Continuum theories in solid earth physics
Author(s)
Bibliographic Information
Continuum theories in solid earth physics
(Physics and evolution of the earth's interior, 3)
Elsevier , PWN-Polish Scientific Publichers, 1986
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Note
Includes bibliographies and index
Description and Table of Contents
Description
The material contained in this volume is united by common methods and ideas: the Earth's interior is treated as a continuum within the scope of classical physics. Such an approach is considered to be basically sufficient for the majority of the fundamental problems of the physics of the Earth's interior. Using modern methods of continuum mechanics and experimental data, it is possible to construct models of and theories about the dynamic processes taking place in the Earth's interior. The theories and models presented in this volume are supplemented by numerous applications to seismology (in particular earthquake physics), thermal convection of the Earth's interior, magnetic-field generation and a series of other geophysical problems. The theories and models concerning continuous media reviewed here are important for a sound understanding of the physical processes and dynamics of the Earth's interior. The authors have used the latest original results and present the elements of the theories in a concise, monographic form, referring to the abundant literature on the subject.
Table of Contents
1. Elements of the Mechanics of Continuous Media (A.M. Grundland, J. Niewiadomski). 2. Dislocations and Their Geophysical Application (K. Rybicki). 3. Fracture Theory and Its Seismological Applications (R. Dmowska, J.R. Rice). 4. Some Problems of Mechanics of the Continuum Media and the Applications to Earthquake Studies (R. Teisseyre). 5. Porous Media (K. Zakowicz). 6. Thermal Stress (R. Teisseyre). 7. Thermal Convection (L. Czechowski). 8. Electromechanical and Magnetomechanical Coupling (W. Bielski, R. Dmowska, R. Teisseyre). 9. Hypotheses of the Origin of the Magnetic Field: Hydromagnetic Dynamo (A.M. Grundland). Subject Index.
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