Undergraduate Courses
Statics (Fall, 1st year)
An introduction to the fundamental principles of equilibrium in mechanical systems. Students learn to analyze forces, moments, and reactions in rigid bodies through vector mechanics and free-body diagrams.
Numerical Analysis (Fall, 2nd year)
Covers numerical methods for solving engineering and scientific problems, including root-finding, numerical integration, differential equations, and error analysis using MATLAB.
Applied Solid Mechanics (Fall, 2nd year)
Focuses on stress–strain relationships, elastic deformation, and structural response under various loading conditions. Applications to engineering components are emphasized.
Solid Mechanics (Spring, 2nd year)
A comprehensive study of mechanical behavior in deformable solids. Topics include stress transformation, torsion, bending, and energy methods in elasticity.
Finite Element Analysis (Spring, 3rd year)
Introduces the finite element method for analyzing mechanical and structural systems. Students learn to formulate and solve problems in elasticity modeling.
Graduate Courses
Advanced Wave Engineering
Explores wave propagation, scattering, and control in elastic and acoustic media. Emphasis is placed on metamaterials, dispersion analysis, and numerical simulation methods.
Elasticity
An advanced theoretical course on the fundamentals of continuum mechanics and elasticity. Topics include stress and strain tensors, constitutive equations, boundary-value problems, and analytical solutions for 2D and 3D elasticity.