Lecture 1 - Introduction, definition and phase relations, components, advances, and relevance
Lecture 2 - Concept of force, load and stress
Lecture 3 - Stress-strain behaviour, modulus, and Poisson’s ratio
Lecture 4 - Engineering properties of geoground/geomaterial
Lecture 5 - Strength failure criteria of geomaterial (rock)
Lecture 6 - Classification of water
Lecture 7 - Geoground, surface and groundwater interaction
Lecture 8 - Impact of water on geoground (rock)
Lecture 9 - Impact of water on geoground (soil)
Lecture 10 - Impact of water on ground, durability of geoground/geomaterial (soil)
Lecture 11 - Types of infrastructures, components and elements of building
Lecture 12 - Forces acting on building foundation strata/layers
Lecture 13 - Types of foundations and footings
Lecture 14 - Ground-foundation interaction, differential settlement, and basic of retaining walls
Lecture 15 - Retaining walls and earth pressures
Lecture 16 - Elements and classification of underground space structures
Lecture 17 - Excavation methods for underground space structures : Basic of drilling and blasting
Lecture 18 - Excavation methods underground space :underground :underground and blasting techniques
Lecture 19 - Excavation methods for underground space structures :tunnel boring machine (TBN)
Lecture 20 - Subsidence and ground control problems in underground spaces
Lecture 21 - In situ stress, damage zone and concept of ground pressure
Lecture 22 - Approaches for estimation of ground pressure : empirical and semi-empirical methods
Lecture 23 - Approaches for estimation of ground pressure : semi-empirical and other methods
Lecture 24 - Grout, Grouting and groutability
Lecture 25 - Anchoring of rock strata and support system and bolting
Lecture 26 - Characteristics of geoground in cold region
Lecture 27 - Behaviour of geoground in cold region (Mechanical attributes of snow)
Lecture 28 - Behaviour of geoground in cold region (Mechanical attributes ice and ice mixed soils)
Lecture 29 - Ground control issues and facets of glaciated slopes
Lecture 30 - Mitigation engineering structures
Lecture 31 - Geotechnical implication in mineral exploration
Lecture 32 - Geotechnical issues related to extraction of mineral resources
Lecture 33 - Mine fire and related geotechnical issues
Lecture 34 - Groundwater occurrences and exploration
Lecture 35 - 05:Geotechnical facets of groundwater extraction and saltwater intrusion
Lecture 36 - Concept, resources and classification of energy
Lecture 37 - Geoengineering view of geothermal energy
Lecture 38 - Concept and sources of green energy and associated geotechnical challenges
Lecture 39 - Water energy and geoengineering issues
Lecture 40 - Classification energy source reservoirs
Lecture 41 - Radioactive and strategic minerals gas hydrates as energy geotechnical constraints
Lecture 42 - Classification of energy source reservoirs and concept geomechanical characterization
Lecture 43 - Geomechanical characterization of hydrocarbon reservoir
Lecture 44 - Geomechanical characterization of Coal bed methane and shale gas reservoirs
Lecture 45 - Geomechanical characterization of geothermal reservoir
Lecture 46 - Climate change scenario
Lecture 47 - Impact of climate change
Lecture 48 - Nuclear power and generation of waste and related issues
Lecture 49 - Geotechnical facets of carbon dioxide capture and sequestration
Lecture 50 - Geotechnical issues and solutions in nuclear waste disposal
Lecture 51 - Mass wasting and landslide hazards zonation
Lecture 52 - Slope stability analysis of natural and engineered slopes
Lecture 53 - Earthquake hazards analysis and mitigation
Lecture 54 - Induced seismicity
Lecture 55 - Volcanic hazards, assessment and mitigation
Lecture 56 - Quaternary land forms and active neotectonics
Lecture 57 - River hydraulics and associate problems, geotechnical applications
Lecture 58 - Linking of river and expected geotechnical issues and possible measures
Lecture 59 - Seashore and wave dynamics
Lecture 60 - Wave dynamics, hazards, geotechnical issues and mitigation
