| Detailed information |
| Original study plan |
Bachelor's programme Electronics and Information Technology 2025W |
| Learning Outcomes |
Competences |
| After successful completion of the course, students are able to describe simple problems from the fields of classical mechanics and themodynamics, to apply the ways of thinking and solution methods of physics and to transfer these to concrete physical systems.
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| Skills |
Knowledge |
By attending the course, students learn to
- develop computational or phenomenological solutions to physical problems in the fields of classical mechanics and thermodynamics independently or in a group. (K3)
- transfer concepts and solution approaches to new and unknown problems and select and apply suitable mathematical methods. (K3/K4)
- explain physical problems and concepts as well as mathematical solution processes. (K2)
- calculate their own solutions in front of the group and discuss the solutions. (K3/K4)
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During the course, students acquire knowledge in the following areas of physics:
- areas of physics and their interrelation
- elementary physical units
Classical mechanics:
- Newton's axioms
- force, mass energy
- momentum and angular momentum
- harmonic oscillator
- elasticity
- hydrostatics and hydrodynamics
Thermodynamics:
- temperature
- heat, heat capacity
- ideal and real gases
- thermodynamic cycles
- laws of thermodynamics
- kinetic gas theory
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| Criteria for evaluation |
combined (1) Number of successfully completed exercises and (2) quality of presentation/participation in the exercises.
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| Methods |
Problems are handed out to the students, who prepare solutions to be discussed in front of the class.
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| Language |
German |
| Study material |
will be announced in the course
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| Changing subject? |
No |
| Further information |
(*)Diese Übung wird methodisch ergänzt durch die Vorlesung "Physik I für TechnikerInnen".
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| Corresponding lecture |
(*)289PHYSEP1U16: UE Experimentalphysik I (1,25 ECTS)
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