Geophysical continua: deformation in the earth's interior
Gespeichert in:
| Hauptverfasser: | , |
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| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
Cambridge
Cambridge University Press
[2008]
|
| Ausgabe: | 1. publ. |
| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | First paperback edition 2018 |
| Beschreibung: | XII, 432 Seiten Illustrationen, Diagramme |
| ISBN: | 9780521865531 9781108462730 |
Internformat
MARC
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| 100 | 1 | |a Kennett, B. L. N. |d 1948- |e Verfasser |0 (DE-588)124847226 |4 aut | |
| 245 | 1 | 0 | |a Geophysical continua |b deformation in the earth's interior |c B. L. N. Kennett ; H.-P. Bunge |
| 250 | |a 1. publ. | ||
| 264 | 1 | |a Cambridge |b Cambridge University Press |c [2008] | |
| 264 | 4 | |c © 2008 | |
| 300 | |a XII, 432 Seiten |b Illustrationen, Diagramme | ||
| 336 | |b txt |2 rdacontent | ||
| 337 | |b n |2 rdamedia | ||
| 338 | |b nc |2 rdacarrier | ||
| 500 | |a First paperback edition 2018 | ||
| 650 | 4 | |a Déformations (Mécanique) | |
| 650 | 4 | |a Géodynamique | |
| 650 | 4 | |a Géophysique | |
| 650 | 4 | |a Mécanique des milieux continus | |
| 650 | 4 | |a Terre - Structure interne | |
| 650 | 4 | |a Mathematisches Modell | |
| 650 | 4 | |a Geodynamics | |
| 650 | 4 | |a Geodynamics |x Mathematical models | |
| 650 | 0 | 7 | |a Deformation |g Geologie |0 (DE-588)4409345-7 |2 gnd |9 rswk-swf |
| 650 | 0 | 7 | |a Erdinneres |0 (DE-588)4152673-9 |2 gnd |9 rswk-swf |
| 650 | 0 | 7 | |a Geophysik |0 (DE-588)4020252-5 |2 gnd |9 rswk-swf |
| 651 | 4 | |a Earth |x Internal structure | |
| 689 | 0 | 0 | |a Erdinneres |0 (DE-588)4152673-9 |D s |
| 689 | 0 | 1 | |a Deformation |g Geologie |0 (DE-588)4409345-7 |D s |
| 689 | 0 | 2 | |a Geophysik |0 (DE-588)4020252-5 |D s |
| 689 | 0 | |5 DE-604 | |
| 700 | 1 | |a Bunge, Hans-Peter |d 1964- |e Verfasser |0 (DE-588)137400594 |4 aut | |
| 856 | 4 | 2 | |m Digitalisierung UB Bayreuth |q application/pdf |u http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016520433&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |3 Inhaltsverzeichnis |
| 999 | |a oai:aleph.bib-bvb.de:BVB01-016520433 | ||
Datensatz im Suchindex
| _version_ | 1804137687287857152 |
|---|---|
| adam_text | Contents
1
Introduction page
1
1.1
Continuum properties
2
1.1.1
Deformation and strain
3
1.1.2
The stress-field
3
1.1.3
Constitutive relations
3
1.2
Earth processes
6
1.3
Elements of Earth structure
8
1.3.1
Mantle
12
1.3.2
Core
13
1.4
State of the Earth
14
Part I: Continuum Mechanics in Geophysics
19
2
Description of Deformation
21
2.1
Geometry of deformation
21
2.1.1
Deformation of a vector element
23
2.1.2
Successive deformations
24
2.1.3
Deformation of an element of volume
24
2.1.4
Deformation of an element of area
25
2.1.5
Homogeneous deformation
25
2.2
Strain
27
2.2.1
Stretch
27
2.2.2
Principal fibres and principal stretches
28
2.2.3
The decomposition theorem
29
2.2.4
Pure rotation
30
2.2.5
Tensor measures of strain
32
2.3
Plane deformation
34
2.4
Motion
36
2.5
The continuity equation
38
2.
