Mechanical Engineering
- Admission : /en/education/bachelor/mechanical-engineering/admission/
- Structure of studies : /en/education/bachelor/mechanical-engineering/structure-of-studies/
- Study program : /en/education/bachelor/mechanical-engineering/study-program/
- Career perspectives : /en/education/bachelor/mechanical-engineering/career-perspectives/
- Exchange programs : /en/education/bachelor/mechanical-engineering/exchange-programs/
- People : /en/education/bachelor/mechanical-engineering/people/
- Admission : /en/education/bachelor/mechanical-engineering/admission/
- Structure of studies : /en/education/bachelor/mechanical-engineering/structure-of-studies/
- Study program : /en/education/bachelor/mechanical-engineering/study-program/
- Career perspectives : /en/education/bachelor/mechanical-engineering/career-perspectives/
- Exchange programs : /en/education/bachelor/mechanical-engineering/exchange-programs/
- People : /en/education/bachelor/mechanical-engineering/people/
Study program
Department:
Mechanical Engineering
Specialization:
Plastics and lightweight structures
Module: Statics and dynamics of mechanical systems 2
Course description
Back-
Objectives
Die Studierenden sollen bei der Konstruktion von Maschinen und Systemen sowohl Eigenfrequenzen als auch fremderregte Schwingungen berücksichtigen können
- Kenntnis der theoretischen Grundlagen von Schwingungen diskreter linearer Systeme
- Modellierung von Schwingungsphänomenen können mit vereinfachten Modellen (Einmassenschwinger)
-
Content
Lineare und rotative Schwinger mit einem Freiheitsgrad
- freie ungedämpfte Schwingung
- Energiemethoden beim Einmassenschwinger
- Berechnung von Ersatzfedersteifigkeiten verschiedener Konstruktionselemente
- Freie gedämpfte Schwingung
- erzwungene Schwingungen von ungedämpften Systemen
- logarithmisches Dekrement
- erzwungene Schwingung von gedämpften Systemen
- Vergrösserungsfaktor
- Massenkrafterregung, Unwucht, Fusspunkterregung
- Kräfte auf die Lagerung
Type of teaching and workload
Lecture course (including exercises)
32 periods
Practical exercises / lab work
4 periods
Course specification
Year of validity
2025-2026
Weight
3rd year
Semester
Autumn
Program
French,Bilingual
Department
Mechanical Engineering
Language of instruction
German
ID
B3C-VIB1-M
Level
Advanced
Course type
Core
Study program
Bachelor
Evaluation methods
- Continuous assessment Written work, Practical exercises / Evaluated reports,
Course grade calculation method
The continuous assessment mark is the weighted average of the courses evaluations. If the course includes practical labs (TP), the course mark is the weighted average of the TP mark and the mark of the other evaluations. If one of these two marks (TP or other evaluations) is less than 3.0, the course counts as failed and no mark is given.
Reference work
- Technische Mechanik 3: Dynamik, Russell C. Hibbeler, 2012, ISBN 978-3-86894-127-2
- Technische Schwingungslehre, Manfred Knaebel, Helmut Jaeger, 7. Auflage; ISBN 978-3-8351-0180-7; 2009
- Mécanique du point et du corps solide rigide J. Bersier (französisch)
Intructor(s) and/or coordinator(s)
Gioele Balestra