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
E-mailakubik@ethz.ch
DepartmentChemistry and Applied Biosciences
RelationshipLecturer

NumberTitleECTSHoursLecturers
151-0102-AALFluid 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 credits13RA. A. Kubik
AbstractAn 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.
ObjectiveAn introduction to the physical and mathematical principles of fluid dynamics. Fundamental terminology/principles and their application to simple problems.
ContentPhänomene, 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 notesEine erweiterte Formelsammlung zur Vorlesung wird elektronisch zur Verfügung gestellt.
LiteratureEmpfohlenes Buch: Fluid Mechanics, P. Kundu & I. Cohen, Elsevier
Prerequisites / NoticePerformance Assessment: session examination
Allowed aids:
Textbook (free selection, list of assignments), list of formulars IFD, 8 Sheets (=4 Pages) own notes, calculator
151-0102-00LFluid Dynamics I6 credits4V + 2UA. A. Kubik
AbstractAn 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.
ObjectiveAn introduction to the physical and mathematical principles of fluid dynamics. Fundamental terminology/principles and their application to simple problems.
ContentPhenomena, 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 notesLecture notes (extended formulary) for the course are made available electronically.
LiteratureRecommended book: Fluid Mechanics, Kundu & Cohen & Dowling, 6th ed., Academic Press / Elsevier (2015).
Prerequisites / NoticeVoraussetzungen: Physik, Analysis
151-0106-00LOrbital Dynamics4 credits3GA. A. Kubik
AbstractPrinciples of the motion of natural and artificial satellites, rocket dynamics, orbital maneuvers and interplanetary missions.
ObjectiveKnowledge of the basic theory of satellite dynamics. Ability to apply the acquired theory to simple examples.
ContentThe two-body problem, rocket dynamics, orbital maneuvers, interplanetary missions, the restricted three-body problem, perturbation equations, satellite attitude dynamics.