Gravity interpretation: fundamentals and application of gravity inversion and geological interpretation
Gespeichert in:
| Hauptverfasser: | , |
|---|---|
| Format: | Medienkombination Buch |
| Sprache: | English |
| Veröffentlicht: |
Berlin [u.a.]
Springer
2009
|
| Schlagworte: | |
| Online-Zugang: | Inhaltstext Inhaltsverzeichnis |
| Beschreibung: | XX, 395 S. Ill., graph. Darst. 235 mm x 155 mm 1 CD-ROM |
| ISBN: | 9783540853282 |
Internformat
MARC
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| 245 | 1 | 0 | |a Gravity interpretation |b fundamentals and application of gravity inversion and geological interpretation |c Wolfgang Jacoby ; Peter Smilde |
| 264 | 1 | |a Berlin [u.a.] |b Springer |c 2009 | |
| 300 | |a XX, 395 S. |b Ill., graph. Darst. |c 235 mm x 155 mm |e 1 CD-ROM | ||
| 650 | 0 | 7 | |a Gravimetrie |0 (DE-588)4138998-0 |2 gnd |9 rswk-swf |
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Datensatz im Suchindex
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| adam_text |
CONTENTS INTRODUCTION 1 1.1 THE SUBJECT AND SCOPE 1 1.1.1 GRAVITY 1
1.1.2 MOTIVATION 2 1.1.3 AIMS 3 1.1.4 SPECIAL ASPECTS 4 1.1.5 THE BOOK
AND THE READER 4 1.2 HISTORICAL REVIEW 5 1.2.1 ASTRONOMY, GEODESY,
GEOPHYSICS, 18TH AND 19TH CENTURIES . 5 1.2.2 20TH CENTURY 6 1.2.3
GEODESY AND GEOPHYSICS 7 1.3 PURPOSES OF GRAVITY MEASUREMENTS 8 1.4
GRAVITY AND GRAVITY ANOMALIES 9 1.5 SOME IMPORTANT ASPECTS OF THE
TERRESTRIAL GRAVITY FIELD AND INTERNAL MASS DISTRIBUTION 10 1.5.1
GENERAL CONSIDERATIONS 10 1.5.2 THE EARTH'S FIGURE AND CONSTITUTION 11
1.5.3 CONTINENTS AND OCEANS 12 1.5.4 PLATE TECTONICS AND MANTLE FLOW 13
1.5.5 ASSOCIATED GRAVITY ANOMALIES 16 1.5.6 OTHER LARGE-SCALE GRAVITY
FEATURES 18 1.5.7 SMALLER-SCALE GRAVITY ANOMALIES RELEVANT TO
EXPLORATION FOR ECONOMIC MINERALS 19 1.5.8 HARMONIC SPECTRUM OF THE
GRAVITY FIELD 19 REFERENCES 21 FUNDAMENTALS OF GRAVITY, ELEMENTS OF
POTENTIAL THEORY 23 2.1 INTRODUCTION 23 2.2 UNITS 23 2.3 ELEMENTS OF G
24 2.4 COORDINATE SYSTEMS 25 BIBLIOGRAFISCHE INFORMATIONEN
HTTP://D-NB.INFO/989571696 DIGITALISIERT DURCH CONTENTS 2.4.1 SPHERICAL
COORDINATES 25 2.4.2 VERTICAL CYLINDER COORDINATES 26 2.4-3 CARTESIAN
COORDINATES 27 2 5 NEWTON'S LAWS: GRAVITATION AND INERTIA PLUS
CENTRIFUGAL ACCELERATION = GRAVITY 29 2 6 GRAVITY POTENTIAL AND
