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Lecture
Buckling of Plates in Mechanics of Slender Structures
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Derivatives of Trigonometric Inverse Functions
Explores derivatives of trigonometric inverse functions and their properties, with examples and solutions included.
Trigonometric Functions: Basics and Applications
Introduces the basics of trigonometric functions, their properties, and practical applications in geometry and physics.
Plates II: Mechanics of Slender Structures
Explores the mechanics of slender structures, discussing plate evaluation, bending energy, and curvature tensors.
Plates III: Buckling Theory and Applications
Explores Föppl-von Kármán plate theory, including buckling equations and an example of plate compression.
Nonlinear Curved Beams
Covers the mechanics of slender structures, focusing on nonlinear curved beams.
Linear Shell Theory: Equilibrium Equations
Covers the dimensional reduction of strain energy from 3D to 2D and linear shell theory equilibrium equations.
Continuum Mechanics: Forces and Deformation
Covers the basics of continuum mechanics, including forces transmission, energy conservation, and body motion geometry.
Mechanics of Plates: Curvature, Bending, and Stretching Energy
Covers the mechanics of plates, focusing on curvature, bending, and stretching energy.
Equidistribution of CM Points
Covers the joint equidistribution of CM points and explores convergence in multiple variables.
Rotation of a Vector
Explores the rotation of vectors in a plane using trigonometric functions.
