Lecture 1 - Introduction and Scope of Different Methods - I
Lecture 2 - Introduction and Scope of Different Methods - II
Lecture 3 - Electrical Methods
Lecture 4 - Comparison of Electrical and Hydraulic Properties
Lecture 5 - Array Advantages and Disadvantages - I
Lecture 6 - Electrical Resistivity Methods : Method of Field Operation, Electrical Profiling and Case Studies
Lecture 7 - Electrical Resistivity Methods : Vertical Electrical Sounding Methods
Lecture 8 - Electrical Resistivity Methods : Vertical Electrical Sounding Data interpretation Methods
Lecture 9 - Electrical Resistivity Methods : 3D Resistivity Tomography case study and Applications
Lecture 10 - Field Demonstration of Vertical Electrical Sounding
Lecture 11 - Application of VES and 3D Tomography for Identification of Seawater intrusion
Lecture 12 - Resistivity Methods for Estimation of Aquifer Properties
Lecture 13 - Expert Lecture - Dr. V.Arulprakasam
Lecture 14 - Electrical Self Potential Method Introduction
Lecture 15 - Electrical Self Potential Method Field Procedure
Lecture 16 - Applications and Case studies - Self Potential method
Lecture 17 - Electrical Induced Polarization Method - 1
Lecture 18 - IP Time and Frequency Domain Methods
Lecture 19 - Electromagnetic Methods
Lecture 20 - Electromagnetic Method Field Demonstration
Lecture 21 - Expert Lectures
Lecture 22 - Seismic Methods Introdcution
Lecture 23 - Seismic operation on land
Lecture 24 - Explosive Sources
Lecture 25 - Non-explosive Sources and Receiving Seismic Signals
Lecture 26 - Recording of Seismic Signals and Data Reduction
Lecture 27 - Seismic Method-Types : Refraction Method, Two layer case study
Lecture 28 - Refraction Method - Case study on Multi layer and Dipping layer
Lecture 29 - Borehole Seismics
Lecture 30 - Geophysics for tunneling and Dam Construction - Expert Lecture by Dr Sanjay Rana - 1
Lecture 31 - Geophysics for tunneling and Dam Construction - Expert Lecture by Dr Sanjay Rana - 2
Lecture 32 - Seismic Reflection Method
Lecture 33 - Seismic Reflection Applications and Case Studies - 1
Lecture 34 - Seismic Reflection Applications and Case Studies - 2
Lecture 35 - Expert Lecture (Seismic Exploration) - Dr. N. Satyavani, NGRI
Lecture 36 - Multichannel Analysis of Surface Waves (MASW)
Lecture 37 - MASW - Case Studies
Lecture 38 - Expert Lecture (MASW) - Dr.K. Satish Kumar, NGRI
Lecture 39 - Gravity Methods Introduction
Lecture 40 - Gravity Method Principle and Types of Gravity Measurements
Lecture 41 - Types of Gravimeters
Lecture 42 - Calibration and Drift Correction
Lecture 43 - Gravity data reduction or Correction - 1
Lecture 44 - Gravity data reduction or Correction - 2
Lecture 45 - Gravity Method (Interpretation) - Quantitative Methods
Lecture 46 - Gravity Method indirect interpretation
Lecture 47 - Gravity Method Application and Case Studies
Lecture 48 - Gravity Recovery and Climate Experiment (GRACE Mission)
Lecture 49 - GRACE - Case Studies
Lecture 50 - Magnetic Methods Introduction
Lecture 51 - Magnetometers
Lecture 52 - Interpretation and Case studies
Lecture 53 - Expert Lecture - Prof.N. Sundararajan
Lecture 54 - Ground Penetrating Radar
Lecture 55 - GPR - Field Demonstration
Lecture 56 - Synthetic Aperture Radar (SAR)
Lecture 57 - Surface Nuclear Magnetic Resonance - 1
Lecture 58 - Surface Nuclear Magnetic Resonance - 2
Lecture 59 - Expert Lecture - Dr. Pramod Kumar Sharma
Lecture 60 - Radioactive Methods
Lecture 61 - Geophysical Well Logging methods - I
Lecture 62 - Geophysical Well Logging Methods - II
Lecture 63 - Induction Log
Lecture 64 - Radiometric logging and applications
Lecture 65 - Other logging methods - Sonic, Caliper, Temperature
Lecture 66 - Fluid conductivity and NMR logging
Lecture 67 - Bore Hole Camera and Summary of Logging methods
Lecture 68 - Answers to the Questions