After successful completion of the course, students are able to interpret
the functionals of the Earth gravity field (deflections of the vertical, geoid undulation, gravity anomaly),
to set up local and regionals gravity field studies and to understand the physical background of our height systems.
Reference Systems,Equilibrium Figures, Tides,
Geopotential Models,Recent Satellite 'Gravity Missions', Earth Reference Model
The learning contents to be discussed in the course are provided in the associated lecture notes.
In SS 2023 this lecture will be provided in presence.
The first lecture is therefore scheduled for March 8th, 9.15h in SEM DA grün, 02B
The lecture will be assessed by a final oral exam.
Major topics to be reviewed are the Physical Reference Figure of the Earth,
Theory of Bruns and Stokes, Tides, regional Graivity Field Modelling, Therory of Molodenskij (Basics) and
Modern Gravity Field satellite Missions.
Die LV wird soweit möglich wieder generell im Präsenzmodus angeboten.
Bitte melden Sie sich via TISS zu dieser LV bis zum 6.März an.
mfG
Robert Weber
Lecture notes for this course are available. Office Robert Weber, Freihaus; Price: 12.0
Recommended References:
H.Moritz.: The Figure of the Earth; Verlag Wichmann
W.A.Heiskanen,H.Moritz: Physical Geodesy, Reprint TU-Graz
G. Seeber : Satellite Geodesy; Walter de Gruyter Verlag
To join this lecture successfully basic knowledge
in mathamatics and physics (Bachelor level) as well as
attendance in ''Höhere Geodäsie'' are pre-requisite.
Content of lecture 'Introduction to Potential Fields' is also recommended.