Universität Wien

280609 VO MA PE 04 VO Tectonophysics (NPI) (2015W)

Details

max. 20 participants
Language: English

Examination dates

Lecturers

Classes (iCal) - next class is marked with N

Eventual changes in the course schedule are to discussed in the class.

  • Thursday 01.10. 09:30 - 11:00 Hörsaal 1 2A120 1.OG UZA II Geo-Zentrum
  • Thursday 08.10. 09:30 - 11:00 Hörsaal 1 2A120 1.OG UZA II Geo-Zentrum
  • Thursday 15.10. 09:30 - 11:00 Hörsaal 1 2A120 1.OG UZA II Geo-Zentrum
  • Thursday 22.10. 09:30 - 11:00 Hörsaal 1 2A120 1.OG UZA II Geo-Zentrum
  • Thursday 29.10. 09:30 - 11:00 Hörsaal 1 2A120 1.OG UZA II Geo-Zentrum
  • Thursday 05.11. 09:30 - 11:00 Hörsaal 1 2A120 1.OG UZA II Geo-Zentrum
  • Thursday 12.11. 09:30 - 11:00 Hörsaal 1 2A120 1.OG UZA II Geo-Zentrum
  • Thursday 19.11. 09:30 - 11:00 Hörsaal 1 2A120 1.OG UZA II Geo-Zentrum
  • Thursday 26.11. 09:30 - 11:00 Hörsaal 1 2A120 1.OG UZA II Geo-Zentrum
  • Thursday 03.12. 09:30 - 11:00 Hörsaal 1 2A120 1.OG UZA II Geo-Zentrum
  • Thursday 10.12. 09:30 - 11:00 Hörsaal 1 2A120 1.OG UZA II Geo-Zentrum
  • Thursday 17.12. 09:30 - 11:00 Hörsaal 1 2A120 1.OG UZA II Geo-Zentrum
  • Thursday 07.01. 09:30 - 11:00 Hörsaal 1 2A120 1.OG UZA II Geo-Zentrum
  • Thursday 14.01. 09:30 - 11:00 Hörsaal 1 2A120 1.OG UZA II Geo-Zentrum
  • Thursday 21.01. 09:30 - 11:00 Hörsaal 1 2A120 1.OG UZA II Geo-Zentrum
  • Thursday 28.01. 09:30 - 11:00 Hörsaal 1 2A120 1.OG UZA II Geo-Zentrum

Information

Aims, contents and method of the course

The students are expected to understand the concepts of stress and strain, both in an intuitive sense and in their mathematical (tensorial) descriptions. They understand the general aspects of rheology, as are important in the macroscopic description of materials in the Earth (cracks, modern concepts of friction, elasticity, viscous and plastic behavior).

Students are expected to also understand the need for formulating models in Earth sciences, especially those for describing (global) tectonic activity and the evolution of the Earth - as well as the need for critically evaluating them using (geophysical) observational data. They have gained the basic background knowledge of the most important examples of geodynamic models describing the behavior of the lithosphere.

The students understand the main aspects of fault systems, and the structure and behavior of individual faults.

Students will also learn to present scientific material.

The course consists mainly of lectures.

The content of the course is:
Recall of mechanical bases (stress and strain again, friction, rate-and-state-dependent friction, poroelasticity).

Global tectonics (brief history, plates, plate kinematics, triple points, plate-driving forces, geodynamical processes, structure of oceanic and continental lithosphere, types of plate boundaries), subduction zones, lithospheric dynamics, rheological stratification of the lithosphere, modern constraints from global geodesy).

Mechanics of fault systems (stick-slip, creep, indicators of current and ancient strain, state of stress, World stress map, earthquake geodesy, earthquake cycle, seismotectonics, deep earthquakes, stress-loading models, modeling of regional deformation, earthquake phenomenology, earthquake statistics, regional examples).

Fault behaviour (dislocation models, earthquake mechanics, geological deformation mechanisms, postseismic relaxation, time scales of fault deformation, dilatancy- and shattering effects of earthquakes, induced seismicity)

Assessment and permitted materials

Oral exam

Minimum requirements and assessment criteria

Examination topics

The basis for the exam will be the content of the course, covered in the class.

Reading list

Jaeger, J.C., Cook, N.G.W., Zimmerman, R.W., 2008. Fundamentals of rock mechanics, Blackwell
Scholz, C.H., 2008, The mechanics of earthquakes and faulting, Cambridge U. Press
Stein and Wysession, 2009, An introduction to seismology, earthquakes, and Earth structure, Blackwell

Association in the course directory

Last modified: Th 31.10.2024 00:16