EQUIPOTENTIAL SURFACES 31 2 7 LAPLACE EQUATION, FIELD QUANTITIES,
EQUIVALENT STRATUM; DERIVATION OF SOME FIELD QUANTITIES, SURFACE
INTEGRALS, POISSON EQUATIONS, GRAVITATIONAL FLUX F 34 2.7-1 SOURCE-FREE
SPACE: LAPLACE EQUATION 35 2.7.2 THE FIELD QUANTITIES 36 2.7.3 THE
EQUIVALENT STRATUM 39 2.7.4 APPLICATIONS: ESTIMATION OF FIELD QUANTITIES
AS 8W X , 8W Y , 5W ZZZ 40 2.7.5 SOURCE SPACE: POISSON EQUATION AND
GRAVITATIONAL FLUX T . 43 2.7.6 SURFACE INTEGRALS: TOTAL MASS, CENTRE
OF MASS 44 2.8 THE GRAVITY TENSOR (EOTVOS TENSOR) 45 2.9 GRAVITY EFFECTS
AND ANOMALIES - SUMMATION AND INTEGRATION 46 2.9.1 GENERAL
CONSIDERATIONS 46 2.9.2 COORDINATE SYSTEMS AND INTEGRATION 50 2.9.3
SPECIAL MASS ELEMENTS: INTEGRATION IN ONE AND TWO DIMENSIONS, MASS LINES
AND MASS PLANES 53 2.9.4 DISKS 61 2.9.5 SHELLS 67 2.9.6 UNIFORM MASSIVE
VOLUMES 70 2.9-7 TWO-DIMENSIONAL BODIES 74 2.9.8 TWO-AND-A-HALF
DIMENSIONAL MODELS (2 JD) 84 2.10 SOME THEORETICAL ASPECTS OF ANOMALY
ANALYSIS 86 2.10.1 GOALS OF POST-REDUCTION DATA ANALYSIS 86 2.10.
CONTENTS 3.2.3 SPRING GRAVIMETERS 115 3.2.4 VIBRATING STRING GRAVITY
METERS 119 3.2.5 BEAM BALANCES 119 3.2.6 ABSOLUTE GRAVITY METERS 120
3.2.7 SUPERCONDUCTING GRAVITY METERS 120 3.2.8 ARTIFICIAL SATELLITES 121
3.2.9 TORSION BALANCE AND GRADIOMETER 122 3.2.10 SPECIAL TASK GRAVITY
METERS 122 3.3 SCALE AND DRIFT OF GRAVIMETERS 124 3.3.1 INSTRUMENT SCALE
124 3.3.2 INSTRUMENTAL DRIFT 124 3.4 PLANNING A SURVEY 127 3.4.1 GENERAL
127 3.4.2 BASE STATIONS 127 3.4.3 BASE STATION NETWORKS 128 3.4.4 FIELD
STATIONS 128 3.5 FIELD PROCEDURES 129 3.5.1 SETTING UP STATIONS 129
3.5.2 SURVEYING REQUIREMENTS 129 3.6 ADDITIONAL FIELD OPERATIONS 130
3.6.1 INSTRUMENT CALIBRATION 130 3.6.2 SURVEYING OR LEVELLING AND
RECORDING OF EARTH TIDES 131 3.6.3 ROCK DENSITIES 132 3.7 PREPARING THE
DATA FOR REDUCTIONS AND ANALYSIS 138 3.8 ERROR ASSESSMENT AND ACCURACY
138 3.8.1 OUTLIERS 139 3.8.2 SYSTEMATIC ERRORS 139 3.8.3 RANDOM ERRORS
140 3.9 CONCLUSION 141 REFERENCES 142 GRAVITY ANOMALIES AND
DISTURBANCES: REDUCTIONS AND ANALYSES 151 4.1 INTRODUCTION 151 4.2 EARTH
TIDE REDUCTION 152 4.3 THE TIME-INVARIANT GRAVITY ANOMALIES AND THEIR
FUNDAMENTAL PROPERTIES 153 4.4 COMPONENTS OF OBSERVED GRAVITY 156 4.4.1
NORMAL GRAVITY 157 4.4.2 DEVIATIONS FROM THE NORMAL EARTH 159 4.
