| Fractal Behaviour of the Earth System 2005 Edition Contributor(s): Dimri, V. P. (Editor) |
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ISBN: 3540265325 ISBN-13: 9783540265320 Publisher: Springer OUR PRICE: $104.49 Product Type: Hardcover - Other Formats Published: October 2005 Annotation: The book fills a gap in the steadily expanding field of applying fractals to the earth science system. In this book the concept of fractal-scaling is applied to a variety of geophysical problems, illustrating what scaling laws really tell us and how they can used to solve various geophysical problems. Keeping in mind the broad range of readers interested in understanding earths nonlinear dynamics, the authors address diverse recent advances related to fractals and scaling. These include broad applications of fractal theory in potential field methods, electrical and electromagnetic methods, geothermics and seismology, written by a panel of internationally known earth scientists from around the globe. |
| Additional Information |
| BISAC Categories: - Science | Physics - Geophysics - Science | Earth Sciences - Geology - Science | Physics - Mathematical & Computational |
| Dewey: 550.151 |
| Physical Information: 0.57" H x 6.48" W x 9.42" (1.17 lbs) 208 pages |
| Descriptions, Reviews, Etc. |
| Publisher Description: It is with pleasure that I write the foreword to this excellent book. A wide range of observations in geology and solid-earth geophysics can be - plained in terms of fractal distributions. In this volume a collection of - pers considers the fractal behavior of the Earth's continental crust. The book begins with an excellent introductory chapter by the editor Dr. V.P. Dimri. Surface gravity anomalies are known to exhibit power-law spectral behavior under a wide range of conditions and scales. This is self-affine fractal behavior. Explanations of this behavior remain controversial. In chapter 2 V.P. Dimri and R.P. Srivastava model this behavior using Voronoi tessellations. Another approach to understanding the structure of the continental crust is to use electromagnetic induction experiments. Again the results often exhibit power law spectral behavior. In chapter 3 K. Bahr uses a fractal based random resister network model to explain the observations. Other examples of power-law spectral observations come from a wide range of well logs using various logging tools. In chapter 4 M. Fedi, D. Fiore, and M. La Manna utilize multifractal models to explain the behavior of well logs from the main KTB borehole in Germany. In chapter 5 V.V. Surkov and H. Tanaka model the electrokinetic currents that may be as- ciated with seismic electric signals using a fractal porous media. In chapter 6 M. Pervukhina, Y. Kuwahara, and H. Ito use fractal n- works to correlate the elastic and electrical properties of porous media. |
