Learning outcomes

1. The Bachelor can analyse a structured engineering problem based on international current scientific knowledge and technological know-how in his own discipline.

2. The Bachelor can apply existing technology to a concrete engineering problem and in this, acts with an eye for realism and efficiency (engineering attitude).

3. The Bachelor can systematically and accurately develop a structured engineering-technical design in his own discipline, taking into account the clear requirements.

4. The bachelor has an overview of several engineering disciplines, knows their basic principles and can apply them to simple problems.

5. The Bachelor can collect and process scientific information and existing research results purposefully.

6. The Bachelor can conceive, plan and execute accurate research creatively and select the appropriate, simple methods to do so.

7. The Bachelor solves simple engineering-technical problems from a critical, investigative attitude and can justify the choices made.

8. The Bachelor can communicate verbally, in writing and graphically in the language of instruction about his area of expertise with specialists in a multidisciplinary team; knows the terminology of the area of expertise in the most relevant foreign language.

9. The Bachelor has the social and communicative skills to take on the role of team member.

10. The Bachelor has the necessary basic skills to work thematically as a team member.

11. The Bachelor considers their actions in a global international context with attention to economics, social context, ecology, ethics and safety.

12. The Bachelor can design mechanical systems up to the practical realisation by analyzing, modelling, simulating, dimensioning, optimizing, implementing and testing them, in short by designing. The Bachelor works methodically.

13. The Bachelor can select and implement the most efficient automation system to automate a production process.

14. The Bachelor understands the mutual interaction in electrostatics and electrodynamics and can apply this when designing and maintaining electrotechnical systems.

15. The Bachelor can fathom/design the main basic energy systems with an eye for sustainable development (economic and ecological conditions).

16. The Bachelor understands the interaction between software and mechanical and electronic systems. The Bachelor is able to model and control the behaviour of mechatronic systems using modern software-simulation programmes.