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Multidisciplinary competences
The learning process should enable Bachelor Degree graduates to demonstrate:
- awareness of the wider multidisciplinary context of engineering
- awareness of societal, health and safety, environmental, economic and industrial implications of engineering practice and recognition of the constraints that they pose
- awareness of economic, organisational and managerial issues (such as project management, risk and change management) in the industrial and business context
- ability to gather and interpret relevant data and handle complexity to inform judgements that include reflection on relevant social and ethical issues
- ability to manage complex technical or professional activities or projects, taking responsibility for decision making
- ability to recognise the need for and to engage in independent life-long learning
- ability to follow developments in science and technology.
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English for Working Life
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Swedish for Working Life
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Communication Skills (for Finnish degree programmes)
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Statics
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Strength of Materials
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JAMK InnoFlash
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Entrepreneurship
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Project Work in Production Engineering 1
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Project Work in Production Engineering 2
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ZZ Machine Design Project
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Pre-Incubator
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Incubator
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Demola Project
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JA Company Program
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DreamUp project
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The Dreams+Inspiration!
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Create your own job
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Industrial Economics
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3D Modeling
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Maintenance Operations Management
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Dependability Management
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Service Production
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Production Management Design
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Operations Management
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Production Systems 2
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Production Management Design
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Operations Management
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Product Development
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Material Selection
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Surface modelling and industrial design
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Safety Engineering
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User Interface Design
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Usability and Ergonomics
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SolidWorks in Machine Design
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Mechanical Engineering Design
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Safety Engineering
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Mechanical Engineering Design
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Practical Training
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Practical Training
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Engineering Practice
The learning process should enable Bachelor Degree graduates to demonstrate:
- ability to analyse complex engineering products, processes and systems, and to correctly interpret the outcomes of such analyses, by being able to select and having the practical skills to apply relevant established analytical, computational and experimental techniques and methods
- ability to identify, formulate and solve complex engineering problems, by being able to select and having the practical skills to apply relevant established analytical, computational and experimental techniques and methods
- ability to develop and design complex products (devices, artefacts, etc.), processes and systems to meet established requirements that can include societal, health and safety, environmental, economic and industrial constraints, by being able to select and having the practical skills to apply relevant design methodologies
- practical skills for realising complex engineering designs
- ability to use the awareness of the forefront of their engineering specialisation in design and development
- ability to apply norms of engineering practice in their engineering specialisation
- ability to consult and apply codes of practice and safety regulations in their engineering specialisation.
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Applied Mathematics and Physics
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Statics
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Strength of Materials
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Project Work in Production Engineering 1
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Project Work in Production Engineering 2
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ZZ Product Development Project
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ZZ Machine Design Project
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Machine Components
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Basics of Production Technology
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Manufacturing Technology
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Measuring and Quality Technique
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Technical Drawing and CAD
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3D Modeling
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Production Automation
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Robotics
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Electrical Engineering
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Preventive Maintenance
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Maintenance Operations Management
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Dependability Management
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Service Production
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Production Management Design
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Service Production
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Operations Management
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Manufacturing Automation
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Production Systems 1
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Production Systems 2
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Chip Removal Production Processes
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Sheet Metal Production Technologies
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Production Management Design
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Operations Management
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Preventive Maintenance
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Production Systems 1
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Manufacturing Automation
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Service Production
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Product Development
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Surface modelling and industrial design
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Safety Engineering
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User Interface Design
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Usability and Ergonomics
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SolidWorks in Machine Design
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Structural Analysis Project
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Actuator Technology
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Machine Dynamics
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Machine Component Design
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Mechanical Engineering Design
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Strength of Materials 2
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Finite Element Methods FEM
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Actuator Technology
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Machine Component Design
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Safety Engineering
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Mechanical Engineering Design
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Practical Training
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Practical Training
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Research and Development
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Bachelor's Thesis, Planning
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Bachelor's Thesis, Implementation
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Bachelor's Thesis, Reporting and Assessment
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Knowledge and Understanding
The learning process should enable Bachelor Degree graduates to demonstrate:
- knowledge and understanding of mathematics and other basic sciences underlying their engineering specialisation, at a level necessary to achieve the other programme learning outcomes
- knowledge and understanding of engineering disciplines underlying their specialisation, at a level necessary to achieve the other programme learning outcomes, including some awareness at the forefront
- knowledge and understanding of applicable materials, equipment and tools, engineering technologies and processes, and of their limitations, in their specialisation
- knowledge and understanding of applicable techniques and methods of analysis, design and investigation, and of their limitations, in their specialisation.
