Bachelor Program in Hämeenlinna Finland

Top Bachelor Programs in Hämeenlinna Finland 2017

Bachelor

Bachelor degrees from accredited colleges and universities can be important stepping-stones toward a successful career.The most common type of undergraduate program is a bachelor's degree, usually awarded after four years of successful study

A Bachelor is a popular college degree that is pursued by students who want to gain knowledge in a specific area of study. Completed in three to five years, it is available in a variety of study disciplines.

Finland, officially the Republic of Finland, is a Nordic country situated in the Fennoscandian region of Northern Europe.

Being home to a medieval Hame castle, Hämeenlinna rests in the center of the Province of Hame, which is an historic region in Finland. The city has close to 70,000 residents.

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Bachelor of Mechanical Engineering and Production Technology (BEng)

Häme University of Applied Sciences (HAMK)
Campus Full time 4 years September 2017 Finland Hämeenlinna

Mechanical engineering and production technology graduates have the necessary design, production and automation skills required in mechanical engineering. In addition, they are well-versed in materials technology, which is necessary in the selection of raw materials. They also have deep and up-to-date knowledge about either design of mechanical systems or production systems. In each of these areas, mechanical engineers are able to utilize the relevant computer-based tools. Graduates also master all general working life needs, like economic thinking, ability to work in teams and communication skills.    [+]

Bachelors 2017 in Hämeenlinna Finland. HAMK: Higher Education with a Professional Profile​​ About the Program Mechanical Engineering and Production Technology graduates have the necessary design, production and automation skills required in mechanical engineering. The mechanical engineering and production technology degree programme allows students to focus on either production systems or design of mechanical systems. In addition, they are well-versed in materials technology, which is necessary in the selection of raw materials. They also have deep and up-to-date knowledge about either design of mechanical systems or production systems. In each of these areas, mechanical engineers are able to utilize the relevant computer-based tools. Graduates also master all general working life needs, like economic thinking, ability to work in teams and communication skills.    The language of instruction is English, and a truly international academic environment ensures high-level language andmulticultural skills for graduates. They also have basic practical and professional Finnish language skills, so that they are able to integrate into Finnish working life. Our graduates are well-recognised experts in cross-cultural teams and projects thanks to their strong skills in English and intercultural communication, which also opens the door to many career opportunities. The Riihimäki campus of HAMK University of Applied Science has a long history in mechanical engineering and production technology. Mechanical Engineering and Production Technology graduates have a wide range of career choices around the world. A typical employer is a design engineering office, small- or medium-size workshop or a large global company. A common career path may lead to expert tasks, managerial duties or entrepreneurship.​ Future Opportunities Recent graduates of Mechanical Engineering and Production Technology have found employment in the following professions: Product Development Engineer Design Engineer ​ Production Engineer Production Development Engineer Technical Sales Engineer Project Engineer Both paths, Production Systems or Design of Mechanical Systems include eight common and two separate compulsory core competence modules. 240 credits are needed in total to graduate. In addition, students may choose three profiling modules, which could be selected from the offering of Mechanical Engineering and Production Technology, offerings from other degree programmes in HAMK, other universities in Finland or international partner universities. HAMK encourage students to carry out part of the studies abroad in international partner universities around the world. There is also an additional option to study abroad by completing a double degree partly at HAMK and partly at Via University College in Denmark.​ Production Systems​ ​​1st year 2nd year ​​3rd year 4th year ​Orientation to Engineering studies, 15 CR ​Engineering design 2, 15 CR ​Manufacturing, 15 CR ​Profiling Module 15 CR ​Actuators, 15 CR ​Machine Automation, 15 CR ​Profiling Modul 15 CR ​Thesis 15 CR Materials and Manufacturing, 15 CR ​Design and Calculation of Machine Elements, 15 CR ​Workshop Automation, 15 CR ​Free timing: ​Engineering Design 1, 15 CR ​Dynamics and Thermodynamics, 15 CR ​Profiling Module 15 CR ​Work placement, 30 CR Design of ​Mechanical Systems ​​1st year 2nd year ​​3rd year 4th year ​Orientation to Engineering studies, 15 CR ​Engineering design 2, 15 CR Applied Mechanics, 15 CR ​Profiling Module 15 CR ​Actuators, 15 CR ​Machine Automation, 15 CR ​Profiling Modul, 15 CR ​Thesis 15 CR ​Materials and Manufacturing, 15 CR ​Design and Calculation of Machine Elements, 15 CR ​Mechanical Engineering, 15 CR ​Free timing: ​Engineering Design 1, 15 CR ​Dynamics and Thermodynamics, 15 CR Profiling Module 15 CR ​Work placement, 30 CR Engineering programmes provide competences such as: Mathematics, natural science and technology competence. Research and development competence. Analytical competence and reporting ability. Project management competence. Competence to apply theoretical knowledge in practice. Studies in universities of applied sciences provide the following generic competences: Skills for lifelong learning Ethical competence Working community competence Innovation competence Skills for Lifelong Learning Is capable of taking responsibility for his/her own learning and is able to assess and develop his/her own learning skills and styles. Is able to assess and develop his/her own competence Is able to acquire, use, apply and assess knowledge critically Is able to work in a group, take different learners into consideration and is capable of taking responsibility for collaborative learning and sharing knowledge in teams Ethical Competence Is capable of taking responsibility for his/her own actions and their consequences Is able to work as a global citizen complying with ethical principles of his/her profession Is able to make decisions considering the viewpoints of individuals and the community Is able to apply the principles of equality Is able to apply the principles of sustainable development (social, economic and ecological responsibility) Working Community Competence Is able to work in international and multicultural communities, and is able to contribute to their wellbeing Is able to communicate in different situations and also at an international level Is able to communicate in his/her own field both in writing and orally Is able to work and communicate in digital environments and projects Is capable of operating in networks and building personal relations in the world of work Is able to make decisions in unpredictable situations Is capable of operating in expert duties and as an entrepreneur in the field Innovation Competence Is capable of solving problems creatively and developing new working methods Is able to implement research and development projects applying known information and methods Is able to find customer-oriented, globally sustainable and economically profitable solutions Is able to consider the effects and opportunities of the field's internationalization in his/her own work ​ Study Modes Keeping students central is our principle in everything we do. In Mechanical engineering students will study together in weekdays monday to friday between 8-16. Studying is equivalent to working at a job: the student is present and works together with others in a diverse way. Daily learning situations could be: Traditional classroom learning. Laboratory work and exercises. Learning by doing practical exercises, projects etc. Learning at the workplace – projects from working life, an internship etc. E-learning at home or anywhere. [-]

