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t.BA.EUP.STFL.19HS (Statics Strength of Materials Physics 3)
Module: Statics Strength of Materials Physics 3
This information was generated on: 22 February 2024
No.
t.BA.EUP.STFL.19HS
Title
Statics Strength of Materials Physics 3
Organised by
T IMES
Credits
4
Description
Version: 2.0 start 01 February 2020
Short description
A major objective of this module is to present the basic concepts and principles of statics for rigid and deformable bodies to engineering students.
Module coordinator
Eberlein Robert (ebei)
Learning objectives (competencies)
Objectives
Competences
Taxonomy levels
Understanding of basic concepts in statics
F
K2
Analyzing interaction of forces and moments on rigid bodies
F
K3
Determination of static and kinetic friction forces
F, M
K3
Identification of support and reaction forces
F, M
K2 / K4
Definition of statîcally determinate systems
F, M
K4
Deriving equilibrium conditions for general systems of forces
F, M
K3 / K4
Analytical solution of plane truss frameworks for relevant practical applications
F, M
K3 / K4
Calculation of stress resultants in beams and frames
F, M
K3
Stress and strain concept in linear elasticity
F
K2
Stresses in simple structures (rods, beams, torsional shafts)
F, M
K3 / K4
Explaination of concept limitations
F
K2
Module contents
1.
Basic conepts of statics
Overview Engineering Mechanics
Repetition Physics 1: force, moment and vector
Rigid vs deformable bodies
Free body diagram, actio=reactio
2.
Special and general forces
General terms
Decomposition of forces in a plane
Equilibrium in a plane
Application examples
3.
Support structures
General terms
Determination of the Internal Forces
Statically determinate systems
4.
Truss frameworks
Basic principles
Determination of truss forces
5.
Static and kinetic friction
General terms
Coulomb theory of friction
6. Stress resultants in beams I
General terms
Determination of stress resultants in plane and 3D beam structures
7. Stress resultants in beams II
Exercises
8. Basic concepts in elasticity
General terms
Consitutive law for linear elasticity
Tension and compression in rods
9. Beam bending I
General terms
Stress distribution in beams
10. Beam bending II
Moments of inertia
Bending deformation
11. Beam bending III
Exercises
12. Torsion I
General terms
Shear stress and rotation due to torque I
13. Torsion II
Shear stress and rotation due to torque II
14. Strength of materials
Strength hypotheses
Semester review
Teaching materials
Class textbooks: Engineering Mechanics 1 & 2: Gross et al., Springer
Class notes by lecturer
Supplementary literature
Prerequisites
Physics 1, analysis 1 & 2, algebra and statistics 1 & 2
Teaching language
(X) German ( ) English
Part of International Profile
( ) Yes (X) No
Module structure
Type 3a
For more details please click on this link:
T_CL_Modulauspraegungen_SM2025
Exams
Description
Type
Form
Scope
Grade
Weighting
Graded assignments during teaching semester
2x
exam
written
2x
30 min
graded
2x
20%
End-of-semester exam
exam
written
90 min
graded
60%
Remarks
Deviations from the proof of performance during the lectures can be made if the lecturer announces this in writing in a module agreement during the first week of the study semester.
Legal basis
The module description is part of the legal basis in addition to the general academic regulations. It is binding. During the first week of the semester a written and communicated supplement can specify the module description in more detail.
Course: Physik 3: Statik Festigkeitslehre - Praktikum
No.
t.BA.EUP.STFL.19HS.P
Title
Physik 3: Statik Festigkeitslehre - Praktikum
Note
No module description is available in the system for the cut-off date of 01 August 2099.
Course: Physik 3: Statik Festigkeitslehre - Vorlesung
No.
t.BA.EUP.STFL.19HS.V
Title
Physik 3: Statik Festigkeitslehre - Vorlesung
Note
No module description is available in the system for the cut-off date of 01 August 2099.