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Engineering Mechanics
Technische Mechanik
Last Updated: 2026-02-05 15:02:15
Abstract
Compatibility of constraints, statics, strength of materials. Forces, equilibrium, statically determined plane systems, friction, tension, theory of flexibility, buckling, design concepts, bolt connections, hydrostatics, examples of structures, suitable materials.Script: Technical Mechanics, Essentials and selected Chapters.
Objective
Getting to know mechanics as the common base of many engineering subjects. Basic principles for developing solutions to problems. Portrayal of relationships between technical mechanics and subjects from the specialised courses. Understanding and using basic concepts of compatibility of constraints, statics and the theory of strength of materials, and material science. Understanding and using the basics of hydrostatics and hydrodynamics.
Content
Mechanics in engineering, reference systems, basic principles, degrees of freedom and constraints, forces, equilibrium, statically determinated plane systems, friction, tension, classic theory of flexibility, buckling, plastic behaviour, design concepts, reliability and durability, girders made of steel, reinforced concrete and wood, bolt connections, hydrostatics, hydrodynamics, examples of structures, choosing suitable materials
Resources
Lecture Notes
Technical Mechanics, Essentials and selected Chapters
Literature
- Beer, F.P. and Johnston, E.R., 1990: Vector Mechanics for Engineers, Statics and Dynamics, McGraw-Hill In-ternational. - Murdi, B.B. and McNabb, J.W., 1991: Engineering Mechanics of Materials, Springer, New York
General Information
- Language
- German
- Frequency
- Yearly recurring
Examination
- Type
- graded semester performance
Course Components
| Type | Title | Time & Place | Hours |
|---|---|---|---|
| lecture with exercise | Technische Mechanik |
|
3 h weekly |