CONTENTS 4.6.2 BA: BOUGUER ANOMALY 165 4.6.3 IA: ISOSTATIC ANOMALIES 165
4.7 PRELIMINARY DATA ANALYSIS 166 4.7.1 GENERAL ASPECTS 166 4.7.2 DATA
SNOOPING OR IDENTIFYING OUTLIERS 166 4.7.3 SMOOTHING, AVERAGING,
FILTERING 167 4.7.4 FUNCTIONAL FITTING 168 4.7.5 STATISTICAL APPROACH,
CORRELATIONS, REGRESSION 171 4.7.6 DERIVED FIELD QUANTITIES 174 4.7.7
REGIONAL-RESIDUAL SEPARATION 174 4.7.8 DIRECTIONAL ANALYSIS 176 4.8
EVALUATION OF REDUCTION ERRORS 177 4.9 CONCLUSION 178 REFERENCES 178
QUALITATIVE INTERPRETATION 181 5.1 FUNDAMENTAL IDEAS, PRINCIPLES 181
5.1.1 QUALITATIVE AND QUANTITATIVE INTERPRETATION 181 5.1.2 THE
AMBIGUITY PROBLEM AND A PRIORI INFORMATION 182 5.1.3 INFORMATION CONTENT
OF GRAVITY ANOMALIES 184 5.1.4 DATA REPRESENTATION AND INTERPRETATION
CONSTRAINTS 185 5.1.5 ANOMALY AND MODEL EFFECT 185 5.2 DIGITAL AND
VISUAL MODES OF REPRESENTATION 188 5.3 GEOMETRICAL CONSTRAINTS: PATTERNS
189 5.3.1 THREE-DIMENSIONAL - TWO-DIMENSIONAL 189 5.3.2 SPATIAL
FREQUENCY 189 5.4 PHYSICAL CONSTRAINTS: REALISTIC LIMITS, INTEGRAL
RELATIONS 191 5.5 GEOLOGICAL CONSTRAINTS: VISUAL AND STATISTICAL
ANALYSES, STRUCTURES, DENSITIES 192 5.5.1 GENERAL REMARKS 192 5.5.2
SCALE 192 5.5.3 GRAVITY IN RELATION WITH OTHER GEOLOGICAL QUANTITIES 192
5. CONTENTS 5.7.2 SALT DIAPIR: HELGOLAND 214 5.7.3 GRANITE BATHOLITHS:
BANCROFT AREA, CANADA 215 5.7.4 RHINE GRABEN 217 5.7.5 SE ICELAND SHELF
EDGE 218 5.7.6 SPREADING RIDGES, REYKJANES RIDGE 220 5.7.7 PLUMES, THE
ICELAND PLUME 222 5.7.8 TONGA-KERMADEC TRENCH, SUBDUCTION AND BACK ARC
BASIN . 224 5.7.9 MANTLE CONVECTION 226 5.8 ERROR DISCUSSION AND
CONCLUSIONS 229 REFERENCES 229 QUANTITATIVE INTERPRETATION 233 6.1
INTRODUCTION: FROM QUALITATIVE TO QUANTITATIVE INTERPRETATION 233 6.1.1
PRINCIPAL CONSIDERATIONS: QUALITATIVE AND QUANTITATIVE INTERPRETATION
234 6.1.2 GENERAL METHODOLOGICAL ASPECTS 235 6.1.3 PHILOSOPHY OF
MODELLING: DETAILED DESCRIPTION VERSUS CATCHING THE FUNDAMENTAL FEATURES
AND THEIR UNCERTAINTIES 236 6.1.4 MODEL TYPES: TWO AND
THREE-DIMENSIONAL; LARGE MODEL BODIES VERSUS SMALL MASS ELEMENTS 237
6.1.5 DENSITY 238 6.2 TWO-DIMENSIONAL (2D) APPROXIMATIONS AND MODELLING
241 6.2.1 FEW LARGE 2D MODEL UNITS 241 6.2.2 MANY SMALL 2D MODEL UNITS
246 6.2.3 TWO-AND-A-HALF DIMENSIONAL (2 D) MODELS 246 6.3
THREE-DIMENSIONAL (3D) APPROXIMATION AND MODELLING 247 6.3.1 FEW LARGE
3D MODEL UNITS 247 6.3.2 MANY SMALL 3D MODEL UNITS 251 6.4 SUMMARY:
STRATEGIES OF MODEL BUILDING; FROM TRIAL AND ERROR TO INVERSION 253 6.5
EXAMPLES 253 6.5.1 MESSEL MAAR CRATER AND FAULT ZONE (MFZ) 254 6.5.2
SALT STRUCTURE OF HELGOLAND 256 6.5. XIV CONTENTS 7 OPTIMIZATION AND
