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Ajouter le résultat dans votre panier Faire une suggestion Affiner la rechercheGeophysical field theory and method, A. Gravitational, electric, and magnetic Fields / Kaufman, Alexander Arkadevich, (1931-....) ; Renata Dmowska ; James S. Holton
Titre de série : Geophysical field theory and method, A Titre : Gravitational, electric, and magnetic Fields Type de document : texte imprimé Auteurs : Kaufman, Alexander Arkadevich, (1931-....), Auteur ; Renata Dmowska, Auteur ; James S. Holton, Auteur Editeur : Burlington - Massachusetts [États-Unis] : Elsevier Science Année de publication : 2014 Collection : International geophysics Importance : 599 p. ISBN/ISSN/EAN : 978-0-12-415744-6 Langues : Anglais (eng) Catégories : Champs électriques ; Champs gravitationnels ; Champs magnétiques ; Champs, Théorie des (physique) ; Prospection géophysique Index. décimale : 550.153014 Résumé : An essential book for all students and scientists in the field, Part A of Geophysical Field Theory and Method describes the physical and mathematical principles of geophysical methods, specifically the behavior of gravitational, electrical, and magnetic fields. The broader use of these methods underlines the far-reaching appeal of this book. Oil and mineral prospecting, solving groundwater and engineering problems, and well-logging are just some of the activities which involve geophysical methods. Parts B and C will be devoted to the theory of fields and applied to electromagnetic, seismic, nuclear, and geothermal methods. Presents physical principles of geophysical methods. Covers physical laws which govern field behavior and their areas of application. Examines the influence of a medium on a field, and the distribution of field generators. Presents formulation of conditions when physical laws cannot be used directly for field calculations. Examines systems of field equations and their necessity when some of the field generators are unknown. Explains the formulation of boundary value problems and their importance in determining the field Features auxiliary fields and their role in field theory. Presents approximate methods of field calculation
Note de contenu : pt. A. Gravitational, electric, and magnetic fields -- pt. B. Electromagnetic fields I -- pt. C. Electromagnetic fields II
Preface -- Acknowledgments -- List of Symbols -- Chapter I. Fields and Their Generators: I.1 Scalars and Vectors, Systems of Coordinates; I.2 The Solid Angle; I.3 Fields; I.4 Scalar Field and Gradient; I.5 Geometric Model of a Field; I.6 Flux, Divergence, Gauss' Theorem; I.7 Voltage, Circulation, Curl, Stokes' Theorem; I.8 Two Types of Fields and Their Generators: Field Equations; I.9 Harmonic Fields; I.10 Source Fields; I.11 Vortex Fields; References. -- Chapter II. The Gravitational FieldII. 1 Newton's Law of Attraction and the Gravitational Field; II.2 Determination of the Gravitational Field; II.3 System of Equations of the Gravitational Field and Upward Continuation; References -- Chapter III. Electric Fields: III.1 Coulomb's Law; III.2 System of Equations for the Time-Invariant Electric Field and Potential; III.3 The Electric Field in the Presence of Dielectrics; III.4 Electric Current, Conductivity, and Ohm's Law; III.5 Electric Charges in a Conducting Medium; III.6 Resistance; III.7 The Extraneous Field and Its Electromotive Force. III.8 The Work of Coulomb and Extraneous Forces, Joule's Law; III.9 Determination of the Electric Field in a Conducting Medium; III.10 Behavior of the Electric Field in a Conducting Medium; References -- Chapter IV. Magnetic Fields: IV.1 Interaction of Currents, Biot-Savart's Law, the Magnetic Field; IV.2 The Vector Potential of the Magnetic Field; IV.3 The System of Equations of the Magnetic Field B Caused by Conduction Currents; IV.4 Determination of the Magnetic Field B Caused by Conduction Currents; IV.5 Behavior of the Magnetic Field Caused by Conduction Currents. IV.6 Magnetization and Molecular Currents: The Field H and Its Relation to the Magnetic Field B; IV.7 Systems of Equations for the Magnetic Field B and the Field H; IV.8 Behavior of the Magnetic Field Caused by Currents in the Earth -- References -- IndexGeophysical field theory and method, A. Gravitational, electric, and magnetic Fields [texte imprimé] / Kaufman, Alexander Arkadevich, (1931-....), Auteur ; Renata Dmowska, Auteur ; James S. Holton, Auteur . - Burlington - Massachusetts (États-Unis) : Elsevier Science, 2014 . - 599 p.. - (International geophysics) .
