Geotechnical Earthquake Engineering

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3 STUDENTS

Introduction to Geotechnical Earthquake Engineering:Scope and objective; Nature and types of earthquake loading; Importance of Geotechnical Earthquake Engineering;Basics of Vibration theory:Concept of dynamic load, Earthquake load, Single degree of freedom system, Multiple degree of freedom system, Free and forced vibrations, Damped and undamped systems, Equation of Motion, Response spectra;Engineering Seismology:Basic Seismology, Earthquake, List of major earthquakes, Causes of earthquakes, Sources of earthquake data, Elastic rebound Theory, Faults, Plate tectonics, Seismograph and Seismogram, Prediction of Earthquakes, Protection against earthquake damage, Origin of Universe, Layers of Earth, Theory of Continental Drift, Hazards due to Earthquakes;Strong Ground Motion:Size of Earthquake: Magnitude and Intensity of Earthquake, Modified Mercalli Intensity Scale, Measuring of Earthquake, Earthquake Magnitude- Local (Richter) magnitude, surface wave magnitude, Moment magnitude, Seismic energy, Correlations. Spectral Parameters: Peak Acceleration, Peak Velocity, Peak Displacement, Frequency Content and duration, Spatial Variability of Ground Motion, Attenuation Relationships, Fourier Amplitude Spectra, Arias Intensity.

Wave Propagation:Elastic response of continua (one, two and three dimensional wave equations); Waves in unbound media; Waves in semi-infinite media; Waves in layered media, Mohorovicic Discontinuity and Gutenberg Discontinuity, Seismic Travel Time Curve, Three Circle Method for locating an Earthquake’s Epicentre;Dynamic Soil Properties:Stiffness, damping and plasticity parameters of soil and their determination (laboratory testing, intrusive and non intrusive in-situ testing); Correlations of different soil parameters; Liquefaction (basics, evaluation and effects), Liquefaction hazard map, Lateral Spreading;Seismic Hazard Analysis:Magnitude Indicators, Segmentation, Deterministic Seismic Hazard Analysis (DSHA), Probabilistic Seismic Hazard Analysis (PSHA), Earthquake Source Characterization, Gutenberg-Richter recurrence law, Predictive relationships, temporal uncertainty, Probability computations, Seismic Hazard Curve, Logic tree methods;Site Response Analysis:Ground Response Analysis, Transfer Function, Non-linear approach. Site Classification;Seismic Analysis and Design of Various Geotechnical Structures:Pseudo-static method, Pseudo-dynamic method, other dynamic methods, Seismic analysis of retaining wall, Seismic slope stability analysis, Behaviour of reinforced soil under seismic conditions, Seismic design of retaining structures, Seismic analysis of Tailings Dam, Seismic displacement based analysis, seismic design of shallow foundations, seismic design of pile foundations, seismic uplift capacity of ground anchors, seismic design of Municipal Solid Waste (MSW) landfills. Codal provisions/guidelines for seismic design of geotechnical structures

Course Curriculum

Introduction to Geotechnical Earthquake Engineering Details 53:46
Introduction to Geotechnical Earthquake Engineering (continued) Details 58:32
Basics of Vibration Theory Details 56:35
Engineering Seismology part -I Details 59:54
Engineering Seismology (continued) part -II Details 51:59
Engineering Seismology (continued) part -III Details 52:7
Engineering Seismology (continued) part -IV Details 54:16
Engineering Seismology (continued) part -V Details 52:47
Engineering Seismology (continued) part –VI Details 1:2:5
Strong Ground Motion Details 48:51
Strong Ground Motion (continued) part –II Details 0:59
Strong Ground Motion (continued) part –III Details 56:1
Strong Ground Motion (continued) part –IV Details 56:18
Strong Ground Motion (continued) part –V Details 55:30
Strong Ground Motion (continued) part –VI Details 52:8
Strong Ground Motion (continued) part –VII Details 57:42
Wave Propagation Details 53:55
Wave Propagation (continued) part –II Details 57:55
Wave Propagation (continued) part –III Details 57:20
Wave Propagation (continued) part –IV Details 58:21
Dynamic Soil Properties Details 56:19
Dynamic Soil Properties (continued) Part -II Details 52:52
Seismic Hazard Analysis Details 54:38
Seismic Hazard Analysis (continued) Part -II Details 1:2:17
-Seismic Hazard Analysis (continued) part –III Details 58:46
Seismic Hazard Analysis (continued) part –IV Details 56:31
Seismic Hazard Analysis (continued) part –V Details 55:3
Seismic Hazard Analysis (continued) part –VI Details 55:6
Seismic Hazard Analysis (continued) part –VII Details 51:53
Seismic Hazard Analysis (continued) part –VIII Details 56:21
Site Response Analysis Details 56:23
Site Response Analysis (continued) part –II Details 55:40
Site Response Analysis (continued) part –III Details 55:4
Seismic Analysis and Design of Various Geotechnical Structures Details 53:10
Seismic Analysis and Design of Various Geotechnical Structures (continued) part –II Details 58:11
Seismic Analysis and Design of Various Geotechnical Structures (continued) part –III Details 53:36
Seismic Analysis and Design of Various Geotechnical Structures (continued) part –IV Details 55:20
Seismic Analysis and Design of Various Geotechnical Structures (continued) part –V Details 1:4:57
Seismic Analysis and Design of Various Geotechnical Structures (continued) part –VI Details 54:53
Seismic Analysis and Design of Various Geotechnical Structures (continued) part –VII Details 53:50
Seismic Analysis and Design of Various Geotechnical Structures (continued) part –VIII Details 58:13
Quiz Details 50:24
Seismic Analysis and Design of Various Geotechnical Structures (continued) part –IX Details 0:55

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