INVERSION 271 7.1 INTRODUCTION 271 7.2 OPTIMIZATION 273 7.2.1 THEORY 274
7.2.2 PRACTICE 285 7.3 INVERSION 304 7.3.1 OVERVIEW 305 7.3.2 DIRECT
ALGORITHMS 308 7.3.3 OTHER ALGORITHMS 328 7.4 CASE STUDIES 332 7.4.1
MEERFELD MAAR 333 7.4.2 SE ICELAND SHELF: EDGE EFFECT 362 7.5 OUTLOOK
378 REFERENCES 381 APPENDIX: ANALYTICAL GEOMETRY 383 INDEX 387 |
| adam_txt |
CONTENTS INTRODUCTION 1 1.1 THE SUBJECT AND SCOPE 1 1.1.1 GRAVITY 1
1.1.2 MOTIVATION 2 1.1.3 AIMS 3 1.1.4 SPECIAL ASPECTS 4 1.1.5 THE BOOK
AND THE READER 4 1.2 HISTORICAL REVIEW 5 1.2.1 ASTRONOMY, GEODESY,
GEOPHYSICS, 18TH AND 19TH CENTURIES . 5 1.2.2 20TH CENTURY 6 1.2.3
GEODESY AND GEOPHYSICS 7 1.3 PURPOSES OF GRAVITY MEASUREMENTS 8 1.4
GRAVITY AND GRAVITY ANOMALIES 9 1.5 SOME IMPORTANT ASPECTS OF THE
TERRESTRIAL GRAVITY FIELD AND INTERNAL MASS DISTRIBUTION 10 1.5.1
GENERAL CONSIDERATIONS 10 1.5.2 THE EARTH'S FIGURE AND CONSTITUTION 11
1.5.3 CONTINENTS AND OCEANS 12 1.5.4 PLATE TECTONICS AND MANTLE FLOW 13
1.5.5 ASSOCIATED GRAVITY ANOMALIES 16 1.5.6 OTHER LARGE-SCALE GRAVITY
FEATURES 18 1.5.7 SMALLER-SCALE GRAVITY ANOMALIES RELEVANT TO
EXPLORATION FOR ECONOMIC MINERALS 19 1.5.8 HARMONIC SPECTRUM OF THE
GRAVITY FIELD 19 REFERENCES 21 FUNDAMENTALS OF GRAVITY, ELEMENTS OF
POTENTIAL THEORY 23 2.1 INTRODUCTION 23 2.2 UNITS 23 2.3 ELEMENTS OF G
24 2.4 COORDINATE SYSTEMS 25 BIBLIOGRAFISCHE INFORMATIONEN
HTTP://D-NB.INFO/989571696 DIGITALISIERT DURCH CONTENTS 2.4.1 SPHERICAL
COORDINATES 25 2.4.2 VERTICAL CYLINDER COORDINATES 26 2.4-3 CARTESIAN
COORDINATES 27 2 5 NEWTON'S LAWS: GRAVITATION AND INERTIA PLUS
CENTRIFUGAL ACCELERATION = GRAVITY 29 2 6 GRAVITY POTENTIAL AND
EQUIPOTENTIAL SURFACES 31 2 7 LAPLACE EQUATION, FIELD QUANTITIES,
EQUIVALENT STRATUM; DERIVATION OF SOME FIELD QUANTITIES, SURFACE
INTEGRALS, POISSON EQUATIONS, GRAVITATIONAL FLUX F 34 2.7-1 SOURCE-FREE
SPACE: LAPLACE EQUATION 35 2.7.2 THE FIELD QUANTITIES 36 2.7.3 THE
EQUIVALENT STRATUM 39 2.7.4 APPLICATIONS: ESTIMATION OF FIELD QUANTITIES
AS 8W X , 8W Y , 5W ZZZ 40 2.7.5 SOURCE SPACE: POISSON EQUATION AND
GRAVITATIONAL FLUX T . 43 2.7.6 SURFACE INTEGRALS: TOTAL MASS, CENTRE
OF MASS 44 2.8 THE GRAVITY TENSOR (EOTVOS TENSOR) 45 2.9 GRAVITY EFFECTS
AND ANOMALIES - SUMMATION AND INTEGRATION 46 2.9.1 GENERAL
CONSIDERATIONS 46 2.9.2 COORDINATE SYSTEMS AND INTEGRATION 50 2.9.3
SPECIAL MASS ELEMENTS: INTEGRATION IN ONE AND TWO DIMENSIONS, MASS LINES
AND MASS PLANES 53 2.9.4 DISKS 61 2.9.5 SHELLS 67 2.9.6 UNIFORM MASSIVE
VOLUMES 70 2.9-7 TWO-DIMENSIONAL BODIES 74 2.9.8 TWO-AND-A-HALF
DIMENSIONAL MODELS (2 JD) 84 2.10 SOME THEORETICAL ASPECTS OF ANOMALY
ANALYSIS 86 2.10.1 GOALS OF POST-REDUCTION DATA ANALYSIS 86 2.10.
