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Geodynamics : progress and prospects /
Published 1976Subjects: “…Geodynamics.…”
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Advanced geodynamics : fourier transform method /
Published 2022Subjects: “…Geodynamics.…”
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6
Journal of geodynamics.
Published 1984Subjects: “…Geodynamics Periodicals.…”
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Geodynamic models : an evaluation and a synthesis /
Published 1972Subjects: “…Geodynamics.…”
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Magmatism and geodynamics : terrestrial magmatism throughout the Earth's history /
Published 2000Table of Contents: “…Sharkov -- Early Proterozoic magmatism and geodynamics : evidence of a fundamental change in the Earth's evolution / E.V. …”
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Archean geodynamics and environments /
Published 2006Table of Contents: “…Introduction: Archean Geodynamics and Environments /…”
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12
Alpine-Mediterranean geodynamics /
Published 1982Subjects: “…Geodynamics Europe, Southern.…”
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Computational methods for geodynamics /
Published 2010Table of Contents: “…Cover -- Half-title -- Title -- Copyright -- Contents -- Foreword -- Preface -- Acknowledgements -- 1 Basic concepts of computational geodynamics -- 1.1 Introduction to scienti.c computing and computational geodynamics -- 1.2 Mathematical models of geodynamic problems -- 1.3 Governing equations -- 1.3.1 The equation of continuity -- 1.3.2 The equation of motion -- 1.3.3 The heat equation -- 1.3.4 The rheological law -- 1.3.5 Other equations -- 1.3.6 Boussinesq approximation -- 1.3.7 Stream function formulation -- 1.3.8 Poloidal and toroidal decomposition -- 1.4 Boundary and initial conditions -- 1.5 Analytical and numerical solutions -- 1.6 Rationale of numerical modelling -- 1.7 Numerical methods: possibilities and limitations -- 1.8 Components of numerical modelling -- 1.9 Properties of numerical methods -- 1.10 Concluding remarks -- 2 Finite difference method -- 2.1 Introduction: basic concepts -- 2.2 Convergence, accuracy and stability -- 2.3 Finite difference sweep method -- 2.4 Principle of the maximum -- 2.5 Application of a .nite difference method to a two-dimensional heat equation -- 2.5.1 Statement of the problem -- 2.5.2 Finite difference discretisation -- 2.5.3 Monotonic 8220;nite difference scheme -- 2.5.4 Solution method -- 2.5.5 Veri8220;cation of the 8220;nite difference scheme -- 3 Finite volume method -- 3.1 Introduction -- 3.2 Grids and control volumes: structured and unstructured grids -- 3.3 Comparison to .nite difference and .nite element methods -- 3.4 Treatment of advection8211;diffusion problems -- 3.4.1 Diffusion -- 3.4.2 Advection -- 3.5 Treatment of momentum8211;continuity equations -- 3.5.1 Discretisation -- 3.5.2 Solution methods -- 3.5.3 Multigrid -- 3.6 Modelling convection and model extensions -- 3.6.1 Overall solution strategy -- 3.6.2 Extension to compressible equations -- 3.6.3 Extension to spherical geometry -- 4 Finite element method -- 4.1 Introduction -- 4.2 Lagrangian versus Eulerian description of motion -- 4.3 Mathematical preliminaries -- 4.4 Weighted residual methods: variational problem -- 4.5 Simple FE problem -- 4.6 The Petrov8211;Galerkin method for advection-dominated problems -- 4.7 Penalty-function formulation of Stokes .ow -- 4.8 FE discretisation -- 4.9 High-order interpolation functions: cubic splines -- 4.10 Twoand three-dimensional FE problems -- 4.10.1 Two-dimensional problem of gravitational advection -- 4.10.2 Three-dimensional problem of gravitational advection -- 4.11 FE solution re.nements -- 4.12 Concluding remarks -- Step 1. …”
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16
Computational methods for geodynamics /
Published 2010Table of Contents: “…Basic concepts of computational geodynamics; 2. Finite difference methods; 3. Finite volume method; 4. …”
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Electronic eBook -
17
Computational methods for geodynamics /
Published 2010Table of Contents: “…Cover -- Half-title -- Title -- Copyright -- Contents -- Foreword -- Preface -- Acknowledgements -- 1 Basic concepts of computational geodynamics -- 1.1 Introduction to scienti.c computing and computational geodynamics -- 1.2 Mathematical models of geodynamic problems -- 1.3 Governing equations -- 1.3.1 The equation of continuity -- 1.3.2 The equation of motion -- 1.3.3 The heat equation -- 1.3.4 The rheological law -- 1.3.5 Other equations -- 1.3.6 Boussinesq approximation -- 1.3.7 Stream function formulation -- 1.3.8 Poloidal and toroidal decomposition -- 1.4 Boundary and initial conditions -- 1.5 Analytical and numerical solutions -- 1.6 Rationale of numerical modelling -- 1.7 Numerical methods: possibilities and limitations -- 1.8 Components of numerical modelling -- 1.9 Properties of numerical methods -- 1.10 Concluding remarks -- 2 Finite difference method -- 2.1 Introduction: basic concepts -- 2.2 Convergence, accuracy and stability -- 2.3 Finite difference sweep method -- 2.4 Principle of the maximum -- 2.5 Application of a .nite difference method to a two-dimensional heat equation -- 2.5.1 Statement of the problem -- 2.5.2 Finite difference discretisation -- 2.5.3 Monotonic 8220;nite difference scheme -- 2.5.4 Solution method -- 2.5.5 Veri8220;cation of the 8220;nite difference scheme -- 3 Finite volume method -- 3.1 Introduction -- 3.2 Grids and control volumes: structured and unstructured grids -- 3.3 Comparison to .nite difference and .nite element methods -- 3.4 Treatment of advection8211;diffusion problems -- 3.4.1 Diffusion -- 3.4.2 Advection -- 3.5 Treatment of momentum8211;continuity equations -- 3.5.1 Discretisation -- 3.5.2 Solution methods -- 3.5.3 Multigrid -- 3.6 Modelling convection and model extensions -- 3.6.1 Overall solution strategy -- 3.6.2 Extension to compressible equations -- 3.6.3 Extension to spherical geometry -- 4 Finite element method -- 4.1 Introduction -- 4.2 Lagrangian versus Eulerian description of motion -- 4.3 Mathematical preliminaries -- 4.4 Weighted residual methods: variational problem -- 4.5 Simple FE problem -- 4.6 The Petrov8211;Galerkin method for advection-dominated problems -- 4.7 Penalty-function formulation of Stokes .ow -- 4.8 FE discretisation -- 4.9 High-order interpolation functions: cubic splines -- 4.10 Twoand three-dimensional FE problems -- 4.10.1 Two-dimensional problem of gravitational advection -- 4.10.2 Three-dimensional problem of gravitational advection -- 4.11 FE solution re.nements -- 4.12 Concluding remarks -- Step 1. …”
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Geophysical continua : deformation in the Earth's interior /
Published 2008Subjects: “…Geodynamics.…”
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Geophysical continua : deformation in the Earth's interior /
Published 2008Subjects: “…Geodynamics.…”
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Electronic eBook