After successful completion of the course, students are able to present basic concepts of the dynamics of solids and fluids in a uniform manner and apply these to fundamental structural problems with the help of computational models.
Dynamics of Solids and Fluids, Conservation of Momentum, Conservation of Angular Momentum. Applications to Rigid-Body Dynamics. Linear Oscillations. Vibrations of Linear Elastic Beams. Kinetic Energy, The Law of Conservation of Kinetic Energy, and The Law of Conservation of Mechanical Energy. Applications to Single-Degree-of-Freedom Systems. Bernoulli`s Equation of Fluid Mechanics. Stability Problems (Equilibrium Configuration, Fundamental Motion). Lagrange Equations of Motion. Multi-Degree-of-Freedom Oscillators. Unbalanced Rotor. Approximate Methods of Dynamics and Statics. Impact. Fluid Dynamics.
Lectures including many numerical example problems.
Diese Vorlesung ist ident mit der Mechanik 1 (VO) 206.330.
Beginn ist am DO, 5.3.2020 um 10:15 Uhr
Written and oral final exam
Not necessary