CONTENTS 3.2.3 SPRING GRAVIMETERS 115 3.2.4 VIBRATING STRING GRAVITY
METERS 119 3.2.5 BEAM BALANCES 119 3.2.6 ABSOLUTE GRAVITY METERS 120
3.2.7 SUPERCONDUCTING GRAVITY METERS 120 3.2.8 ARTIFICIAL SATELLITES 121
3.2.9 TORSION BALANCE AND GRADIOMETER 122 3.2.10 SPECIAL TASK GRAVITY
METERS 122 3.3 SCALE AND DRIFT OF GRAVIMETERS 124 3.3.1 INSTRUMENT SCALE
124 3.3.2 INSTRUMENTAL DRIFT 124 3.4 PLANNING A SURVEY 127 3.4.1 GENERAL
127 3.4.2 BASE STATIONS 127 3.4.3 BASE STATION NETWORKS 128 3.4.4 FIELD
STATIONS 128 3.5 FIELD PROCEDURES 129 3.5.1 SETTING UP STATIONS 129
3.5.2 SURVEYING REQUIREMENTS 129 3.6 ADDITIONAL FIELD OPERATIONS 130
3.6.1 INSTRUMENT CALIBRATION 130 3.6.2 SURVEYING OR LEVELLING AND
RECORDING OF EARTH TIDES 131 3.6.3 ROCK DENSITIES 132 3.7 PREPARING THE
DATA FOR REDUCTIONS AND ANALYSIS 138 3.8 ERROR ASSESSMENT AND ACCURACY
138 3.8.1 OUTLIERS 139 3.8.2 SYSTEMATIC ERRORS 139 3.8.3 RANDOM ERRORS
140 3.9 CONCLUSION 141 REFERENCES 142 GRAVITY ANOMALIES AND
DISTURBANCES: REDUCTIONS AND ANALYSES 151 4.1 INTRODUCTION 151 4.2 EARTH
TIDE REDUCTION 152 4.3 THE TIME-INVARIANT GRAVITY ANOMALIES AND THEIR
FUNDAMENTAL PROPERTIES 153 4.4 COMPONENTS OF OBSERVED GRAVITY 156 4.4.1
NORMAL GRAVITY 157 4.4.2 DEVIATIONS FROM THE NORMAL EARTH 159 4.
CONTENTS 4.6.2 BA: BOUGUER ANOMALY 165 4.6.3 IA: ISOSTATIC ANOMALIES 165
4.7 PRELIMINARY DATA ANALYSIS 166 4.7.1 GENERAL ASPECTS 166 4.7.2 DATA
SNOOPING OR IDENTIFYING OUTLIERS 166 4.7.3 SMOOTHING, AVERAGING,
FILTERING 167 4.7.4 FUNCTIONAL FITTING 168 4.7.5 STATISTICAL APPROACH,
CORRELATIONS, REGRESSION 171 4.7.6 DERIVED FIELD QUANTITIES 174 4.7.7
REGIONAL-RESIDUAL SEPARATION 174 4.7.8 DIRECTIONAL ANALYSIS 176 4.8
EVALUATION OF REDUCTION ERRORS 177 4.9 CONCLUSION 178 REFERENCES 178
QUALITATIVE INTERPRETATION 181 5.1 FUNDAMENTAL IDEAS, PRINCIPLES 181
5.1.1 QUALITATIVE AND QUANTITATIVE INTERPRETATION 181 5.1.2 THE
AMBIGUITY PROBLEM AND A PRIORI INFORMATION 182 5.1.3 INFORMATION CONTENT
OF GRAVITY ANOMALIES 184 5.1.4 DATA REPRESENTATION AND INTERPRETATION
CONSTRAINTS 185 5.1.5 ANOMALY AND MODEL EFFECT 185 5.2 DIGITAL AND
VISUAL MODES OF REPRESENTATION 188 5.3 GEOMETRICAL CONSTRAINTS: PATTERNS
189 5.3.1 THREE-DIMENSIONAL - TWO-DIMENSIONAL 189 5.3.2 SPATIAL
FREQUENCY 189 5.4 PHYSICAL CONSTRAINTS: REALISTIC LIMITS, INTEGRAL
RELATIONS 191 5.5 GEOLOGICAL CONSTRAINTS: VISUAL AND STATISTICAL
ANALYSES, STRUCTURES, DENSITIES 192 5.5.1 GENERAL REMARKS 192 5.5.2
SCALE 192 5.5.3 GRAVITY IN RELATION WITH OTHER GEOLOGICAL QUANTITIES 192
5. CONTENTS 5.7.2 SALT DIAPIR: HELGOLAND 214 5.7.3 GRANITE BATHOLITHS:
BANCROFT AREA, CANADA 215 5.7.4 RHINE GRABEN 217 5.7.5 SE ICELAND SHELF
EDGE 218 5.7.6 SPREADING RIDGES, REYKJANES RIDGE 220 5.7.7 PLUMES, THE
ICELAND PLUME 222 5.7.8 TONGA-KERMADEC TRENCH, SUBDUCTION AND BACK ARC
