Maxim Dionys Ballmer: Katalogdaten im Frühjahrssemester 2017

NameHerr Dr. Maxim Dionys Ballmer
E-Mailmaxim.ballmer@erdw.ethz.ch
URLhttp://jupiter.ethz.ch/~ballmerm/index.html
DepartementErdwissenschaften
BeziehungDozent

NummerTitelECTSUmfangDozierende
651-1617-00LGeophysical Fluid Dynamics and Numerical Modelling Seminar Information 0 KP2SP. Tackley, M. D. Ballmer, T. Gerya
Kurzbeschreibung
Lernziel
651-3440-01LGravimetry
Der Kurs wird letztmals im FS17 angeboten.
3 KP2GM. D. Ballmer
KurzbeschreibungTreatment of fundamental aspects of geophysics in the area of gravimetry: methods and applications.
LernzielTreatment of fundamental aspects of geophysics in the area of gravimetry: methods and applications.
InhaltGravimetry: gravitation, Earth rotation, centrifugal force. Gravity, geoid, reference ellipsoid, normal gravity. Reduction of gravity measurements, gravity anomalies. Isostasy: models of Pratt, Airy, Vening Meinesz. Interpretation of gravity anomalies and relationship to dynamic and static features.
SkriptLecture slides will be distributed.
LiteraturW. Lowrie: Fundamentals of Geophysics, 2007.
C. M. R. Fowler: The Solid Earth - An Introduction to Global Geophysics, 2004.
Voraussetzungen / BesonderesPrerequisite: The Dynamic Earth I or an equivalent course.
651-4228-00LTopics in Planetary Sciences Information 3 KP2GM. Schönbächler, M. D. Ballmer, H. Busemann, P. Tackley
KurzbeschreibungThe course will be based on reading of research papers. Themes can vary from year to year and will cover planetary geophysics, geochemistry and the dynamical evolution of planetary bodies. The format of the course will be centered on short lectures introducing a theme, followed by a presentation of one or more papers by a student or group of students and an open discussion of the topic.
LernzielThe goal of the course is discuss topics in planetary sciences, which were not covered in the general planetary science courses. The course also aims at training the student's ability to critically evaluate research papers, to summarize the findings concisely in an oral presentation, and to discuss these in the group.
InhaltThemes will vary from year to year and suggestions from students are welcome.

Possible topics include:
- Formation of the terrestrial planets
- Evolution of terrestrial bodies (Mercury, Venus, Moon, Mars, Vesta) and icy moons (Ganymede, Callisto, Enceladus)
- Active asteroids/main-belt comets
- Geophysical and geochemical exploration of planetary bodies (e.g., remote sensing, meteorite studies, seismology, electromagnetic sounding, gravity, and geodetic).
Voraussetzungen / BesonderesThe students are expected to have passed either course 651-4010-00L Planetary Physics and Chemistry or course 651-4227-00L Planetary Geochemistry.