# 309.020 Mechanics of solid bodies 2 This course is in all assigned curricula part of the STEOP.\$(function(){PrimeFaces.cw("Tooltip","widget_j_id_21",{id:"j_id_21",showEffect:"fade",hideEffect:"fade",target:"isAllSteop"});});This course is in at least 1 assigned curriculum part of the STEOP.\$(function(){PrimeFaces.cw("Tooltip","widget_j_id_23",{id:"j_id_23",showEffect:"fade",hideEffect:"fade",target:"isAnySteop"});}); 2024W 2023W 2022W 2021W 2020W 2019W 2018W 2017W 2017S 2016S 2015S 2014S 2013S 2012S 2011S 2010S 2009S 2008S 2007S 2006S 2005S 2004S 2003S 2002S

2023W, VO, 3.0h, 5.0EC

## Properties

• Semester hours: 3.0
• Credits: 5.0
• Type: VO Lecture
• LectureTube course
• Format: Hybrid

## Learning outcomes

After successful completion of the course, students are able to...

• determine speed and acceleration with respect to different systems of reference for any point in a system of a kinematic chain with joints as a function of given coordinates and their derivatives and they represent those quantities as vectorial quantities in different coordinate systems;
• explain the relationship between forces and motion using Newton's and Euler's principles;
• determine and solve the equations of motion for rigid body systems and determine the necessary constraining forces;
• determine the mechanical energy of a rigid-body system and establish the equation of motion for systems with one degree of freedom via the relationship between energy, work and power;
• analyse the behaviour of gyros and rotating machine parts, especially in connection with static and dynamic unbalance;
• explain the basics of Newtonian celestial mechanics;
• apply elementary impact theory to systems of rigid bodies;
• set up and linearize the equation of motion for oscillating mechanical systems with one degree of freedom and analyse their behavior in case of a free oscillation or as harmonically excited system.

# Kinematics:

• velocity and acceleration of points using vectors.
• spatial movement of rigid bodies.
• Movement in different frames of reference.
• restricted movement in a plane.

# Kinetics:

• Basic laws of Newton: linear momentum.
• Euler's laws for rotational movement.
• Kinetic energy, power and work.

# Special Applications:

• Gyros.
• Vibrations: free and forced.
• Impact problems.
• Planetary movement - Kepler's Laws.
• Coriolis' forces.

## Teaching methods

Lecture with examples and Experiments.

## Mode of examination

Written and oral

A preliminary discussion will be held  together with the exercises Mechanik 2 VO.

All communication via TUWEL.

## Course dates

DayTimeDateLocationDescription
Tue14:00 - 16:0003.10.2023 - 16.01.2024FH Hörsaal 1 - MWB Lecture
Thu14:00 - 16:0005.10.2023 - 11.01.2024FH Hörsaal 1 - MWB Vorlesung
Fri13:00 - 15:0006.10.2023FH Hörsaal 1 - MWB Lecture (Substitute for October 17th)
Tue14:00 - 16:0023.01.2024FH Hörsaal 6 - TPH Lehreinheit 25: Relativkinematik – Scheinkräfte – Scheinmomente
Tue13:00 - 16:0005.03.2024 - 25.06.2024Seminarraum BA 05 - MB Mündliche Prüfung Mechanik 2
Mechanics of solid bodies 2 - Single appointments
DayDateTimeLocationDescription
Tue03.10.202314:00 - 16:00FH Hörsaal 1 - MWB Organisational Issues om Modul Mechanics 2
Thu05.10.202314:00 - 16:00FH Hörsaal 1 - MWB Vorlesung
Fri06.10.202313:00 - 15:00FH Hörsaal 1 - MWB Lecture (Substitute for October 17th)
Tue10.10.202314:00 - 16:00FH Hörsaal 1 - MWB Lecture
Thu12.10.202314:00 - 16:00FH Hörsaal 1 - MWB Vorlesung
Thu19.10.202314:00 - 16:00FH Hörsaal 1 - MWB Vorlesung
Tue24.10.202314:00 - 16:00FH Hörsaal 1 - MWB Lecture
Tue31.10.202314:00 - 16:00FH Hörsaal 1 - MWB Lecture
Tue07.11.202314:00 - 16:00FH Hörsaal 1 - MWB Lecture
Thu09.11.202314:00 - 16:00FH Hörsaal 1 - MWB Vorlesung
Tue14.11.202314:00 - 16:00FH Hörsaal 1 - MWB Lecture
Thu16.11.202314:00 - 16:00FH Hörsaal 1 - MWB Vorlesung
Tue21.11.202314:00 - 16:00FH Hörsaal 1 - MWB Lecture
Thu23.11.202314:00 - 16:00FH Hörsaal 1 - MWB Vorlesung
Tue28.11.202314:00 - 16:00FH Hörsaal 1 - MWB Lecture
Thu30.11.202314:00 - 16:00FH Hörsaal 1 - MWB Vorlesung
Tue05.12.202314:00 - 16:00FH Hörsaal 1 - MWB Lecture
Thu07.12.202314:00 - 16:00FH Hörsaal 1 - MWB Vorlesung
Tue12.12.202314:00 - 16:00FH Hörsaal 1 - MWB Lecture
Thu14.12.202314:00 - 16:00FH Hörsaal 1 - MWB Vorlesung

## Examination modalities

Written and oral exam.

## Exams

DayTimeDateRoomMode of examinationApplication timeApplication modeExam
Thu13:00 - 17:0019.09.2024Seminarraum BA 05 - MB written&oral29.08.2024 08:00 - 17.09.2024 12:00TISSMündlicher Prüfungsteil 2024-09-19
Fri14:00 - 16:0018.10.2024EI 7 Hörsaal - ETIT written&oral01.10.2024 12:00 - 15.10.2024 12:00TISSSCHRIFTLICHER Prüfungsteil Oktober 2024 (Paralleltermin)
Fri14:00 - 16:0006.12.2024GM 1 Audi. Max.- ARCH-INF written&oral19.11.2024 12:00 - 03.12.2024 12:00TISSSCHRIFTLICHER Prüfungsteil Dezember 2024 (Paralleltermin)
Fri10:00 - 12:0007.02.2025GM 1 Audi. Max.- ARCH-INF written21.01.2025 12:00 - 04.02.2025 12:00TISSSCHRIFTLICHER Prüfungsteil Februar 2025 (Paralleltermin)
Fri14:00 - 16:0021.03.2025GM 1 Audi. Max.- ARCH-INF written&oral04.03.2025 12:00 - 18.03.2025 12:00TISSSCHRIFTLICHER Prüfungsteil März 2025 (Paralleltermin)
Fri14:00 - 16:0016.05.2025GM 1 Audi. Max.- ARCH-INF written29.04.2025 12:00 - 13.05.2025 12:00TISSSCHRIFTLICHER Prüfungsteil Mai 2025 (Paralleltermin)
Fri10:00 - 12:0004.07.2025GM 1 Audi. Max.- ARCH-INF written&oral17.06.2025 12:00 - 01.07.2025 12:00TISSSCHRIFTLICHER Prüfungsteil Juli 2025 (Paralleltermin)

## Course registration

Not necessary

### Precondition

The student must have at least 1 of the course(s) completed listed below:

## Curricula

Study CodeObligationSemesterPrecon.Info
033 245 Mechanical Engineering Mandatory3. Semester
Course requires the completion of the introductory and orientation phase
033 282 Mechanical Engineering - Management Mandatory3. Semester
Course requires the completion of the introductory and orientation phase

## Literature

The presentations are being made available successively at the TUWEL platform as the lecture progresses.

## Previous knowledge

Basics of statics.

German