206.330 mechanics 1
This course is in all assigned curricula part of the STEOP.
This course is in at least 1 assigned curriculum part of the STEOP.

2024S, VO, 3.0h, 4.5EC
TUWEL

Properties

  • Semester hours: 3.0
  • Credits: 4.5
  • Type: VO Lecture
  • Format: Presence

Learning outcomes

After successful completion of the course, students are able to…

  • determinate the stress vector, describe the possible stress states (spatial and plane) and calculate the stress tensor using Cauchy's stress formula and local equilibrium relations.
  • describe the elasticity of bodies using Hooke's generalised law for different stress and distortion states.
  • formulate and solve the corresponding differential equations for the calculation of the bending line for plane beam bending.
  • derive the hydrostatic stress state and calculate the pressure distribution and force resultants on plane and cylindrically curved walls.
  • describe kinematic quantities in different coordinate systems and deduce the basic formula of kinematics for rigid bodies.
  • apply the basic dynamic law to solid bodies and derive the centre of gravity, momentum and twist theorems from it.
  • define and calculate moments of inertia and deviation for different bodies.
  • describe the kinematics and kinetics of ideal fluids in flow and derive the continuity equation as well as the momentum and twist theorem in fluids by means of Reynolds' transport theorem.
  • set up Bernoulli's equation for ideal fluids in steady and unsteady state taking into account power inputs and outputs.
  • describe the motion of single-mass and multi-mass oscillators using different methods (momentum and twist theorem, work theorem in differential form, Lagrangian formalism), compute and explain their dynamic parameters and solve associated initial and boundary value problems.
  • solve simple impact problems factoring in the deformation behaviour of the involved materials.

Subject of course

Mechanical stress, deformations and strains, law of elasticity, elastic deflection curve. Hydrostatic uplift, resulting hydrostatic forces. Application of the principle of virtual displacements. Kinematics and kinetics of the mass point, the rigid body and of fluids. Conservation of momentum, conservation of angular momentum. Energy theorem, Bernoulli’s equation of hydrodynamics. Linear vibrations of both SDOFs and MDOFs.

Teaching methods

Lectures including many numerical example problems.


Mode of examination

Written and oral

Additional information

The lecture units will be held face-to-face at TU and additionally be available for live streaming via LectureTube on TUWEL. The TUWEL course also provides the notes of the past lectures as PDF files. All TUWEL contents will remain available to all registered students until the end of the semester.

Please, note that there will not be any recorded videos of the lectures provided.

Lecturers

Institute

Course dates

DayTimeDateLocationDescription
Thu10:00 - 12:0007.03.2024 - 27.06.2024HS 8 Heinz Parkus - CEE Vorlesung BI
Thu10:00 - 12:0007.03.2024 - 27.06.2024EI 3 Sahulka HS - UIW Vorlesung UIW
Fri10:00 - 12:0008.03.2024 - 21.06.2024HS 8 Heinz Parkus - CEE Vorlesung BI
Fri10:00 - 12:0008.03.2024 - 21.06.2024EI 3 Sahulka HS - UIW Vorlesung UIW
Mon10:00 - 12:0011.03.2024 - 24.06.2024HS 8 Heinz Parkus - CEE Vorlesung BI
Mon10:00 - 12:0011.03.2024 - 24.06.2024EI 3 Sahulka HS - UIW Vorlesung UIW
mechanics 1 - Single appointments
DayDateTimeLocationDescription
Thu07.03.202410:00 - 12:00HS 8 Heinz Parkus - CEE Vorlesung BI
Thu07.03.202410:00 - 12:00EI 3 Sahulka HS - UIW Vorlesung UIW
Fri08.03.202410:00 - 12:00HS 8 Heinz Parkus - CEE Vorlesung BI
Fri08.03.202410:00 - 12:00EI 3 Sahulka HS - UIW Vorlesung UIW
Mon11.03.202410:00 - 12:00HS 8 Heinz Parkus - CEE Vorlesung BI
Mon11.03.202410:00 - 12:00EI 3 Sahulka HS - UIW Vorlesung UIW
Thu14.03.202410:00 - 12:00HS 8 Heinz Parkus - CEE Vorlesung BI
Thu14.03.202410:00 - 12:00EI 3 Sahulka HS - UIW Vorlesung UIW
Fri15.03.202410:00 - 12:00HS 8 Heinz Parkus - CEE Vorlesung BI
Fri15.03.202410:00 - 12:00EI 3 Sahulka HS - UIW Vorlesung UIW
Mon18.03.202410:00 - 12:00HS 8 Heinz Parkus - CEE Vorlesung BI
Mon18.03.202410:00 - 12:00EI 3 Sahulka HS - UIW Vorlesung UIW
Thu21.03.202410:00 - 12:00HS 8 Heinz Parkus - CEE Vorlesung BI
Thu21.03.202410:00 - 12:00EI 3 Sahulka HS - UIW Vorlesung UIW
Fri22.03.202410:00 - 12:00HS 8 Heinz Parkus - CEE Vorlesung BI
Fri22.03.202410:00 - 12:00EI 3 Sahulka HS - UIW Vorlesung UIW
Mon08.04.202410:00 - 12:00HS 8 Heinz Parkus - CEE Vorlesung BI
Mon08.04.202410:00 - 12:00EI 3 Sahulka HS - UIW Vorlesung UIW
Thu11.04.202410:00 - 12:00HS 8 Heinz Parkus - CEE Vorlesung BI
Thu11.04.202410:00 - 12:00EI 3 Sahulka HS - UIW Vorlesung UIW

