Covers hands-on control systems sessions, including remote experimentation, equipment usage, and analysis tools.
Explores the Weibull model's application to random data and its significance in analyzing material strength and failure probability.
Explores redox reactions, electrode potentials, and their practical uses in electrochemistry.
Explores fracture mechanics, crack growth, and the weakest link theory, emphasizing the statistical distribution of crack sizes and the significance of the largest crack in material failure.
Explores macroscopic energy analysis of fracture, focusing on unstable crack growth and energy mechanics.
Explores the rigorous bounds on effective properties of isotropic phases and laminated plates.
Explores kinematics of deformation, focusing on radial and linear expansion, torsion, and rotation by an angle.
Explores rigorous upper and lower bounds for isotropic phase composites and their microstructure arrangement, focusing on laminated plates and stress-strain relationships.
Explores energy analysis in fracture mechanics, emphasizing unstable crack growth and the importance of compliance in structural behavior.
Introduces fundamental C programming concepts, covering variables, control structures, functions, and pointers, with practical examples and exercises.