ISBN : 978-0-12-415744-6
Langues : Anglais (eng)
Catégories : Champs électriques ; Champs gravitationnels ; Champs magnétiques ; Champs, Théorie des (physique) ; Prospection géophysique Index. décimale : 550.153014 Résumé : An essential book for all students and scientists in the field, Part A of Geophysical Field Theory and Method describes the physical and mathematical principles of geophysical methods, specifically the behavior of gravitational, electrical, and magnetic fields. The broader use of these methods underlines the far-reaching appeal of this book. Oil and mineral prospecting, solving groundwater and engineering problems, and well-logging are just some of the activities which involve geophysical methods. Parts B and C will be devoted to the theory of fields and applied to electromagnetic, seismic, nuclear, and geothermal methods. Presents physical principles of geophysical methods. Covers physical laws which govern field behavior and their areas of application. Examines the influence of a medium on a field, and the distribution of field generators. Presents formulation of conditions when physical laws cannot be used directly for field calculations. Examines systems of field equations and their necessity when some of the field generators are unknown. Explains the formulation of boundary value problems and their importance in determining the field Features auxiliary fields and their role in field theory. Presents approximate methods of field calculation
Note de contenu : pt. A. Gravitational, electric, and magnetic fields -- pt. B. Electromagnetic fields I -- pt. C. Electromagnetic fields II
Preface -- Acknowledgments -- List of Symbols -- Chapter I. Fields and Their Generators: I.1 Scalars and Vectors, Systems of Coordinates; I.2 The Solid Angle; I.3 Fields; I.4 Scalar Field and Gradient; I.5 Geometric Model of a Field; I.6 Flux, Divergence, Gauss' Theorem; I.7 Voltage, Circulation, Curl, Stokes' Theorem; I.8 Two Types of Fields and Their Generators: Field Equations; I.9 Harmonic Fields; I.10 Source Fields; I.11 Vortex Fields; References. -- Chapter II. The Gravitational FieldII. 1 Newton's Law of Attraction and the Gravitational Field; II.2 Determination of the Gravitational Field; II.3 System of Equations of the Gravitational Field and Upward Continuation; References -- Chapter III. Electric Fields: III.1 Coulomb's Law; III.2 System of Equations for the Time-Invariant Electric Field and Potential; III.3 The Electric Field in the Presence of Dielectrics; III.4 Electric Current, Conductivity, and Ohm's Law; III.5 Electric Charges in a Conducting Medium; III.6 Resistance; III.7 The Extraneous Field and Its Electromotive Force. III.8 The Work of Coulomb and Extraneous Forces, Joule's Law; III.9 Determination of the Electric Field in a Conducting Medium; III.10 Behavior of the Electric Field in a Conducting Medium; References -- Chapter IV. Magnetic Fields: IV.1 Interaction of Currents, Biot-Savart's Law, the Magnetic Field; IV.2 The Vector Potential of the Magnetic Field; IV.3 The System of Equations of the Magnetic Field B Caused by Conduction Currents; IV.4 Determination of the Magnetic Field B Caused by Conduction Currents; IV.5 Behavior of the Magnetic Field Caused by Conduction Currents. IV.6 Magnetization and Molecular Currents: The Field H and Its Relation to the Magnetic Field B; IV.7 Systems of Equations for the Magnetic Field B and the Field H; IV.8 Behavior of the Magnetic Field Caused by Currents in the Earth -- References -- IndexRéservation
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Titre : Principles of electromagnetic methods in surface geophysics Type de document : texte imprimé Auteurs : Kaufman, Alexander Arkadevich, (1931-....), Auteur ; Alekseev, D., Auteur ; Oristaglio, Michael, Auteur Editeur : Amsterdam [Pays-Bas] : Elsevier Année de publication : c2014 Collection : Methods in geochemistry and geophysics num. 45 Importance : 1 vol. (xxi-769 p.) Présentation : ill. Format : 24 cm ISBN/ISSN/EAN : 978-0-444-63814-4 Note générale : Bibliogr. en fin de chapitres. Index Langues : Anglais (eng) Catégories : Geophysique -- Méthodologie ; Ondes électromagnétiques ; Phénomènes électromagnétiques Index. décimale : 551.072 Résumé : Part one: The constant electric and magnetic fields Part two: Propagation and diffusion of electromagnetic fields Part three: Quasi-stationary field in a horizontally layered medium Part four: Electromagnetic soundings in a horizontally layered medium Part five: Principles of inductive mining prospecting Principles of electromagnetic methods in surface geophysics [texte imprimé] / Kaufman, Alexander Arkadevich, (1931-....), Auteur ; Alekseev, D., Auteur ; Oristaglio, Michael, Auteur . - Amsterdam (Pays-Bas) : Elsevier, c2014 . - 1 vol. (xxi-769 p.) : ill. ; 24 cm. - (Methods in geochemistry and geophysics; 45) .
