Recommendation on competences shared by university of applied sciences degrees.
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1.Learning to Learn
The graduating student recognises the strengths and development areas of their competence and learning methods, and they utilise the opportunities communities and digitalisation provide in their learning.
- Assesses and develops their competence and learning methods in different learning environments.
- Is able to acquire, critically assess and appropriately apply the national and
international knowledge base and practices of their field.
- Also takes responsibility for group learning and sharing what has been
learned.
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Opiskelu ammattikorkeakoulussa ja osaajana kehittyminen
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Office kunnolla vauhtiin
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Mathematics 1
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Mathematics 2
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Mathematics 3
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Physics 1
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Physics 2
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Physics, Laboratory Work
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An Introduction to Chemistry
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Professional Communication
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English for Working Life
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Swedish at Work
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Intercultural Communication
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Measurement technology
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3D Modelling (CAD)
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Technical Drawing
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Product development
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Construction Materials
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Manufacturing Technology 1
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Manufacturing Technology 2
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Statics (mechanical engineering)
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Strength Theory
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Mechanical structures
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Pneumatics and Hydraulics
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Practical Training
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Research and development methods
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2.Operating in a Workplace
The graduating student has versatile working life skills and is able to operate in work communities of their field.
- Is able to work constructively in a work community and promotes their own
and their work community’s well-being.
- Is able to act professionally in communication and interaction situations at a
workplace.
- Utilises the opportunities offered by technology and digitalisation in their work.
- Understands the complexity of changing working life and their own resilience in changing working life situations
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Opiskelu ammattikorkeakoulussa ja osaajana kehittyminen
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Office kunnolla vauhtiin
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Mathematics 1
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Mathematics 2
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Mathematics 3
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Physics 1
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Physics 2
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Physics, Laboratory Work
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An Introduction to Chemistry
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Professional Communication
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English for Working Life
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Swedish at Work
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Intercultural Communication
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Measurement technology
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3D Modelling (CAD)
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Technical Drawing
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Product development
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Construction Materials
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Manufacturing Technology 1
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Manufacturing Technology 2
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Statics (mechanical engineering)
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Strength Theory
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Mechanical structures
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Pneumatics and Hydraulics
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Industrial Economy
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Managing work
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Quality Management Systems
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Project activity
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Virtual Modelling of Production
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Electricity basics
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Power electricity and electricity motors
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Anturitekniikka
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Programmable logic controller techlology
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Industrial Data Buses
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Robotics
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Simulations of Industrial Robotics
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Industrial Maintenance
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Condition Monitoring in Industry
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Machine condition monitoring methods
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Occupational Safety
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Energy technology and sustainable development
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Process Technology
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Industrial Pipelines
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3D Modelling Continuation Course
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3D-visualisointi
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CAM-tekniikan perusteet
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Dimensioning of mechanical structures
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The Principles of Mechanical Planning
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Vibration Mechanics
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FEM Analysis
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Mechnical Planning Project Work
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Production Planning
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Production Management
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Operations and Production Control Methods
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Production Leadership Project Work
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Robot Programming
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Machine vision in industrial robotics
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Integration of robotic systems
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Robotics projects
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Vibration Mechanics
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Maintenance Planning and Management
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Condition based monitoring applications
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Maintenance Projects
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Mining Engineering and Mineral Excavation
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Particle and Beneficiation Engineering
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Mining act and legislative, environmental protection and occupational health
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Mining and beneficiation project work
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Practical Training
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Research and development methods
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Thesis
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3.Ethics
The graduating student adheres to the ethical principles and values of their field of profession, taking the principles of equality and non-discrimination into account.
- Is able to take responsibility for their own actions and their consequences
and reflects on them in accordance with the ethical principles and values
of their field.
- Takes others into account and promotes equality and non-discrimination.
- Take into account the realisation of diversity and accessibility in their actions.
- Understands the principles of responsible conduct of research and adheres
to them.
- Is able to influence society based on ethical values.
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Opiskelu ammattikorkeakoulussa ja osaajana kehittyminen
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Professional Communication
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Managing work
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Project activity
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Occupational Safety
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Practical Training
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4.Sustainable Development
The graduating student is familiar with the principles of sustainable development, promotes their implementation and acts responsibly as a professional and a member of society.
