Dynamics and Hydromechanics
Niveau
First cycle, Bachelor
Learning outcomes of the courses/module
Through the “Dynamics” component, the students are able to:
• Analyze physical problems in the field of dynamics independently,
• Develop solution methods and devise solutions.
• Reduce technical systems of a mechanical nature to the underlying physical principles.
• Apply mathematical methods to solve physical problems.
• Independently identify problems in technical systems, develop physical models for solutions and estimate the feasibility of physical processes.
• Describe, present and pass on knowledge gained.
Through the “Hydromechanics” component, the students are able to:
• Describe the essential material properties of liquids.
• Determine and calculate the forces acting on geometric surfaces due to hydrostatic pressure.
• Calculate the momentum of simple geometric bodies.
• Apply and calculate the continuity and energy equations to simple hydraulic systems.
• Analyze simple systems of pipe hydraulics and calculate the occurring pressure losses, volume flows and flow velocities.
• Apply the impulse and twist laws to simple hydraulic systems and calculate the force effect of flowing fluids.
• Apply similarity laws to simple hydraulic systems.
• Analyze physical problems in the field of dynamics independently,
• Develop solution methods and devise solutions.
• Reduce technical systems of a mechanical nature to the underlying physical principles.
• Apply mathematical methods to solve physical problems.
• Independently identify problems in technical systems, develop physical models for solutions and estimate the feasibility of physical processes.
• Describe, present and pass on knowledge gained.
Through the “Hydromechanics” component, the students are able to:
• Describe the essential material properties of liquids.
• Determine and calculate the forces acting on geometric surfaces due to hydrostatic pressure.
• Calculate the momentum of simple geometric bodies.
• Apply and calculate the continuity and energy equations to simple hydraulic systems.
• Analyze simple systems of pipe hydraulics and calculate the occurring pressure losses, volume flows and flow velocities.
• Apply the impulse and twist laws to simple hydraulic systems and calculate the force effect of flowing fluids.
• Apply similarity laws to simple hydraulic systems.
Prerequisites for the course
not applicable
Course content
Dynamics component:
• Kinematics of the mass point; description of the movement of the mass point, velocity, acceleration, relative movement
• Kinetics of the mass point; Newtonian law, momentum theorem, spin theorem, energy conservation theorem
• Kinematics and kinetics of the rigid body: Kinematics of the general motion of a rigid body, mass moment of inertia, impulse theorem, twist theorem, energy conservation theorem, systems of rigid bodies
• Impact processes; straight central impact, eccentric impact
• Vibrations; classification of vibrations, free and forced vibrations, damped and undamped vibrations, resonance
Hydromechanics component:
• Substance properties of liquids and gases
• Hydrostatic pressure
• Buoyancy
• Equation of continuity
• Energy equation
• Pipe hydraulics
• Outflow from containers
• Principle of linear momentum
• Principle of angular momentum
• Laws of similarity
• Kinematics of the mass point; description of the movement of the mass point, velocity, acceleration, relative movement
• Kinetics of the mass point; Newtonian law, momentum theorem, spin theorem, energy conservation theorem
• Kinematics and kinetics of the rigid body: Kinematics of the general motion of a rigid body, mass moment of inertia, impulse theorem, twist theorem, energy conservation theorem, systems of rigid bodies
• Impact processes; straight central impact, eccentric impact
• Vibrations; classification of vibrations, free and forced vibrations, damped and undamped vibrations, resonance
Hydromechanics component:
• Substance properties of liquids and gases
• Hydrostatic pressure
• Buoyancy
• Equation of continuity
• Energy equation
• Pipe hydraulics
• Outflow from containers
• Principle of linear momentum
• Principle of angular momentum
• Laws of similarity
Recommended specialist literature
• Assmann (2010): Technische Mechanik Bd. 3 T: Kinematik und Kinetik, Oldenbourg Wissenschaftsverlag München
• Böswirth (2007): Technische Strömungslehre: Lehr- und Übungsbuch, 7. Aufl., Vieweg+Teubner Verlag Wiesbaden
• Bohl, Elmendorf (2008): Technische Strömungslehre, 14. Aufl., Vogel Business Media Würzburg
• Böge (2011): Technische Mechanik: Statik – Dynamik – Fluidmechanik – Festigkeitslehre, 29. Aufl., Vieweg+Teubner Verlag Wiesbaden
• Junge (2011): Einführung in die Technische Strömungslehre, Fachbuchverlage Leipzig Mayr (2012): Technische Mechanik: Statik – Kinematik – Kinetik – Schwingungen – Festigkeitslehre, 7. Aufl., Carl Hanser Verlag München
• Richard, Sander (2008): Technische Mechanik. Dynamik – effektive und anwendungsnah, Vieweg+Teubner Verlag Wiesbaden
• Böswirth (2007): Technische Strömungslehre: Lehr- und Übungsbuch, 7. Aufl., Vieweg+Teubner Verlag Wiesbaden
• Bohl, Elmendorf (2008): Technische Strömungslehre, 14. Aufl., Vogel Business Media Würzburg
• Böge (2011): Technische Mechanik: Statik – Dynamik – Fluidmechanik – Festigkeitslehre, 29. Aufl., Vieweg+Teubner Verlag Wiesbaden
• Junge (2011): Einführung in die Technische Strömungslehre, Fachbuchverlage Leipzig Mayr (2012): Technische Mechanik: Statik – Kinematik – Kinetik – Schwingungen – Festigkeitslehre, 7. Aufl., Carl Hanser Verlag München
• Richard, Sander (2008): Technische Mechanik. Dynamik – effektive und anwendungsnah, Vieweg+Teubner Verlag Wiesbaden
Assessment methods and criteria
Assignment, presentation and written exam
Language
German
Number of ECTS credits awarded
4
Share of e-learning in %
15
Semester hours per week
2.5
Planned teaching and learning method
Integrated course
Semester/trimester in which the course/module is offered
2
Name of lecturer
Michael Petke, BSc, MA
Academic year
First year of studies
Key figure of the course/module
vzING2
Type of course/module
integrated lecture
Type of course
Compulsory
Internship(s)
not applicable