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Detailed information |
Original study plan |
Bachelor's programme Mechatronics 2020W |
Objectives |
Fundamental laws and methods in dynamics of rigid and deformable bodies and in strength of materials
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Subject |
The lecture Engineering Mechanics 2 is concerned with dynamics and strength of materials of material bodies and their application to engineering systems. The topics
- Balance of linear momentum and moment of momentum (rigid and deformable bodies, moment of inertia, Euler's equations, local balance equations)
- Energy-based methods (work, energy and power theorems, potential energy of forces and force field)
- d'Alembert's principle (rigid and deformable bodies, principle of virtual work, Gibbs principle)
- Linearized elasticity (fundamentals, linear elastic body, Hooke's law, Navier equations)
- Yield criteria (von Mises, Tresca)
- Bending of straight beams (differential equation, principle of virtual forces, force method, transfer matrix method)
- Eigenvalue problems (buckling of straight rods, natural vibrations of beams)
- Selected solutions of linearized elasticity (St. Venant torsion, discs)
are treated in detail.
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Criteria for evaluation |
Written and oral exams
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Methods |
Lecture notes, blackboard and slides
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Language |
German |
Study material |
F. Ziegler, Technische Mechanik fester und flüssiger Körper; P. Hagedorn: Technische Mechanik I, II, III
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Changing subject? |
No |
Further information |
none
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Corresponding lecture |
(*)MEBPBVOTME2: VO Technische Mechanik 2 (4,5 ECTS)
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