- Is able to use information related to their field in finding, implementing and
establishing sustainable solutions and operating models.
- Understands sustainability challenges,
their interdependencies and the various aspects of issues and problems.
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An Introduction to Chemistry
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Manufacturing Technology 1
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Manufacturing Technology 2
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Pneumatics and Hydraulics
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Industrial Economy
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Industrial Maintenance
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Condition Monitoring in Industry
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|
Machine condition monitoring methods
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Occupational Safety
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Energy technology and sustainable development
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Mining Engineering and Mineral Excavation
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Particle and Beneficiation Engineering
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Mining act and legislative, environmental protection and occupational health
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Practical Training
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5.Internationality and Multiculturalism
The graduating student is able to operate in multicultural and international operating environments and networks.
- Is familiar with the impacts of their cultural background on their activities and
is able to develop operating methods that take multiculturalism into account
in their work community.
- Is able to monitor and utilise the international development of their field in
their work.
- Is able to communicate internationally in their work tasks.
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English for Working Life
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Swedish at Work
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Intercultural Communication
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6.Proactive Development
The graduating student is able to develop solutions that anticipate the future of their own field,
applying existing knowledge and research and
development methods.
− Solves problem situations creatively
and reforms operating methods together with others.
− Is able to work in projects in cooperation with actors of different fields.
− Is able to apply existing knowledge in
the field in development and utilises research and development methods.
− Is able to seek customer-oriented, sustainable and economically viable solutions, anticipating the future of their field
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Opiskelu ammattikorkeakoulussa ja osaajana kehittyminen
|
|
Mathematics 1
|
|
Mathematics 2
|
|
Mathematics 3
|
|
Physics 1
|
|
Physics 2
|
|
Physics, Laboratory Work
|
|
An Introduction to Chemistry
|
|
English for Working Life
|
|
Swedish at Work
|
|
Intercultural Communication
|
|
Measurement technology
|
|
Technical Drawing
|
|
Product development
|
|
Construction Materials
|
|
Manufacturing Technology 1
|
|
Manufacturing Technology 2
|
|
Statics (mechanical engineering)
|
|
Strength Theory
|
|
Mechanical structures
|
|
Pneumatics and Hydraulics
|
|
Industrial Economy
|
|
Managing work
|
|
Quality Management Systems
|
|
Project activity
|
|
Virtual Modelling of Production
|
|
Electricity basics
|
|
Power electricity and electricity motors
|
|
Anturitekniikka
|
|
Programmable logic controller techlology
|
|
Industrial Data Buses
|
|
Robotics
|
|
Simulations of Industrial Robotics
|
|
Industrial Maintenance
|
|
Condition Monitoring in Industry
|
|
Machine condition monitoring methods
|
|
Occupational Safety
|
|
Energy technology and sustainable development
|
|
Process Technology
|
|
Industrial Pipelines
|
|
3D Modelling Continuation Course
|
|
3D-visualisointi
|
|
CAM-tekniikan perusteet
|
|
Dimensioning of mechanical structures
|
|
The Principles of Mechanical Planning
|
|
Vibration Mechanics
|
|
FEM Analysis
|
|
Mechnical Planning Project Work
|
|
Production Planning
|
|
Production Management
|
|
Operations and Production Control Methods
|
|
Production Leadership Project Work
|
|
Robot Programming
|
|
Machine vision in industrial robotics
|
|
Integration of robotic systems
|
|
Robotics projects
|
|
Vibration Mechanics
|
|
Maintenance Planning and Management
|
|
Condition based monitoring applications
|
|
Maintenance Projects
|
|
Mining Engineering and Mineral Excavation
|
|
Particle and Beneficiation Engineering
|
|
Mining act and legislative, environmental protection and occupational health
|
|
Mining and beneficiation project work
|
|
Practical Training
|
|
Research and development methods
|
|
Thesis
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Not grouped
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Production processes and control
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Motion Analysis of Mechanisms
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Process Automation
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First Aid
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Occupational Safety Card
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Basics of working life
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3D-tulostuksen perusteet
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Tulityökortti
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Excel- jatkokurssi
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Fundamentals of Climate Change
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Climate Actions in Engineering
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Teollinen muotoilu
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Surface modeling
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End of arm tooling design for robotics
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Johdatus ammattikorkeakoulun matematiikkaan
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