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Math1 Equations
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Math1 Support
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Math2 Functions
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Math2 Support
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Math3 Derivative and Integral
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Math3 Support
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Phys1 Force and Motion
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Phys2 Energy
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Applied Mathematics and Physics
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Statics
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Strength of Materials
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Phys3 Fluids and heat
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Industrial Economics
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Basics of Production Technology
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Manufacturing Technology
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Measuring and Quality Technique
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Technical Drawing and CAD
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Material Technology
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ICT Skills
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Electrical Engineering
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Operations Management
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Welding Technology
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Chip Removal Production Processes
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Sheet Metal Production Technologies
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Operations Management
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Welding Technology
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Material Selection
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User Interface Design
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SolidWorks in Machine Design
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Machine Dynamics
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Strength of Materials 2
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Finite Element Methods FEM
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Investigations and information retrieval
The learning process should enable Bachelor Degree graduates to demonstrate:
- ability to conduct searches of literature, to consult and to critically use scientific databases and other appropriate sources of information, and to carry out simulation and analysis, in order to pursue detailed investigations and research of technical issues
- ability and practical skills to design and conduct experimental investigations, interpret data and draw conclusions
- ability to work in a laboratory/workshop setting.
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Development as an Expert
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Student´s wellbeing and life skills
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Life balance
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Student Tutoring
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Multiform tutoring
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Mentoring
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Find Your Physical Activity
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Active in Student Associations
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Phys1 Force and Motion
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Phys2 Energy
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Applied Mathematics and Physics
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Phys3 Fluids and heat
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ZZ Product Development Project
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Demola Project
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The Dreams+Inspiration!
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Machine Components
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Measuring and Quality Technique
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Material Technology
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Production Automation
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Robotics
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Welding Technology
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Manufacturing Automation
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Production Systems 1
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Production Systems 2
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Production Systems 1
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Welding Technology
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Manufacturing Automation
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Material Selection
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Surface modelling and industrial design
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Safety Engineering
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Structural Analysis Project
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Machine Component Design
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Strength of Materials 2
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Finite Element Methods FEM
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Machine Component Design
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Safety Engineering
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Research and Development
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Bachelor's Thesis, Planning
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Bachelor's Thesis, Thesis Writing
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Bachelor's Thesis, Implementation
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Bachelor's Thesis, Reporting and Assessment
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Communication and Team-working
The learning process should enable Bachelor Degree graduates to demonstrate:
- ability to communicate effectively information, ideas, problems and solutions with the engineering community
- ability to communicate effectively information, ideas, problems and solutions with the society at large
- ability to function effectively and ethically in a national and an international context
- ability to function effectively as an individual and as an entrepreneurship as a member of a team
- ability to cooperate effectively with engineers and non-engineers.
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Development as an Expert
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Writing for studies
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Study techniques
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Refreshing language skills
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Student Tutoring
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Multiform tutoring
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Mentoring
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Active in Student Associations
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English for Working Life
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Swedish for Working Life
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Communication Skills (for Finnish degree programmes)
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JAMK InnoFlash
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Entrepreneurship
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Project Work in Production Engineering 1
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Project Work in Production Engineering 2
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ZZ Product Development Project
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|
ZZ Machine Design Project
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Demola Project
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Technical Drawing and CAD
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3D Modeling
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Robotics
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Maintenance Operations Management
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Service Production
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Sheet Metal Production Technologies
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Product Development
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Usability and Ergonomics
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Structural Analysis Project
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Practical Training
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Practical Training
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Research and Development
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Bachelor's Thesis, Planning
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Bachelor's Thesis, Thesis Writing
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Bachelor's Thesis, Implementation
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Bachelor's Thesis, Reporting and Assessment
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Maturity Test, Bachelor's Degree
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Not grouped
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Preparatory Mathematics
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Basics of Measurement and Automation
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Safety Engineering
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Development Techniques
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Safety Engineering
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Development Techniques
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