ISBN : 978-0-444-63814-4
Bibliogr. en fin de chapitres. Index
Langues : Anglais (eng)
Catégories : Geophysique -- Méthodologie ; Ondes électromagnétiques ; Phénomènes électromagnétiques Index. décimale : 551.072 Résumé : Part one: The constant electric and magnetic fields Part two: Propagation and diffusion of electromagnetic fields Part three: Quasi-stationary field in a horizontally layered medium Part four: Electromagnetic soundings in a horizontally layered medium Part five: Principles of inductive mining prospecting Exemplaires
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Titre : Principles of the gravitational method Type de document : texte imprimé Auteurs : Kaufman, Alexander Arkadevich, (1931-....), Auteur ; Richard O. Hansen, Auteur Editeur : Amsterdam [Pays-Bas] : Elsevier Année de publication : c2014 Collection : Methods in geochemistry and geophysics num. 41 Importance : xii, 245 p. Présentation : ill. Format : 25 cm ISBN/ISSN/EAN : 978-0-444-55951-7 Note générale : Réf. bibliogr. Index Langues : Anglais (eng) Catégories : Champs, Théorie des (physique) ; Force centrifuge ; Gravimètres (Instruments géophysiques) ; Gravité -- Mesure Index. décimale : 531.14 Résumé : This self-contained monograph gives a thorough introduction to the theory of gravity which is used as the basis for developing applications in exploration and geodesy. In addition, a survey of gravity instrumentation is given, with emphasis on the theory of underlying these instruments. The book finishes with an exposition of forward modeling and inverston, again emphasizing fundamental principles. *Surveys gravity instrumentation with emphasis on the theory of why certain instrumentation is used. *Presents thorough developments of the theory of gravity to aid in creating applications Note de contenu : Chapter 1. Principles of Theory of Attraction: 1.1. Newton's Law of Attraction -- 1.2. The Field of Attraction and Solution of the Forward Problem -- 1.3. Different Types of Masses and their Densities -- 1.4. Two Fundamental Features of the Attraction Field -- 1.5. System of Equations of the Field of Attraction -- 1.6. Laplace's and Poisson's Equations -- 1.7. The Potential and its Relation to Masses -- 1.8. Fundamental Solution of Poisson's and Laplace's Equations -- 1.9. Theorem of Uniqueness and Solution of the Forward Problem -- 1.10. Green's Formula and the Relationship Between Potential and Boundary Conditions -- 1.11. Analytical Upward Continuation of the Field -- 1.12. Poisson's Integral -- 1.13. Behavior of the Attraction Field; 1.14. Legendre's Functions and a Solution of Laplace's Equation -- Chapter 2. Gravitational Field of the Earth: 2.1. Forces Acting on an Elementary Volume of the Rotating Earth and the Gravitational Field -- 2.2. Gravitational Field of the Earth; --2.3. Potential of the Gravitational Field of the Earth -- 2.4. Potential and the Gravitational Field due to an Ellipsoid of Rotation -- 2.5. Clairaut's Theorem -- 2.6. Potential of the Gravitational Field in Terms of Spherical Harmonics -- 2.7. Geoid and Leveling -- 2.8. Stokes's Formula -- 2.9. Molodensky's Boundary Problem -- 2.10. Attraction Field of the Spheroid -- 2.11. Spheroid and Equilibrium of a Rotating Fluid -- 2.12. Development of the Theory of the Figure of the Earth (Brief Historic Review) -- Chapter 3. Principles of Measurements of the Gravitational Field: 3.1. History of Measurement of the Gravitational Field -- 3.2. Principles of Ballistic Gravimeter; 3.3. Pendulum Devices -- 3.4. Influence of Coriolis Force on Particle Motion -- 3.5. Vertical Spring-Mass System -- 3.6. Spring with an Initial Compression and Hooke's Law -- 3.7. Torsion Spring-Mass System -- 3.8. Lever Spring-Mass System -- 3.9. Measurement of Second Derivatives of the Potential of Gravitational Field -- Chapter 4. Uniqueness and the Solution of the Inverse Problem in Gravity: 4.1. Concept of Uniqueness and the Solution of the Inverse Problem -- 4.2. Solution of the Inverse Problem and the Influence of Noise -- 4.3. Solution of the Forward Problem (A Calculation of the Field of Attraction) -- Bibliography -- Appendix -- Subject Index Principles of the gravitational method [texte imprimé] / Kaufman, Alexander Arkadevich, (1931-....), Auteur ; Richard O. Hansen, Auteur . - Amsterdam (Pays-Bas) : Elsevier, c2014 . - xii, 245 p. : ill. ; 25 cm. - (Methods in geochemistry and geophysics; 41) .