Bachelor of Construction Engineering (BEng)

Häme University of Applied Sciences (HAMK)
Campus Full time 4 years September 2017 Finland Hämeenlinna

A degree completed in English provides construction engineers with good language skills and international know-how, making it possible to work anywhere in the world. [+]

HAMK: Higher Education with a Professional Profile​​ About the Program The Construction Engineering degree programme allows students to focus on structural engineering or environmental technology. At HAMK, structural engineering focuses on steel construction. Steel Constructions studies include mechanics, mathematics, technical drawings and CAD. Understanding of the structures, and 3-D visualization skills will develop during the studies. During the studies (Steel Constructions) it is possible to achieve credits required by A-class structural engineer qualifications: Structural mechanics – 16 credits Concrete construction and technology – 8 credits Concrete structure engineering – 8 credits Steel structure engineering – 8 credits Wood structure engineering – 12 credits Construction physics – 5 credits Demand for international construction experts is increasing continuously in international construction projects in Finland and abroad. ​In addition to houses, construction engineering is applicable in our built-up environment to traffic corridors and water and waste management, for example. The tasks of engineering graduates may be related to the construction of new premises and to the repair of existing structures in engineering or project management in Finland and abroad. Daily tasks may involve design, product development, supervision in an official capacity, or trading. Construction professionals constantly monitor developments in the sector, they are familiar with the latest design and production techniques and can manage modern management techniques, and they are capable of applying them to practical situations at work. Construction engineers must have a view of the entire construction process in addition to their speciality. Work requires, in addition to professional knowledge management, problem-solving abilities, financial thinking, management skills, cooperation skills, IT skills and language skills. A degree completed in English provides construction engineers with good language skills and international know-how, making it possible to work anywhere in the world. There are additional possibilities to study abroad by completing a Double Degree, partly at HAMK and partly at Danish VIA University College. Students can also choose to study a part of their degree in Finnish in HAMK's Finnish- language construction engineering programme. Structural Engineering ​1st year 2nd year 3rd year ​4th year ​Orientation to Engineering studies, 15 CR ​Basics of Structural Design, 15 CR ​Renovation, 15 CR ​Profiling Module, 15CR ​Basics of Construction, 15 CR ​Residential Buildings, 15 CR ​Steel Structures 1, 15 CR ​Thesis, 15 CR ​House building, 15 CR ​Commercial Buildings, 15 CR ​Steel Structures 2, 15 CR ​Free timing ​Basics of Civil Engineering, 15 CR ​Reinforced Concrete Structures, 15 CR ​Timber Structures, 15 CR ​Work Placement, 30 CR Environmental Technology ​1st year 2nd year 3rd year ​4th year ​Orientation to Engineering studies, 15 CR ​Basics of Structural Design, 15 CR ​Monitoring, 15 CR ​Profiling Module, 15CR ​Basics of Construction, 15 CR ​Worldwide Enviromental Engineering, 15 CR ​Water Supply, 15 CR ​Thesis, 15 CR ​House building, 15 CR ​Energy in Construction Technology, 15 CR ​Waste Water, 15 CR ​Free timing ​Basics of Civil Engineering, 15 CR ​Waste Management, 15 CR ​Remediation, 15 CR ​Work Placement, 30 CR In the Environmental Technology studies good writing skills are important. Students also give many presentations. Mathematics is an important part of these studies. Environmental Technology students study for example chemistry, legislation, waste management, waste water treatment and water supply. Study modes Keeping students central is our principle in everything we do. In Construction engineering students will study together in weekdays monday to friday between 8-16. Studying is equivalent to working at a job: the student is present and works together with others in a diverse way. Daily learning situations could be: Traditional classroom learning. Laboratory work and exercises. Learning by doing practical exercises, projects etc. Learning at the workplace – projects from working life, an internship etc. E-learning at home or anywhere. [-]