Examination modalities

Written and oral examination.

Exams

DayTimeDateRoomMode of examinationApplication timeApplication modeExam
Fri14:00 - 16:0021.06.2024 HS 8written&oral31.05.2024 08:00 - 19.06.2024 12:00TISSPrüfung Mechanik 1 VO Juni 2024
Wed09:00 - 17:0026.06.2024HS 7 Schütte-Lihotzky - ARCH written&oralno application-Mündlicher Prüfungsteil zum schriftlichen Termin am 21.06.2024 - ACHTUNG: Mehrere Termine!
Thu09:00 - 17:0027.06.2024Hörsaal 15 written&oralno application-Mündlicher Prüfungsteil zum schriftlichen Termin am 21.06.2024 - ACHTUNG: Mehrere Termine!
Fri09:00 - 17:0028.06.2024HS 17 Friedrich Hartmann - ARCH written&oralno application-Mündlicher Prüfungsteil zum schriftlichen Termin am 21.06.2024 - ACHTUNG: Mehrere Termine!
Mon09:00 - 18:0001.07.2024Hörsaal 15 written&oralno application-Mündlicher Prüfungsteil zum schriftlichen Termin am 21.06.2024 - ACHTUNG: Mehrere Termine!
Tue09:00 - 18:0002.07.2024Hörsaal 15 written&oralno application-Mündlicher Prüfungsteil zum schriftlichen Termin am 21.06.2024 - ACHTUNG: Mehrere Termine!
Mon13:00 - 15:0009.09.2024FH Hörsaal 1 - MWB written&oral19.08.2024 08:00 - 05.09.2024 12:00TISSPrüfung Mechanik 1 VO September 2024
Mon - 14.10.2024written&oral23.09.2024 12:00 - 10.10.2024 08:00TISSPrüfung Mechanik 1 VO Oktober 2023
Mon - 21.10.2024written&oralno application-Mündlicher Prüfungsteil zum schriftlichen Termin am 09.10.2023
Mon - 25.11.2024written&oral04.11.2024 12:00 - 21.11.2024 08:00TISSPrüfung Mechanik 1 VO November 2023
Tue - 26.11.2024written&oralno application-Mündlicher Prüfungsteil zum schriftlichen Termin am 20.11.2023
Wed - 08.01.2025written&oral18.12.2024 12:00 - 06.01.2025 08:00TISSPrüfung Mechanik 1 VO Januar 2024
Wed - 15.01.2025written&oralno application-Mündlicher Prüfungsteil zum schriftlichen Termin am 10.01.2024
Mon - 17.03.2025written&oral24.02.2025 08:00 - 13.03.2025 12:00TISSPrüfung Mechanik 1 VO März 2024
Thu - 20.03.2025written&oralno application-Mündlicher Prüfungsteil zum schriftlichen Termin am 18.03.2024
Wed - 25.06.2025written&oralno application-Mündlicher Prüfungsteil zum schriftlichen Termin am 21.06.2024 - ACHTUNG: Mehrere Termine!
Fri - 27.06.2025written&oral06.06.2025 08:00 - 25.06.2025 12:00TISSPrüfung Mechanik 1 VO Juni 2024
Mon - 08.09.2025written&oral18.08.2025 08:00 - 04.09.2025 12:00TISSPrüfung Mechanik 1 VO September 2024

Course registration

Not necessary

Precondition

The student must have at least 1 of the course(s) completed listed below:

Curricula

Study CodeObligationSemesterPrecon.Info
033 265 Civil Engineering Mandatory2. Semester
033 266 Environmental Engineering Mandatory2. Semester

Literature

Christian Bucher: Mechanik für IngenieurInnen

https://www.amazon.de/dp/1686710399?ref_=pe_3052080_397514860

EPUB: https://books.apple.com/at/book/mechanik-fuer-ingenieurinnen-und-ingenieure/id1479293247

Accompanying courses

Language

German