ISBN : 978-0-444-55951-7
Réf. bibliogr. Index
Langues : Anglais (eng)
Catégories : Champs, Théorie des (physique) ; Force centrifuge ; Gravimètres (Instruments géophysiques) ; Gravité -- Mesure Index. décimale : 531.14 Résumé : This self-contained monograph gives a thorough introduction to the theory of gravity which is used as the basis for developing applications in exploration and geodesy. In addition, a survey of gravity instrumentation is given, with emphasis on the theory of underlying these instruments. The book finishes with an exposition of forward modeling and inverston, again emphasizing fundamental principles. *Surveys gravity instrumentation with emphasis on the theory of why certain instrumentation is used. *Presents thorough developments of the theory of gravity to aid in creating applications Note de contenu : Chapter 1. Principles of Theory of Attraction: 1.1. Newton's Law of Attraction -- 1.2. The Field of Attraction and Solution of the Forward Problem -- 1.3. Different Types of Masses and their Densities -- 1.4. Two Fundamental Features of the Attraction Field -- 1.5. System of Equations of the Field of Attraction -- 1.6. Laplace's and Poisson's Equations -- 1.7. The Potential and its Relation to Masses -- 1.8. Fundamental Solution of Poisson's and Laplace's Equations -- 1.9. Theorem of Uniqueness and Solution of the Forward Problem -- 1.10. Green's Formula and the Relationship Between Potential and Boundary Conditions -- 1.11. Analytical Upward Continuation of the Field -- 1.12. Poisson's Integral -- 1.13. Behavior of the Attraction Field; 1.14. Legendre's Functions and a Solution of Laplace's Equation -- Chapter 2. Gravitational Field of the Earth: 2.1. Forces Acting on an Elementary Volume of the Rotating Earth and the Gravitational Field -- 2.2. Gravitational Field of the Earth; --2.3. Potential of the Gravitational Field of the Earth -- 2.4. Potential and the Gravitational Field due to an Ellipsoid of Rotation -- 2.5. Clairaut's Theorem -- 2.6. Potential of the Gravitational Field in Terms of Spherical Harmonics -- 2.7. Geoid and Leveling -- 2.8. Stokes's Formula -- 2.9. Molodensky's Boundary Problem -- 2.10. Attraction Field of the Spheroid -- 2.11. Spheroid and Equilibrium of a Rotating Fluid -- 2.12. Development of the Theory of the Figure of the Earth (Brief Historic Review) -- Chapter 3. Principles of Measurements of the Gravitational Field: 3.1. History of Measurement of the Gravitational Field -- 3.2. Principles of Ballistic Gravimeter; 3.3. Pendulum Devices -- 3.4. Influence of Coriolis Force on Particle Motion -- 3.5. Vertical Spring-Mass System -- 3.6. Spring with an Initial Compression and Hooke's Law -- 3.7. Torsion Spring-Mass System -- 3.8. Lever Spring-Mass System -- 3.9. Measurement of Second Derivatives of the Potential of Gravitational Field -- Chapter 4. Uniqueness and the Solution of the Inverse Problem in Gravity: 4.1. Concept of Uniqueness and the Solution of the Inverse Problem -- 4.2. Solution of the Inverse Problem and the Influence of Noise -- 4.3. Solution of the Forward Problem (A Calculation of the Field of Attraction) -- Bibliography -- Appendix -- Subject Index Réservation
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Code-barres Cote Support Localisation Section Disponibilité 36391 531.14 KAUF P Livre Sciences Libre Accès Disponible
