• Fluid-structure Interaction

    Review of essential elements of elastic vibration and basic fluid mechanics; hydroelasticity based on potential flow theory; acoustic-structure interaction; dynamic aeroelasticity of airfoils; analytical solution of selected 1- and 2-D model problems; overview of computational models and methods for nonlinear fluid-structure interaction problems (e.g., partitioned and monolithic procedures, arbitrary Lagrangian-Eulerian, immersed/embedded boundary, interface tracking). Pre:…

  • Electronic and Crystal Structure of Materials

    Provides a fundamental understanding of the structure of crystalline and non-crystalline engineering materials from electronic to macroscopic properties. Topics include symmetry and crystallography, the reciprocal lattice and diffraction, quantum physics, bonding and band theory.

  • Electronic And Crystal Structure Of Materials

    Provides a fundamental understanding of the structure of crystalline and non-crystalline engineering materials from electronic to macroscopic properties. Topics include symmetry and crystallography, the reciprocal lattice and diffraction, quantum physics, bonding and band theory.

  • Wood Structures Design

    Design of wood structures based on national design specification and load and resistance factor design

  • Steel Structures Design

    Load and resistance factor design methods for steel structures

  • Steel Structures Design

    Load and resistance factor design methods for steel structures.

  • Design Of Coastal Structures

    Nonlinear wave theories; wave forces on slender piles and seawalls; design of rubblemound structures; design philosophy, initial costs, maintenance costs, optimized design using stochastic methods; design of renourished beaches. Advanced alternative solutions for shore protection

  • Design of Coastal Structures

    Nonlinear wave theories; wave forces on slender piles and seawalls; design of rubblemound structures; design philosophy, initial costs, maintenance costs, optimized design using stochastic methods; design of renourished beaches. Advanced alternative solutions for shore protection

  • Design Of Coastal Structures

    Nonlinear wave theories; wave forces on slender piles and seawalls; design of rubblemound structures; design philosophy, initial costs, maintenance costs, optimized design using stochastic methods; design of renourished beaches. Advanced alternative solutions for shore protection.

  • Design of Coastal Structures

    Nonlinear wave theories; wave forces on slender piles and seawalls; design of rubblemound structures; design philosophy, initial costs, maintenance costs, optimized design using stochastic methods; design of renourished beaches. Advanced alternative solutions for shore protection