Inhalt

[ 281MEMBTM2V20 ] VL Engineering Mechanics 2

Versionsauswahl
(*) Unfortunately this information is not available in english.
Workload Education level Study areas Responsible person Hours per week Coordinating university
3 ECTS B1 - Bachelor's programme 1. year Mechatronics Michael Krommer 2 hpw Johannes Kepler University Linz
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
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.

Criteria for evaluation Written and oral exams
Methods Lecture notes, blackboard and slides
Language German
Study material F. Ziegler, Technische Mechanik fester und flüssiger Körper; P. Hagedorn: Technische Mechanik I, II, III
Changing subject? No
Further information none
Corresponding lecture (*)MEBPBVOTME2: VO Technische Mechanik 2 (4,5 ECTS)
On-site course
Maximum number of participants -
Assignment procedure Assignment according to sequence