Bachelor of Electrical and Automation Engineering (BEng)

Häme University of Applied Sciences (HAMK)
Campus Full time 4 years September 2017 Finland Hämeenlinna

In the English-language degree for Electrical and Automation Engineering, the focus is on utilising automation engineering in new areas of application. The efficient and inexpensive new data technology devices in particular offer many interesting opportunities for automation technology. [+]

Bachelors 2017 in Hämeenlinna Finland. HAMK: Higher Education with a Professional Profile​​ About the Program ​An engineer specialised in Electrical and Automation Engineering knows how to plan electrification and automation both for ordinary household appliances as well as complicated industrial production equipment. There are two alternate learning paths available for automation engineering students: production machinery automation and production process automation. The engineer knows how to utilise information and electrical technology in developing automation technology in new applications. Vehicles, shops, homes, industry, traffic control and street lighting are examples of the ​most common applications of electrical and automation engineering. Instruction in electrical and automation engineering focuses on wide-ranging studies in electrical engineering, the automation of production machinery and devices, and the maintenance of production facilities. The possibilities offered by new technology are utilised in the instruction, in the practical studies that include plenty of personal, first-hand activity. In the English-language degree for Automation Engineering, the focus is on utilising automation engineering in new areas of application. The efficient and inexpensive new data technology devices in particular offer many interesting opportunities for automation technology. An electrical and automation engineer typically works in a high-tech company in tasks involving planning and expertise, and later, as experience mounts, in various supervisory tasks. Such tasks are available in production facilities, design and consulting offices and companies specializing in software and hardware sales. The work is nearly always group work with experts from different fields in an international working environment. In Production Machinery Automation students learn about the most important functions and equipment for the production of parcelled goods as well as efficient and cost-effective equipment technology based on new-technology microcontrollers. Skills involving production equipment and new technology serve as a foundation for the planning and implementation of functional and efficient automation of production. ​1st year ​2nd year ​3rd year ​4th year ​Development of Technology, 15 CR Electric Power En​gineering, 15 CR​ Automation and Electrical Wiring Design, 15 CR Production Automation, 15 CR Natural Sciences in Electrical Engineering, 15 CR ​Programming and Information Security, 15 CR ​Applications of Automation Engineering, 15 CR ​Thesis, 15 CR Natural Sciences in Automation Engineering, 15 CR ​Embedded System, 15 CR ​Automation and Control, 15 CR Free timing ​Information Technology in Automation Engineering, 15 CR Profiling Module, 15 CR Profiling Module, 15 Work Placement, 30 CR In Production Process Automation students become familiar with the most important functions and equipment of the process industry, as well as industrial maintenance. Knowledge of a continuous process and its maintenance is the basis of successful planning and implementation of process automation. ​1st year ​2nd year ​3rd year ​4th year Development of Technology, 15 CR ​Electric Power ​​​En​gineering​, 15 CR Automation and Electrical Wiring Design, 15 CR ​Profiling Module, 15 CR ​Natural Sciences in Electrical Engineering, 15 CR Programming and Information Security, 15 CR Applications of Automation Engineering, 15 CR Thesis, 15 CR Natural Sciences in Automation Engineering, 15 CR Process Automation, 15 CR Maintenance, 15 CR Free timing ​Information Technology in Automation Engineering, 15 CR Profiling Module, 15 CR Automation and Control, 15 CR Work Placement, 30 CR The Industrial Management and Logistics Module is available to all students. The module is implemented virtually. This module is recommended especially to students who have chosen the profile production process automation. Professional Skills of Automation Engineering The professional skills of an engineer of electrical and automation engineering (B​Eng) consist of several sub-sectors. Their content is briefly described below. Basic skills in electrical and automation engineering comprise measuring technology, data and software technology in the electric and automation field, mathematical methods, physics and electronics. Planning skills include processes, methods, and tools for planning, simulation methods, sizing and choosing devices and components, drafting documents, applying standards, quality systems and life-cycle thinking. Electricity and equipment safety skills include key legislation, regulations and standards related to electricity and equipment safety. Corporate and production skills include project activities, people management, entrepreneurship, marketing, and maintenance. Application skills include electrical and electric energy systems, building automation process automation, production automation, and on a general level, the application of technology to new ranges of use. Process, equipment, and system skills include the most important methods and equipment for electricity production, the most common production processes and machinery, the sensors, transmitters, and regulating units to be used in them, as well as guidance and regulatory systems. Automation Engineering Study Modes ​​In Automation Engineering students will study together in weekdays monday to friday between 8-16. Studying is equivalent to working at a job: the student is present and works together with others in a diverse way. Daily learning situations could be: Traditional classroom learning. Laboratory work and exercises. Learning by doing practical exercises, projects etc. Learning at the workplace – projects from working life, an internship etc. E-learning at home or anywhere. [-]