A Appendix: Properties of the deformation gradient determinant
39
vi
Contents
3
The Stress-Field
Concept
41
3.1
Traction and stress
41
3.2
Local equations of linear motion
44
3.2.1
Symmetry of the stress tensor
44
3.2.2
Stress jumps (continuity conditions)
46
3.3
Principal basis for stress
48
3.4
Virtual work rate principle
51
3.5
Stress from a Lagrangian viewpoint
53
4
Constitutive Relations
54
4.1
Constitutive relation requirements
54
4.1.1
Simple materials
55
4.1.2
Material symmetry
56
4.1.3
Functional dependence
57
4.2
Energy balance
57
4.3
Elastic materials
60
4.4 Isotropie
elastic material
61
4.4.1
Effect of rotation
61
4.4.2
Coaxiality of the Cauchy stress tensor and the Eulerian triad
62
4.4.3
Principal stresses
62
4.4.4
Some
isotropie
work functions
63
4.5
Fluids
64
4.6
Viscoelasticity
67
4.7
Plasticity and flow
69
5
Linearised Elasticity and Viscoelasticity
71
5.1
Linearisation of deformation
71
5.2
The elastic constitutive relation
72
5.2.1
Isotropie
response
73
5.2.2
Nature of moduli
73
5.2.3
Interrelations between moduli
74
5.2.4
An example of linearisation
74
5.2.5
Elastic constants
75
5.2.6
The uniqueness Theorem
76
5.3
Integral representations
79
5.3.1
The reciprocal Theorem
80
5.3.2
The representation Theorem
81
5.4
Elastic Waves
83
5.4.1
Isotropie
media
83
5.4.2
Green s tensor for
isotropie
media
85
5.4.3
Interfaces
86
5.5
Linear viscoelasticity
88
5.6
Viscoelastic behaviour
91
5.7
Damping of harmonic oscillations
92
Contents
vii
6
Continua under Pressure
95
6.1
Effect
of radial stratification
95
6.1.1
Hydrostatic pressure
96
6.1.2
Thermodynamic relations
97
6.2
Finite strain deformation
100
6.3
Expansion of Helmholtz free energy and equations of state
102
6.4
Incremental stress and strain
105
6.4.1
Perturbations in stress
106
6.4.2
Perturbations in boundary conditions
107
6.5
Elasticity under pressure
107
7
Fluid Flow
110
7.1
The Navier-Stokes equation
110
7.1.1
Heat flow 111
7.1.2
The Prandtl number
112
7.2
Non-dimensional quantities
113
7.2.1
The Reynolds number
115
7.2.2
Stokes Flow
115
7.2.3
Compressibility
115
7.2.4
The Peclet number
117
7.3
Rectilinear shear flow
117
7.4
Plane two-dimensional flow
118
7.5
Thermal convection
121
7.5.1
The Rayleigh and Nusselt numbers
121
7.5.2
The Boussinesq approximation
121
7.5.3
Onset of convection
122
7.5.4
Styles of convection
125
7.6
The effects of rotation
126
7.6.1
Rapid rotation
127
7.6.2
The Rossby and
Ekman
numbers
128
7.6.3
Geostrophic flow
128
7.6.4
The Taylor-Proudman theorem
129
7.6.5
Ekman
layers
129
8
Continuum Equations and Boundary Conditions
131
8.1
Conservation equations
131
8.1.1
Conservation of mass
132
8.1.2
Conservation of momentum
132
8.1.3
Conservation of energy
133
8.2
Interface conditions
134
8.3
