Lecture 1 - Doming and Diapirism
Lecture 2 - Isostasy - I
Lecture 3 - Isostasy - II
Lecture 4 - Ghyben-Herzberg law, Hydrostatic and Deviatoric stresses and strains
Lecture 5 - Resolution of stress as vectors
Lecture 6 - Addition and resolution of Stress (& Force) - I
Lecture 7 - Addition and resolution of Stress (& Force) - II
Lecture 8 - Addition and resolution of Stress (& Force) - III
Lecture 9 - Addition and resolution of Stress (& Force) - IV
Lecture 10 - Principle of centrifuge analogue modeling
Lecture 11 - Stress Issue: Mohr circle - I
Lecture 12 - Stress Issue: Mohr circle - II
Lecture 13 - Stress Issue: Mohr circle - III
Lecture 14 - Stress Issue: Mohr circle - IV
Lecture 15 - Strain parameters: Definitions and Calculations - I
Lecture 16 - Finding out areas of irregular geometries
Lecture 17 - Elementary strain analysis - I
Lecture 18 - Elementary strain analysis - II
Lecture 19 - Stress and strain behaviour of rocks - I
Lecture 20 - Stress and strain behaviour of rocks - II
Lecture 21 - Stress and strain behaviour of rocks - III
Lecture 22 - Ductile simple shear zone kinematics - I
Lecture 23 - Ductile simple shear zone kinematics - II
Lecture 24 - Ductile simple shear zone kinematics - III
Lecture 25 - Ductile simple shear zone kinematics - IV
Lecture 26 - Ductile simple shear zone kinematics - V
Lecture 27 - Ductile simple shear zone kinematics - VI
Lecture 28 - Ductile simple shear zone kinematics - VII
Lecture 29 - Ductile simple shear zone kinematics - VIII
Lecture 30 - Ductile pure shear zone kinematics
Lecture 31 - Ductile pure shear zone kinematics and Taylor-Couette flow
Lecture 32 - Taylor-Couette flow
Lecture 33 - Introduction to Second-Rank Tensors - I
Lecture 34 - Introduction to Second-Rank Tensors - II
Lecture 35 - Second-Rank Tensors and Stress Issues - I
Lecture 36 - Second-Rank Tensors and Stress Issues - II
Lecture 37 - Second-Rank Tensors and Stress Issues - III
Lecture 38 - Cauchy Stress Tetrahedron
Lecture 39 - Stress Invariants
Lecture 40 - Stress and strain invariants, Hooke law for isotropic materials
Lecture 41 - Hooke’s law - II
Lecture 42 - Triaxial stress applied on materials with thermal effects
Lecture 43 - How stress can alter permeability, double dot product and applications
Lecture 44 - Deviatoric stress and strain, deformation gradient and Jacobian matrix
Lecture 45 - General definition of 3D strain, application of Jacobian matrix
Lecture 46 - Application of Jacobian matrix, nonhomogeneous deformation
Lecture 47 - Rotation and translation - changes in coordinates
Lecture 48 - Principles of 1g analogue modeling - I
Lecture 49 - Principles of 1g analogue modeling - II
Lecture 50 - Principles of 1g analogue modeling - III
Lecture 51 - Anderson's theory of faulting
Lecture 52 - Stereoplot of principal stress axes - I
Lecture 53 - Stereoplot of principal stress axes - II
Lecture 54 - Stereoplot of principal stress axes - III
Lecture 55 - Deduction of principal stress axes orientation from fault data
Lecture 56 - Elementary stress problems dealing with stereonet - I
Lecture 57 - Elementary stress problems dealing with stereonet - II
Lecture 58 - Poroelasticity - I
Lecture 59 - Poroelasticity - II, stereonet problem
Lecture 60 - Poroelasticity - III
