This note explains the following
topics: Gravity: Theory, measurement, Corrections, analysis, Analysis and
examples, Gravity homework, Magnetic methods: Concepts and rock properties,
Instruments and surveying, Interpretation and applications, Magnetics,
Resistivity, Gravity and magnetics, Seismics: Waves and rays, Reflection and
Refraction, Induced Polarization, Electromagnetics, Resistivity and seismic
methods, Electromagnetics.
This note describes the following topics: Fundamental
considerations, Seismic refraction method, Seismic reflection method, Earthquake
seismology, Electrical method, Gravity method and magnetic method.
Author(s): Abdullah M. Al-Amri,King Saud University, Riyadh
This note
describes the following topics: Introduction to gravity, Basic theory, The
global gravity field, Measurement of gravity on land, Measurement of gravity on
moving platforms, The gravity survey, Gravity anomalies, Rock densities, Removal
of the regional, Pre-processing, displaying and enhancing gravity data,
Applications of gravity surveying.
Author(s): Prof. G. R. Foulger and Prof. C. Peirce
geophysics is the
application of method of physics to the study of the Earth. This book explains
the following topics in Geophysics: Gravimetry, Newton’s Law of Gravitation,
Gravity effect of selected bodies, Magnetometry, Magnetism of rocks and
minerals, Magnetic measurements for an archaeological prospection, Geoelectrical
methods, Resistivities of rocks and minerals.
This note contains the
following subtopics such as Fracture and friction, Earthquake models and
statistics I: Burridge-Knopoff and Continuum models, Earthquake models and
statistics II: SOC and other models.
Author(s): Hikaru Kawamura, Hikaru
Kawamura, Soumyajyoti Biswas and Bikas K. Chakrabarti