Continuum electrodynamics
135
8.3.1
Maxwell s equations
135
8.3.2
Electromagnetic constitutive equations
136
8.3.3
Electromagnetic continuity conditions
137
viii Contents
8.3.4
Energy
equation for the electromagnetic field
138
8.3.5
Electromagnetic disturbances
139
8.3.6
Magnetic fluid dynamics
141
8.4
Diffusion
and heat flow
145
8.4.1
Equilibrium heat flow
146
8.4.2
Time-varying problems
148
Part II: Earth Deformation
151
9
From the Atomic Scale to the Continuum
153
9.1
Transport properties and material defects
153
9.1.1
Grains and crystal defects
153
9.1.2
General transport properties
156
9.1.3
Atomic diffusion
157
9.2
Lattice vibrations
158
9.3
Creep and rheology
162
9.3.1
Crystal elasticity
162
9.3.2
Deformation behaviour
163
9.4
Material properties at high temperatures and pressures
166
9.4.1
Shock-wave techniques
166
9.4.2
Pressure concentration by reduction of area
168
9.5
Computational methods
171
9.5.1
Electronic structure calculations
171
9.5.2
Atomistic simulations
174
9.5.3
Simulation of crystal structures
175
9.5.4
Finite temperature
176
9.5.5
Influence of defects
178
10
Geological Deformation
180
10.1
Microfabrics
181
10.1.1
Crystal defects
181
10.1.2
Development of
microstructure
182
10.1.3
Formation of crystallographically preferred orientations
184
10.2
Macroscopic structures
186
10.2.1
Multiple phases of deformation
187
10.2.2
Folding and boudinage
189
10.2.3
Fractures and faulting
193
10.2.4
Development of thrust complexes
204
11
Seismology and Earth Structure
207
11.1
Seismic Waves
207
11.1.1
Reflection and refraction
208
11.1.2
Attenuation effects
209
11.2
Seismic sources
212
11.3
Building the response of the Earth to a source
216
Contents ix
11.3.1 Di splacements
asa
normal
mode sum
218
11.3.2
Free oscillations of the Earth
220
11.4
Probing the Earth
231
11.4.1
Seismic phases
231
11.4.2
Normal mode frequencies
239
11.4.3
Comparison with observations
243
11.4.4
Imaging three-dimensional structure
247
11.5
Earthquakes and faulting
253
12
Lithospheric Deformation
257
12.1
Definitions of the
lithosphère
257
12.2
Thermal and mechanical structure
258
12.2.1
Thermal conduction in the oceanic
lithosphère
258
12.2.2
Mechanical deformation
261
12.2.3
Estimates of the elastic thickness of the
lithosphère
265
12.2.4
Strength envelopes and failure criteria
266
12.3
Plate boundaries and force systems
271
12.3.1
Nature of plate boundaries
271
12.3.2
Plate boundary forces
272
12.4
Measures of stress and strain
274
12.4.1
Stress measurements
274
12.4.2
Strain measurements
276
12.5
Glacial rebound
280
12.6
Extension and convergence
283
12.6.1
Extension
283
12.6.2
Convergence
288
13
The Influence of Rheology: Asthenosphere to the Deep Mantle
294
13.1
Lithosphère
and asthenosphere
294
13.
13.
13.
13.
13.
.1
Seismic imaging
295
.2
Seismic attenuation
297
.3
Seismic anisotropy
299
.4
Asthenospheric flow
302
1.5
The influence of a low-viscosity zone
302
13.2
Subduction
zones and their surroundings
308
13.2.1
Configuration of
subduction
zones
309
13.2.2
Flow around the slab
311
13.2.3
Temperatures in and around the subducting slab
314
13.2.4
Subduction
and orogeny
316
13.3
The influence of phase transitions
319
13.4
The deeper mantle
323
13.4.1
Viscosity variations in the mantle and the geoid
323
13.4.2
The lower boundary layer
328
x
Contents
14
Mantle Convection
330
14.1
Convective forces
330
14.1.1
Boundary layer theory
330
14.1.2
Basic equations
332
14.1.3
Boundary conditions
333
14.1.4
Non-dimensional treatment
334
14.1.5
Computational convection
335
14.2
Convective
planform
339
14.3
Thermal structure and heat budget
342
14.3.1
Thermal boundary layers and the geotherm
342
14.3.2
Plates
346
14.3.3
Hot spots and plumes
348
14.4
Circulation of the mantle
353
14.4.1
Present-day and past plate motion models
354
14.4.2
Implications of plate motion models for mantle circulation
357
14.4.3
Mantle circulation models
361
14.5
Mantle rheology
371
14.5.1
Temperature dependence
372
14.5.2
Strain dependence
373
14.6
Coupled lithosphere-mantle convection models
375
14.7
Thermochemical convection
377
15
The Core and the Earth s Dynamo
379
15.1
The magnetic field at the surface and at the top of the core
380
15.2
Convection and dynamo action
384
15.2.1
Basic equations
384
15.2.2
Boundary conditions
387
15.2.3
Interaction of the flow with the magnetic field
388
15.2.4
Deviations from the reference state
389
15.2.5
Non-dimensional treatment
390
15.3
Numerical dynamos
392
15.4
Evolution of the Earth s core
397
15.4.1
Energy balance
397
15.4.2
Thermal and compositional effects
399
15.4.3
Inner core growth in a well-mixed core
400
Appendix: Table of Notation
407
Bibliography
413
Index
423
|
| adam_txt |
Contents
1
Introduction page
1
1.1
Continuum properties
2
1.1.1
Deformation and strain
3
1.1.2
The stress-field
3
1.1.3
Constitutive relations
3
1.2
Earth processes
6
1.3
Elements of Earth structure
8
1.3.1
Mantle
12
1.3.2
Core
13
1.4
State of the Earth
14
Part I: Continuum Mechanics in Geophysics
19
2
Description of Deformation
21
2.1
Geometry of deformation
21
2.1.1
Deformation of a vector element
23
2.1.2
Successive deformations
24
2.1.3
Deformation of an element of volume
24
2.1.4
Deformation of an element of area
25
2.1.5
Homogeneous deformation
25
2.2
Strain
27
2.2.1
Stretch
27
2.2.2
Principal fibres and principal stretches
28
2.2.3
The decomposition theorem
29
2.2.4
Pure rotation
30
2.2.5
Tensor measures of strain
32
2.3
Plane deformation
34
2.4
Motion
36
2.5
The continuity equation
38
2.
A Appendix: Properties of the deformation gradient determinant
39
vi
Contents
3
The Stress-Field
Concept
41
3.1
Traction and stress
41
3.2
Local equations of linear motion
44
3.2.1
Symmetry of the stress tensor
44
3.2.2
Stress jumps (continuity conditions)
46
3.3
Principal basis for stress
48
3.4
Virtual work rate principle
51
3.5
Stress from a Lagrangian viewpoint
53
4
Constitutive Relations
54
4.1
Constitutive relation requirements
54
4.1.1
Simple materials
55
4.1.2
Material symmetry
56
4.1.3
Functional dependence
57
4.2
Energy balance
57
4.3
Elastic materials
60
4.4 Isotropie
elastic material
61
4.4.1
Effect of rotation
61
4.4.2
Coaxiality of the Cauchy stress tensor and the Eulerian triad
62
4.4.3
Principal stresses
62
4.4.4
Some
isotropie
work functions
63
4.5
Fluids
64
4.6
Viscoelasticity
67
4.7
Plasticity and flow
69
5
Linearised Elasticity and Viscoelasticity
71
5.1
Linearisation of deformation
71
5.2
The elastic constitutive relation
72
5.2.1
Isotropie
response
73
5.2.2
Nature of moduli
73
5.2.3
Interrelations between moduli
74
5.2.4
An example of linearisation
74
5.2.5
Elastic constants
75
5.2.6
The uniqueness Theorem
76
5.3
Integral representations
79
5.3.1
The reciprocal Theorem
80
5.3.2
The representation Theorem
81
5.4
Elastic Waves
83
5.4.1
Isotropie
media
83
5.4.2
Green's tensor for
isotropie
media
85
5.4.3
Interfaces
86
5.5
Linear viscoelasticity
88
5.6
Viscoelastic behaviour
91
5.7
Damping of harmonic oscillations
92
Contents
vii
6
Continua under Pressure
95
6.1
Effect
of radial stratification
95
6.1.1
Hydrostatic pressure
96
6.1.2
Thermodynamic relations
97
6.2
Finite strain deformation
100
6.3
Expansion of Helmholtz free energy and equations of state
102
6.4
Incremental stress and strain
105
6.4.1
Perturbations in stress
106
6.4.2
Perturbations in boundary conditions
107
6.5
Elasticity under pressure
107
7
Fluid Flow
110
7.1
The Navier-Stokes equation
110
7.1.1
Heat flow 111
7.1.2
The Prandtl number
112
7.2
Non-dimensional quantities
113
7.2.1
The Reynolds number
115
7.2.2
Stokes Flow
115
7.2.3
Compressibility
115
7.2.4
The Peclet number
117
7.3
Rectilinear shear flow
117
7.4
Plane two-dimensional flow
118
7.5
Thermal convection
121
7.5.1
The Rayleigh and Nusselt numbers
121
7.5.2
The Boussinesq approximation
121
7.5.3
Onset of convection
122
7.5.4
Styles of convection
125
7.6
The effects of rotation
126
7.6.1
Rapid rotation
127
7.6.2
The Rossby and
Ekman
numbers
128
7.6.3
Geostrophic flow
128
7.6.4
The Taylor-Proudman theorem
129
7.6.5
Ekman
layers
129
8
Continuum Equations and Boundary Conditions
131
8.1
Conservation equations
131
8.1.1
Conservation of mass
132
8.1.2
Conservation of momentum
132
8.1.3
Conservation of energy
133
8.2
Interface conditions
134
8.3
Continuum electrodynamics
135
8.3.1
Maxwell's equations
135
8.3.2
Electromagnetic constitutive equations
136
8.3.3
Electromagnetic continuity conditions
137
viii Contents
8.3.4
Energy
equation for the electromagnetic field
138
8.3.5
Electromagnetic disturbances
139
8.3.6
Magnetic fluid dynamics
141
8.4
Diffusion
and heat flow
145
8.4.1
Equilibrium heat flow
146
8.4.2
Time-varying problems
148
Part II: Earth Deformation
151
9
From the Atomic Scale to the Continuum
153
9.1
Transport properties and material defects
153
9.1.1
Grains and crystal defects
153
9.1.2
General transport properties
156
9.1.3
Atomic diffusion
157
9.2
Lattice vibrations
158
9.3
Creep and rheology
162
9.3.1
Crystal elasticity
162
9.3.2
Deformation behaviour
163
9.4
Material properties at high temperatures and pressures
166
9.4.1
Shock-wave techniques
166
9.4.2
Pressure concentration by reduction of area
168
9.5
Computational methods
171
9.5.1
Electronic structure calculations
171
9.5.2
Atomistic simulations
174
9.5.3
Simulation of crystal structures
175
9.5.4
Finite temperature
176
9.5.5
Influence of defects
178
10
Geological Deformation
180
10.1
Microfabrics
181
10.1.1
Crystal defects
181
10.1.2
Development of
microstructure
182
10.1.3
Formation of crystallographically preferred orientations
184
10.2
Macroscopic structures
186
10.2.1
Multiple phases of deformation
187
10.2.2
Folding and boudinage
189
10.2.3
Fractures and faulting
193
10.2.4
Development of thrust complexes
204
11
Seismology and Earth Structure
207
11.1
Seismic Waves
207
11.1.1
Reflection and refraction
208
11.1.2
Attenuation effects
209
11.2
Seismic sources
212
11.3
Building the response of the Earth to a source
216
Contents ix
11.3.1 Di splacements
asa
normal
mode sum
218
11.3.2
Free oscillations of the Earth
220
11.4
Probing the Earth
231
11.4.1
Seismic phases
231
11.4.2
Normal mode frequencies
239
11.4.3
Comparison with observations
243
11.4.4
Imaging three-dimensional structure
247
11.5
Earthquakes and faulting
253
12
Lithospheric Deformation
257
12.1
Definitions of the
lithosphère
257
12.2
Thermal and mechanical structure
258
12.2.1
Thermal conduction in the oceanic
lithosphère
258
12.2.2
Mechanical deformation
261
12.2.3
Estimates of the elastic thickness of the
lithosphère
265
12.2.4
Strength envelopes and failure criteria
266
12.3
Plate boundaries and force systems
271
12.3.1
Nature of plate boundaries
271
12.3.2
Plate boundary forces
272
12.4
Measures of stress and strain
274
12.4.1
Stress measurements
274
12.4.2
Strain measurements
276
12.5
Glacial rebound
280
12.6
Extension and convergence
283
12.6.1
Extension
283
12.6.2
Convergence
288
13
The Influence of Rheology: Asthenosphere to the Deep Mantle
294
13.1
Lithosphère
and asthenosphere
294
13.
13.
13.
13.
13.
.1
Seismic imaging
295
.2
Seismic attenuation
297
.3
Seismic anisotropy
299
.4
Asthenospheric flow
302
1.5
The influence of a low-viscosity zone
302
13.2
Subduction
zones and their surroundings
308
13.2.1
Configuration of
subduction
zones
309
13.2.2
Flow around the slab
311
13.2.3
Temperatures in and around the subducting slab
314
13.2.4
Subduction
and orogeny
316
13.3
The influence of phase transitions
319
13.4
The deeper mantle
323
13.4.1
Viscosity variations in the mantle and the geoid
323
13.4.2
The lower boundary layer
328
x
Contents
14
Mantle Convection
330
14.1
Convective forces
330
14.1.1
Boundary layer theory
330
14.1.2
Basic equations
332
14.1.3
Boundary conditions
333
14.1.4
Non-dimensional treatment
334
14.1.5
Computational convection
335
14.2
Convective
planform
339
14.3
Thermal structure and heat budget
342
14.3.1
Thermal boundary layers and the geotherm
342
14.3.2
Plates
346
14.3.3
Hot spots and plumes
348
14.4
Circulation of the mantle
353
14.4.1
Present-day and past plate motion models
354
14.4.2
Implications of plate motion models for mantle circulation
357
14.4.3
Mantle circulation models
361
14.5
Mantle rheology
371
14.5.1
Temperature dependence
372
14.5.2
Strain dependence
373
14.6
Coupled lithosphere-mantle convection models
375
14.7
Thermochemical convection
377
15
The Core and the Earth's Dynamo
379
15.1
The magnetic field at the surface and at the top of the core
380
15.2
Convection and dynamo action
384
15.2.1
Basic equations
384
15.2.2
Boundary conditions
387
15.2.3
Interaction of the flow with the magnetic field
388
15.2.4
Deviations from the reference state
389
15.2.5
Non-dimensional treatment
390
15.3
Numerical dynamos
392
15.4
Evolution of the Earth's core
397
15.4.1
Energy balance
397
15.4.2
Thermal and compositional effects
399
15.4.3
Inner core growth in a well-mixed core
400
Appendix: Table of Notation
407
Bibliography
413
Index
423 |
| any_adam_object | 1 |
| any_adam_object_boolean | 1 |
| author | Kennett, B. L. N. 1948- Bunge, Hans-Peter 1964- |
| author_GND | (DE-588)124847226 (DE-588)137400594 |
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| dewey-full | 551.1/1 |
| dewey-hundreds | 500 - Natural sciences and mathematics |
| dewey-ones | 551 - Geology, hydrology, meteorology |
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| dewey-search | 551.1/1 |
| dewey-sort | 3551.1 11 |
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| discipline | Geologie / Paläontologie Physik Geographie |
| discipline_str_mv | Geologie / Paläontologie Physik Geographie |
| edition | 1. publ. |
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| geographic | Earth Internal structure |
| geographic_facet | Earth Internal structure |
| id | DE-604.BV023336588 |
| illustrated | Illustrated |
| index_date | 2024-07-02T20:59:54Z |
| indexdate | 2024-07-09T21:16:15Z |
| institution | BVB |
| isbn | 9780521865531 9781108462730 |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-016520433 |
| oclc_num | 191891599 |
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| physical | XII, 432 Seiten Illustrationen, Diagramme |
| publishDate | 2008 |
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| publisher | Cambridge University Press |
| record_format | marc |
| spelling | Kennett, B. L. N. 1948- Verfasser (DE-588)124847226 aut Geophysical continua deformation in the earth's interior B. L. N. Kennett ; H.-P. Bunge 1. publ. Cambridge Cambridge University Press [2008] © 2008 XII, 432 Seiten Illustrationen, Diagramme txt rdacontent n rdamedia nc rdacarrier First paperback edition 2018 Déformations (Mécanique) Géodynamique Géophysique Mécanique des milieux continus Terre - Structure interne Mathematisches Modell Geodynamics Geodynamics Mathematical models Deformation Geologie (DE-588)4409345-7 gnd rswk-swf Erdinneres (DE-588)4152673-9 gnd rswk-swf Geophysik (DE-588)4020252-5 gnd rswk-swf Earth Internal structure Erdinneres (DE-588)4152673-9 s Deformation Geologie (DE-588)4409345-7 s Geophysik (DE-588)4020252-5 s DE-604 Bunge, Hans-Peter 1964- Verfasser (DE-588)137400594 aut Digitalisierung UB Bayreuth application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016520433&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Kennett, B. L. N. 1948- Bunge, Hans-Peter 1964- Geophysical continua deformation in the earth's interior Déformations (Mécanique) Géodynamique Géophysique Mécanique des milieux continus Terre - Structure interne Mathematisches Modell Geodynamics Geodynamics Mathematical models Deformation Geologie (DE-588)4409345-7 gnd Erdinneres (DE-588)4152673-9 gnd Geophysik (DE-588)4020252-5 gnd |
| subject_GND | (DE-588)4409345-7 (DE-588)4152673-9 (DE-588)4020252-5 |
| title | Geophysical continua deformation in the earth's interior |
| title_auth | Geophysical continua deformation in the earth's interior |
| title_exact_search | Geophysical continua deformation in the earth's interior |
| title_exact_search_txtP | Geophysical continua deformation in the earth's interior |
| title_full | Geophysical continua deformation in the earth's interior B. L. N. Kennett ; H.-P. Bunge |
| title_fullStr | Geophysical continua deformation in the earth's interior B. L. N. Kennett ; H.-P. Bunge |
| title_full_unstemmed | Geophysical continua deformation in the earth's interior B. L. N. Kennett ; H.-P. Bunge |
| title_short | Geophysical continua |
| title_sort | geophysical continua deformation in the earth s interior |
| title_sub | deformation in the earth's interior |
| topic | Déformations (Mécanique) Géodynamique Géophysique Mécanique des milieux continus Terre - Structure interne Mathematisches Modell Geodynamics Geodynamics Mathematical models Deformation Geologie (DE-588)4409345-7 gnd Erdinneres (DE-588)4152673-9 gnd Geophysik (DE-588)4020252-5 gnd |
| topic_facet | Déformations (Mécanique) Géodynamique Géophysique Mécanique des milieux continus Terre - Structure interne Mathematisches Modell Geodynamics Geodynamics Mathematical models Deformation Geologie Erdinneres Geophysik Earth Internal structure |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016520433&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
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