BASIN . 224 5.7.9 MANTLE CONVECTION 226 5.8 ERROR DISCUSSION AND
CONCLUSIONS 229 REFERENCES 229 QUANTITATIVE INTERPRETATION 233 6.1
INTRODUCTION: FROM QUALITATIVE TO QUANTITATIVE INTERPRETATION 233 6.1.1
PRINCIPAL CONSIDERATIONS: QUALITATIVE AND QUANTITATIVE INTERPRETATION
234 6.1.2 GENERAL METHODOLOGICAL ASPECTS 235 6.1.3 PHILOSOPHY OF
MODELLING: DETAILED DESCRIPTION VERSUS CATCHING THE FUNDAMENTAL FEATURES
AND THEIR UNCERTAINTIES 236 6.1.4 MODEL TYPES: TWO AND
THREE-DIMENSIONAL; LARGE MODEL BODIES VERSUS SMALL MASS ELEMENTS 237
6.1.5 DENSITY 238 6.2 TWO-DIMENSIONAL (2D) APPROXIMATIONS AND MODELLING
241 6.2.1 FEW LARGE 2D MODEL UNITS 241 6.2.2 MANY SMALL 2D MODEL UNITS
246 6.2.3 TWO-AND-A-HALF DIMENSIONAL (2 D) MODELS 246 6.3
THREE-DIMENSIONAL (3D) APPROXIMATION AND MODELLING 247 6.3.1 FEW LARGE
3D MODEL UNITS 247 6.3.2 MANY SMALL 3D MODEL UNITS 251 6.4 SUMMARY:
STRATEGIES OF MODEL BUILDING; FROM TRIAL AND ERROR TO INVERSION 253 6.5
EXAMPLES 253 6.5.1 MESSEL MAAR CRATER AND FAULT ZONE (MFZ) 254 6.5.2
SALT STRUCTURE OF HELGOLAND 256 6.5. XIV CONTENTS 7 OPTIMIZATION AND
INVERSION 271 7.1 INTRODUCTION 271 7.2 OPTIMIZATION 273 7.2.1 THEORY 274
7.2.2 PRACTICE 285 7.3 INVERSION 304 7.3.1 OVERVIEW 305 7.3.2 DIRECT
ALGORITHMS 308 7.3.3 OTHER ALGORITHMS 328 7.4 CASE STUDIES 332 7.4.1
MEERFELD MAAR 333 7.4.2 SE ICELAND SHELF: EDGE EFFECT 362 7.5 OUTLOOK
378 REFERENCES 381 APPENDIX: ANALYTICAL GEOMETRY 383 INDEX 387 |
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| author | Jacoby, Wolfgang 1936- Smilde, Peter Lubertus 1961- |
| author_GND | (DE-588)123692210 (DE-588)120182513 |
| author_facet | Jacoby, Wolfgang 1936- Smilde, Peter Lubertus 1961- |
| author_role | aut aut |
| author_sort | Jacoby, Wolfgang 1936- |
| author_variant | w j wj p l s pl pls |
| building | Verbundindex |
| bvnumber | BV035088915 |
| classification_rvk | UT 1650 UT 2350 |
| ctrlnum | (OCoLC)635255202 (DE-599)DNB989571696 |
| dewey-full | 526.7 |
| dewey-hundreds | 500 - Natural sciences and mathematics |
| dewey-ones | 526 - Mathematical geography |
| dewey-raw | 526.7 |
| dewey-search | 526.7 |
| dewey-sort | 3526.7 |
| dewey-tens | 520 - Astronomy and allied sciences |
| discipline | Physik Geologie / Paläontologie |
| discipline_str_mv | Physik Geologie / Paläontologie |
| format | Kit Book |
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| id | DE-604.BV035088915 |
| illustrated | Illustrated |
| index_date | 2024-07-02T22:09:53Z |
| indexdate | 2024-07-20T09:51:55Z |
| institution | BVB |
| isbn | 9783540853282 |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-016757058 |
| oclc_num | 635255202 |
| open_access_boolean | |
| owner | DE-29 DE-19 DE-BY-UBM DE-83 |
| owner_facet | DE-29 DE-19 DE-BY-UBM DE-83 |
