Course MV-TM-86021-K-4
Elements of Applied Mechanics II (2V+1U, 5.0 LP)
Course Type
SWS | Type | Course Form | CP (Effort) | Presence-Time / Self-Study | |
---|---|---|---|---|---|
- | K | Lecture with exercise classes (V/U) | 5.0 CP | 108 h | |
2 | V | Lecture | 28 h | ||
1 | U | Lecture hall exercise class | 14 h | ||
(2V+1U) | 5.0 CP | 42 h | 108 h |
Basedata
Notice
In addition to lectures and exercises, the Chair of Applied Mechanics offers tutorials and student consultation hours. (Dates: see OLAT)
Contents
- kinetics of particles and rigid bodies
- velocity and acceleration (Cartesian, polar, and natural coordinates)
- plane motion of rigid bodies (instantaneous center of rotation)
- relative motion (kinematics)
- dynamics of particles and particle systems (principle of linear and angular momentum, principle of work and energy, impact, gravitation, planetary motion)
- dynamics of rigid bodies (principle of linear and angular momentum, principle of work and energy, mass moment of inertia, impact, Euler rotation equations)
Competencies / intended learning achievements
1. Lecture
Students are able to
- define velocity and acceleration
- analyze the kinematics of particles and rigid bodies
- formulate the equations of motion for particles, system of particles and rigid bodies
- solve the equations of motion via integration
- analyze motion in moving frames of reference
2.Tutorial
Students are able to
- compute velocity and acceleration states in different coordinate systems
- compute velocity and acceleration states with respect to moving frames of reference
- apply the principle of linear and angular momentum as well as the principle of work and energy to particles, particle systems, and rigid bodies
- formulate the equations of motion via free body diagrams
- compute motions by solving the equations of motion considering initial conditions
- analyze impacts
- formulate kinetic equations in moving frames of reference
- present and discuss their results among themselves
Literature
- Gross, Hauger, Schröder, Wall: Technische Mechanik 3 – Kinetik, Springer
- Gross, Ehlers, Wriggers, Schröder, Müller: Formeln und Aufgaben zur Technischen Mechanik 3 Kinetik, Hydrodynamik, Springer
- Hagedorn: Technische Mechanik 3 – Dynamik, Verlag Harri Deutsch
Materials
Blackboard/overhead, projector, slides. For further information and course materials please consider the corresponding OLAT-course.
Requirements for attendance (informal)
Modules:
Requirements for attendance (formal)
None
References to Course [MV-TM-86021-K-4]
Module | Name | Context | |
---|---|---|---|
[MV-BEMT-7-M-4] | Applied Mechanics | P: Obligatory | 2V+1U, 4.0 LP |
[MV-TM-55-M-4] | Elements of Applied Mechanics II | P: Obligatory | 2V+1U, 5.0 LP |
Notes on the module handbook of the department Mechanical and Process Engineering
Ausnahmen: