| 000 | 03785nam a22003017a 4500 | ||
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| 020 | _a1560801301 | ||
| 040 |
_aESCM _bEspañol |
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| 041 |
_bspa _aeng |
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| 080 | _a550.3 | ||
| 100 |
_92692 _aButler, Dwain K. |
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| 245 |
_aNear-Surface Geophysics / _cDwain K. Butler. |
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| 250 | _aPrimera edición. | ||
| 260 |
_aTulsa, Oklahoma: _bSociety of exploration geophysicists; _c2005. |
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| 300 |
_a732 páginas. _bGráficos, mapas e imágenes. _c28 x 22 centímetros. |
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| 336 |
_2rdacontent _atexto |
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| 337 |
_2rdamedia _asin medio |
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| 338 |
_2rdacarrier _avolumen |
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| 490 |
_aInvestigations in geophysics; _v13 |
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| 500 | _aEjemplar adquirido en el marco de Proyecto UNDEF 470/2017 Resolución Rectoral N°282/2017. Incluye referencias bibliográficas e indice. | ||
| 505 | _aPart 1: Concepts and Fundamentals. - Chapter 1. What Is Near-Surface Geophysics?.- Chapter 2. Special Challenges Associated with the Near Surface. - Chapter3. An Introduction to Rock Physics Principles for Near-Surface Geophysics.- Chapter 4. A Survey of Elastic and Electromagnetic Properties of Near-Surfaces Soils.- Chapter 5. Inversion for Apllied Geophysics: A Tutorial.- Chapter 6. Magnetic Method in Near-Surface Geophysics. Chapter 7. Near-Surface Siesmology: Wave Propagation.- Chapter 8. Near-Surface Seismology: Surface-Based Method.- Chapter 9. Resistivity, Induced Polarization, and Complex Resistivity.- Chapter 10. Electromagnetic Induction Methods for Environmental Problems. - Chapter 11. Ground-Penetrating Radar.- Chapter 12. downhole Applications of Geophysics.- Part 2: Applications and Case Histories.- Chapter 13. An Integrated Approach Based on NMR/acoustic Techniques to Map Permability in Carbonate Aquifers: From the Pore to Field Scales.- Chapter 14. Laboratory Measurements of Velocity and Attenuation in Sediments.- Chapter 15. Gravity Mapping and Seismic Imaging of Paleochannels.- Chapter 16. detection of Buried Steel Drums from magnetic Anomaly Data Using an Artificial Intelligence Technique.- Chapter 17. Electrical Resistance Tomography-Theory and practice.- Chapter 18. Indication of Groundwater Contamination whit the Induced-Polarization (IP) Method.- Chapter 19. Fracture imaging and Saline Tracer monitoring by Crosshole Borehole Radar.- Chapter 20. A Comparison of Three geophysical Methods for Characterizing Air Flow from a Air Sparging Well.- Chapter 21. An Integrated Approach for Hydrogeophysical Investigations: New Technologies and a Case History.- Chapter 22. Analysis of 3D High-Resolution Seismic Reflection and Crosswell Radar Tomography for Aquifer Characterization: A Case Study.- Chapter 23. Applications of Ground-Penetrating Radar, Magnetic and Electric Mapping, and Electromagnetic Induction Methods in Archaeological Investigations.- Chapter 24. Near-Surface Geophysics in Berlin: Combined Geophysical Methods to Detect Near-Surface Obstacles to Construction in the New Capital of Germany.- Chapter 25. Airborne Geophysics versus Groundwater - An Example.- Chapter 26. Multifrecuency Airborne EM Surveys - A Tool for Aquifer Vulnerability Mapping.- Chapter 27. Viability of an Airborne Electromagnetic System for Mapping of Shallow Buried Metals.- Chapter 28. Seismic Techniques to Detect Dissolution Features (Karst) at a Proposed Power-Plant Site.- Chapter 29. Seismic Investigation of a Salt Dissolution Feature in Kansas.- Chapter 30. "Poor Man's #D" - A Simple Approach to #D Seismic Surveying: A Case History.- Chapter 31. Analytical Techniques for Shallow Marine Near-Surface Geotechnical Parameter Estimation. | ||
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_91274 _aGEOFÍSICA |
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_92606 _aPLANETA TIERRA |
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_92349 _aELECTROMAGNETISMO |
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| 650 | 0 |
_91291 _aSISMOLOGÍA |
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| 650 | 0 |
_92569 _aRADAR |
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| 999 |
_c49205 _d49205 |
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