| physical | XX, 395 S. Ill., graph. Darst. 235 mm x 155 mm 1 CD-ROM |
| publishDate | 2009 |
| publishDateSearch | 2009 |
| publishDateSort | 2009 |
| publisher | Springer |
| record_format | marc |
| spelling | Jacoby, Wolfgang 1936- Verfasser (DE-588)123692210 aut Gravity interpretation fundamentals and application of gravity inversion and geological interpretation Wolfgang Jacoby ; Peter Smilde Berlin [u.a.] Springer 2009 XX, 395 S. Ill., graph. Darst. 235 mm x 155 mm 1 CD-ROM Gravimetrie (DE-588)4138998-0 gnd rswk-swf Geophysik (DE-588)4020252-5 gnd rswk-swf Gravimetrie (DE-588)4138998-0 s Geophysik (DE-588)4020252-5 s DE-604 Smilde, Peter Lubertus 1961- Verfasser (DE-588)120182513 aut text/html http://deposit.dnb.de/cgi-bin/dokserv?id=3134934&prov=M&dok_var=1&dok_ext=htm Inhaltstext DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016757058&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Jacoby, Wolfgang 1936- Smilde, Peter Lubertus 1961- Gravity interpretation fundamentals and application of gravity inversion and geological interpretation Gravimetrie (DE-588)4138998-0 gnd Geophysik (DE-588)4020252-5 gnd |
| subject_GND | (DE-588)4138998-0 (DE-588)4020252-5 |
| title | Gravity interpretation fundamentals and application of gravity inversion and geological interpretation |
| title_auth | Gravity interpretation fundamentals and application of gravity inversion and geological interpretation |
| title_exact_search | Gravity interpretation fundamentals and application of gravity inversion and geological interpretation |
| title_exact_search_txtP | Gravity interpretation fundamentals and application of gravity inversion and geological interpretation |
| title_full | Gravity interpretation fundamentals and application of gravity inversion and geological interpretation Wolfgang Jacoby ; Peter Smilde |
| title_fullStr | Gravity interpretation fundamentals and application of gravity inversion and geological interpretation Wolfgang Jacoby ; Peter Smilde |
| title_full_unstemmed | Gravity interpretation fundamentals and application of gravity inversion and geological interpretation Wolfgang Jacoby ; Peter Smilde |
| title_short | Gravity interpretation |
| title_sort | gravity interpretation fundamentals and application of gravity inversion and geological interpretation |
| title_sub | fundamentals and application of gravity inversion and geological interpretation |
| topic | Gravimetrie (DE-588)4138998-0 gnd Geophysik (DE-588)4020252-5 gnd |
| topic_facet | Gravimetrie Geophysik |
| url | http://deposit.dnb.de/cgi-bin/dokserv?id=3134934&prov=M&dok_var=1&dok_ext=htm http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016757058&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
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