Lecture 1 - Introduction to the basic concept of Finite Element Metric and application
Lecture 2 - Formulation of FEM model and approaches to FEM
Lecture 3 - Rayleigh Ritz method and Galerkin method
Lecture 4 - Relation between force and displacement
Lecture 5 - Beam element and plane stress element
Lecture 6 - Plane strain element and Rayleigh Ritz method
Lecture 7 - Galerkin method and formulation of displacement function
Lecture 8 - Formulation of shape function-Shape function approach-Lagragian formulation-Hermilian formulation
Lecture 9 - Natural coordinate system
Lecture 10 - Stiffness matrix for quadratic element
Lecture 11 - Guassian Quadrature rule (Continued...)
Lecture 12 - FEM solution for beam
Lecture 13 - Two dimensional problem
Lecture 14 - Isoparametric element problem (Continued...)
Lecture 15 - Variational formulation: Beam buckling
Lecture 16 - Problems
Lecture 17 - Problem - Formulation of shape function
Lecture 18 - FEM system of equations and stiffness matrix
Lecture 19 - Solving a truss using FEM
Lecture 20 - Partial differential equation; Classification of physical problems
Lecture 21 - IVP, BVP, Variational principle
Lecture 22 - Fluid flow problem
Lecture 23 - Steady state flow around a circular cylinder (Full Solution)
Lecture 24 - Steady state flow around a circular cylinder (full solution) (Continued...)
Lecture 25 - Wave Diffraction : Wave interaction with the vertical wall
Lecture 26 - FEM Analysis by software Application
Lecture 27 - Analysis of Jacket using SACS
Lecture 28 - Diffraction-radiation problem
Lecture 29 - Solution of heave added mass
Lecture 30 - Solution of heave added mass (Continued...)
Lecture 31 - Oblique long wave interaction
Lecture 32 - Wave propagation in shallow water
Lecture 33 - Combined refraction-diffraction
Lecture 34 - Solution of mild slope equation using FEM
Lecture 35 - Sloshing, fluid Structure Interaction
Lecture 36 - Sloshing, fluid structure interaction (Continued...)
Lecture 37 - Non-linear free surface wave interaction with a body
Lecture 38 - Non-linear sloshing and unstructured mesh
Lecture 39 - Non-linear wave simulation in 3D tank
