Anna Alexandra Kubik: Catalogue data in Spring Semester 2019 |
Name | Dr. Anna Alexandra Kubik |
Address | Strömungsberech. u. Mehrskalenmod. ETH Zürich, ML H 58 Sonneggstrasse 3 8092 Zürich SWITZERLAND |
Telephone | +41 44 632 26 61 |
akubik@ethz.ch | |
Department | Chemistry and Applied Biosciences |
Relationship | Lecturer |
Number | Title | ECTS | Hours | Lecturers | |
---|---|---|---|---|---|
151-0102-AAL | Fluid Dynamics I Enrolment ONLY for MSc students with a decree declaring this course unit as an additional admission requirement. Any other students (e.g. incoming exchange students, doctoral students) CANNOT enrol for this course unit. | 6 credits | 13R | A. A. Kubik | |
Abstract | An introduction to the physical and mathematical foundations of fluid dynamics is given. Topics include dimensional analysis, integral and differential conservation laws, inviscid and viscous flows, Navier-Stokes equations, boundary layers, turbulent pipe flow. Elementary solutions and examples are presented. | ||||
Learning objective | An introduction to the physical and mathematical principles of fluid dynamics. Fundamental terminology/principles and their application to simple problems. | ||||
Content | Phänomene, Anwendungen, Grundfragen Dimensionsanalyse und Ähnlichkeit; Kinematische Beschreibung; Erhaltungssätze (Masse, Impuls, Energie), integrale und differentielle Formulierungen; Reibungsfreie Strömungen: Euler-Gleichungen, Stromfadentheorie, Satz von Bernoulli; Reibungsbehaftete Strömungen: Navier-Stokes-Gleichungen; Grenzschichten; Turbulenz | ||||
Lecture notes | Eine erweiterte Formelsammlung zur Vorlesung wird elektronisch zur Verfügung gestellt. | ||||
Literature | Empfohlenes Buch: Fluid Mechanics, P. Kundu & I. Cohen, Elsevier | ||||
Prerequisites / Notice | Performance Assessment: session examination Allowed aids: Textbook (free selection, list of assignments), list of formulars IFD, 8 Sheets (=4 Pages) own notes, calculator | ||||
151-0102-00L | Fluid Dynamics I | 6 credits | 4V + 2U | A. A. Kubik | |
Abstract | An introduction to the physical and mathematical foundations of fluid dynamics is given. Topics include dimensional analysis, integral and differential conservation laws, inviscid and viscous flows, Navier-Stokes equations, boundary layers, turbulent pipe flow. Elementary solutions and examples are presented. | ||||
Learning objective | An introduction to the physical and mathematical principles of fluid dynamics. Fundamental terminology/principles and their application to simple problems. | ||||
Content | Phenomena, applications, foundations dimensional analysis and similitude; kinematic description; conservation laws (mass, momentum, energy), integral and differential formulation; inviscid flows: Euler equations, stream filament theory, Bernoulli equation; viscous flows: Navier-Stokes equations; boundary layers; turbulence | ||||
Lecture notes | Lecture notes (extended formulary) for the course are made available electronically. | ||||
Literature | Recommended book: Fluid Mechanics, Kundu & Cohen & Dowling, 6th ed., Academic Press / Elsevier (2015). | ||||
Prerequisites / Notice | Voraussetzungen: Physik, Analysis | ||||
151-0106-00L | Orbital Dynamics | 4 credits | 3G | A. A. Kubik | |
Abstract | Principles of the motion of natural and artificial satellites, rocket dynamics, orbital maneuvers and interplanetary missions. | ||||
Learning objective | Knowledge of the basic theory of satellite dynamics. Ability to apply the acquired theory to simple examples. | ||||
Content | The two-body problem, rocket dynamics, orbital maneuvers, interplanetary missions, the restricted three-body problem, perturbation equations, satellite attitude dynamics. |