topics on business economics, ethics, environmental engineering, and a clearly defined and structured programme for the management of health, safety, and environment. [+]
With a growing world population and increasing global welfare, the demand for most metals and minerals is increasing. At the same time, metal and material markets are not always predictable and ore grades are decreasing over time, making the challenge to identify and extract resources within economies of scale even more complex. Adding to this complexity, awareness of environmental issues is also growing and the world expects resources to be extracted in a responsible manner. It will be up to the mining engineer of the future to operate successfully in this challenging environment.
Due to the rapid evolution of the raw materials sector, mining engineers today are expected to have command of vital innovation and entrepreneurial competencies and skills with a deep understanding of sustainability. The exposure to internationally- and culturally-diverse environments has also become an appealing and desired quality, as globalization is increasingly relevant in all industries, including the mining sector and its extensive supply chains.... [-]
As global and EU population increases along with well-being and welfare, consumption per capita is also increasing. In the EU especially, consumption has outpaced production, particularly with respect to the more complicated, resource-intensive technologies and products that have become part of daily life. As a result, the importance of recycling and the circular economy will continue to increase in order to diversify our sources of supply and meet our needs. [+]
As global and EU population increases along with well-being and welfare, consumption per capita is also increasing. In the EU especially, consumption has outpaced production, particularly with respect to the more complicated, resource-intensive technologies and products that have become part of daily life. As a result, the importance of recycling and the circular economy will continue to increase in order to diversify our sources of supply and meet our needs.
AMIS is a Master programme in Advanced Materials for Innovation and Sustainability. The primary objective of the programme is to provide students with an understanding
of the full raw materials value chain and a mindset for innovation and entrepreneurship focusing on sustainability. AMIS tackles this challenge by focusing on three themes – all of which are central themes of EIT RawMaterials:... [-]
The programme in Software and Service Architectures is an enhanced version of the previous programme on Service Design and Engineering and aims to educate the next generation of service designers and software architects capable of designing and engineering novel software systems to: (i) Drive digitalization of businesses, (ii) Create new businesses based on software intensive services, (iii) Be responsible for the elicitation and definition of what software products and services IT companies should create in order to be successful; (iv) Be responsible for the processes and methods for the effective development of modern software systems. [+]
Formerly known as Service, Design and Engineering SDE)Why study the EIT Digital Software and Service Architectures programme?
The EIT Digital SSA programme offers:Innovative and well-grounded education for the next generation of service designers and software architects. Studies at two of Europe´s foremost technical universities leading to a double degree. A good integration with tailored courses in Innovation and Entrepreneurship. A thesis work connected to interesting industrial challenges. Access to the competence of eight EIT Digital innovation action lines (link) not least through a summer school between the two years. Access to the co-location centres and innovation ecosystems of the nine EIT Digital nodes. What is the programme all about? ... [-]